The University Senate of
PROPOSAL
32-05
(Voting Units: Academic Senators)
Ph.D. Program in Biomedical Engineering
Department of Biomedical Engineering
January 2004
Introduction,
This is a proposal to formally establish an interdisciplinary
Ph.D. program in Biomedical Engineering (BME) within MTU’s Department of
Biomedical Engineering. The mission of
the proposed graduate program is to train both engineers and life scientists in
the science and technology of this field and to recognize their achievement by
creating an advanced biomedical engineering degree at
Biomedical engineering is a discipline that advances
knowledge in engineering, biology and medicine, and improves human health
through cross-disciplinary activities that integrate the engineering sciences
with the biomedical sciences and clinical practice. [Whitaker Foundation] The
proposed PhD program will emphasize research and education in
biomaterials/tissue engineering and physiological measurements. Because biology will have increasing
importance in all of engineering in the coming years, this Ph.D. program will have
a strong life science component. Our
goal is to prepare students at the doctoral level who can continue their
research work in post doctoral training, assume positions in academia,
industry, or governmental agencies and be prepared to grow into positions of
leadership.
Our specific short-term (1 – 3) and long-term (4 – 5)
objectives to achieve this mission are:
1.
Return
the Department of Biomedical Engineering to full-staffing with six full-time
faculty and a Department Chair
2.
Establish
PhD student enrollment at a level of 1.5 – 2 per faculty member
3.
Prepare
a recruiting effort to publicize our program, identify promising potential
students and encourage them to matriculate in our PhD program
4.
Expand
graduate course offerings in the Department by emphasizing our fields of
specialization and the biological aspects of these fields
5.
Increase
external funding to an average level of
$200,000 annual research expenditures per faculty member
6.
Contribute
to MTU’s mission to be a nationally prominent and internationally recognized
technological university that bridges technology and business and meets the
needs of a global and technologically rich society through excellence in
undergraduate and graduate education, scholarship, and research.
1. Related
Programs
Biomedical
engineering is an interdisciplinary program.
The study of biomedical engineering has been ongoing at MTU, but BME did
not exist as a department or as a major until 1997. In fact, most current BME faculty do not have
degrees in biomedical engineering. Their
degrees are more likely to be in electrical or mechanical engineering or
perhaps materials science or chemical engineering. These remain related programs. For example, here at MTU, without a graduate
program in biomedical engineering, our current graduate students are enrolled
in other departments (mechanical, electrical and chemical engineering, and
materials science), and our BME faculty have adjunct appointments in those
departments so they can serve as the research advisors and mentors for students
in those other departments who are doing research in BME. The interdisciplinary nature of BME will not
change with the addition of a Ph.D. program in BME. It is important to note, however, that while
these other programs are related to BME, they are not BME programs.
2. Rationale
Biomedical
Engineering is one of the fastest growing engineering specialties in the
There are
many reasons to establish a doctoral program in biomedical engineering at
MTU. First, there is an increasing
demand for biomedical engineers at all levels.
The biomedical engineering job market is growing at a rapid rate. The U.S. Department of Labor estimates that there
will be a 31% increase in biomedical engineering jobs by the end of the decade,
and many of these positions will require an advanced degree.
[ftp://ftp.bls.gov/pub/special.requests/ep/ind-occ.matrix/occ_pdf/occ0135.pdf] The fundamental life sciences and biology
are undergoing a major revolution that is changing these fields from
qualitative, descriptive disciplines to quantitative, mathematically-based
disciplines similar to the physical sciences.
Applications of biology are increasing exponentially, and the
biotechnology industry continues to grow.
Engineers
of all backgrounds are playing an increasing role in these areas, and
biomedical engineers are well-positioned to be at the forefront of this
expansion with their specialized training in the application of the
fundamentals of the biological sciences to
real-world problems
using the techniques of traditional engineering, the physical sciences and
mathematics.
As the
world’s population ages and the cost of health care rises, the demand for
professionals trained in biomedical engineering will continue to increase The cost of health care will be an important
factor in future years, and technology does and will represent a significant
portion of these costs. Biomedical
engineers can play an important role in containing these costs by being aware
of the technological as well as medical issues involved in development and deployment of new technologies. Beside the cost of health
care, quality of life will be a critical concern as aging
baby-boomers look for ways to remain living independently. The solution to coming healthcare-related
problems will require engineering methodologies from a broad, interdisciplinary
approach that includes, not only engineering and the life sciences, but an
understanding of social problems associated with aging. MTU is well positioned to contribute highly
qualified candidates at both the undergraduate and graduate levels to meet this
nationwide demand.
Second, a
doctoral program in biomedical engineering is a natural progression for the
Biomedical Engineering Department at MTU.
The University’s mission recognizes that it is important to couple
research-oriented graduate training programs with undergraduate programs in
order to achieve the highest quality education at all levels. Without question, a research-centered
doctoral program in biomedical engineering will also strengthen MTU’s
undergraduate program. Demand for this
program at MTU is evidenced by the twelve students who are currently enrolled
in biomedical engineering graduate study and whose thesis and dissertation
research is being supervised by biomedical engineering faculty. However, because MTU does not presently offer
a Ph.D. in biomedical engineering, these students must enroll in other
departments at MTU, such as Mechanical Engineering and Materials Science
Engineering, in order to receive the training they want. By establishing a Ph.D. in biomedical
engineering, enrolled students can focus their research and education on this
specialized field, and MTU can continue to build a solid reputation as a leader
in the field of biomedical engineering education.
Third, by
developing a first-rate biomedical engineering graduate program, MTU can
compete for increasing funding opportunities.
In response to the demand for biomedical engineering expertise, the
Federal government established the National Institute of Biomedical Imaging and
Bioengineering and several new study sections to review grant applications
specifically in the area of biomedical engineering. The National Science Foundation, an agency in
which MTU is very successful in securing research funding, has increased its
support for biomedical engineering-related education and research
activities. This support even extends to
major programs such as NSF’s Engineering Research Centers. By offering a Ph.D. in biomedical
engineering and by developing a strong accompanying research program, MTU will
be able to submit competitive proposals to research and funding agencies
traditionally associated with the medical profession, such as the National
Institutes of Health. These agencies
help support our graduate degree programs by creating research opportunities
and by providing financial support for graduate students.
Fourth, MTU is capable of delivering a nationally-recognized
doctoral biomedical engineering program.
MTU’s Department of Biomedical Engineering has received solid support
from The Whitaker Foundation, a leader in the support of research and education
in biomedical engineering. Recently, MTU
received another award from The Whitaker Foundation. This $180,000 award, which will help the
Biomedical Engineering Department expand industrial co-ops and internships for
biomedical engineering majors, evidences external confidence in MTU’s ability
to deliver a high-quality education founded in both theory and practice.
Biomedical
engineering has a strong interdisciplinary component, and combines traditional
engineering fields and the basic sciences.
A graduate biomedical engineering program at MTU can and will take
advantage of the strong engineering and science faculties at the
University. A hallmark of the proposed
program will be the close interaction with other science and engineering
departments with particular emphasis on Biological Sciences, Materials Science
and Engineering, and Chemical Engineering.
The program will also be able to partner with local and regional health
care facilities in order to provide our students with a comprehensive graduate
education in biomedical engineering.
Finally, because
the proposed program will attract students who have non-engineering
undergraduate degrees or no previous life science courses, some students
admitted to the program will find it necessary to take additional training to
fill gaps in their background. Interaction between students in the biomedical
engineering graduate program who have diverse undergraduate backgrounds will
provide many informal educational opportunities for this interdisciplinary field.
3. Curriculum
Design
Admission
Requirements: Students with a B.S. or M.S. degree
in engineering, mathematical sciences, the physical sciences and biological
sciences from an accredited college or university will be eligible for
admission to the Ph.D. program. Students
who have a baccalaureate or Master’s degree from a non-engineering discipline
(e.g. life science) will be considered for admission to the program on a case
by case basis and will be eligible for provisional admission. Students with non-engineering degrees will be
required to complete the following pre-requisite courses or BME faculty
approved equivalent courses prior to full admission into the Graduate
program:
1. BL
1020, General Biology
2. Math
courses through Differential Equations
3.
MY
2100, Materials Science
4.
MEEM
2120, Statics and Mechanics of Materials
5.
EE
3010 Electrical/Electronic Circuits
Optional:
1.
MEEM
3210 Fluids Mechanics
2.
MEEM
3230 Heat Transfer
3.
MEEM
2700, Dynamics
4.
MEEM
2200, Thermodynamics
Curriculum: A minimum of sixty
credits after a B.S are required for the Ph.D. degree. These credits are distributed as follows:
14 credits
of core courses,
25 credits
of research,
21 committee
approved thrust area credits.
The number of credits for the Ph.D. degree after a
Master’s degree is 30 credits. The
courses these students will need will be determined on a case-by-case
basis. Common to each field at the Ph.D.
level are the following core courses:
Core
course |
Credits |
Life
Science |
6 |
Graduate
Seminar |
2 |
Advanced
Math |
3 |
Statistics |
3 |
Total Core Credits |
14 |
Throughout their degree program, the graduate
students will be required to attend the Graduate Seminar. During the first year of study, the students
will receive one credit for each semester for participation. After the first year, attendance will still
be mandatory, but the students will not receive credit.
The student will have the option to take at least one
of the following advanced math courses to satisfy the core math requirement:
Course Number |
Course Title |
Credits |
MA4515 |
Intro.
Partial Diff. Eqns. |
3 credits |
MA4520 |
Integral
Trans & Series Methods |
3 credits |
MA4610 |
Numerical
Linear Algerba |
3 credits |
MA4620 |
Finite
Difference Methods & PDEs |
3 credits |
MA4635 |
Numerical
Methods for Integral Eqations |
3 credits |
MA4710 |
Regression
Analysis |
3 credits |
MA4720 |
Design/Analysis
of Exp. |
3 credits |
The following is the proposed list of biomedical
engineering courses to be offered, including the number of credits and the
frequency with which the course will be offered.
Course Number |
Course Title |
Frequency |
Credits |
BE4930 |
Graduate
Seminar |
Semester |
2 |
BE4930 |
Advanced
Physiology |
annually |
3 |
BE5500 |
Advanced
Biomaterials |
annually |
3 |
BE4930 |
Advanced
Biomechanics |
annually |
3 |
BE4210 |
Exercise
Physiology |
annually |
3 |
BE5600 |
Laser,
Optics, and Biosensors |
alternate
years |
3 |
BE5930 |
Biomaterial
Interfaces |
alternate
years |
3 |
BE5940 |
Implantable
Devices |
alternate
years |
3 |
BE5930 |
Genetic
Engineering |
alternate
years |
3 |
BE5930 |
Advanced
Polymeric Materials |
annually |
3 |
BE6930 |
Special
Topics in Biomedical |
varies |
Variable |
BE9990 |
Ph.D. Dissertation
|
Semester |
Variable |
Each of the above courses is presently offered at MTU. As faculty are added to the BME Department,
additional courses will be developed based on the interests and expertise of
the new faculty, and the listed courses may undergo revision as they are taught
by new faculty.
Due to the interdisciplinary nature of the biomedical
engineering program, courses also will be taken outside the Biomedical
Engineering Department as determined by the student and his/her advisory committee
and dependent on the student’s area of emphasis.
Academic advancement by the student is measured in
terms of semester hour credits or, simply, credits. One credit should average three hours of a
student’s time per week for one semester.
Depending on the course requirements, these three hours may be spent in
the classroom, laboratory, or may be divided between home study, class or
laboratory attendance. One hour in class
and three hours of individual study is a typical division.
Courses numbered in the 3000 and 4000 series are
intended primarily for upper-division undergraduate students but are available
to graduate students for graduate credit with approval by the Department of
Biomedical Engineering. Courses of the
5000 level are intended primarily for graduate students, but senior level
undergraduates that have at least a 3.0 G.P.A. can also take these
courses. Courses numbered in the 6000
and above series are available only to advanced graduate students.
Typical
Program of Study: Below are lists of
example curricula for the Ph.D. degree in each of the areas of concentration,
Biomaterials/Tissue Engineering, and Physiological Measurement:
Biomaterials /Tissue
Engineering
BE4930 Advanced
Physiology
BE4930 Graduate Seminar
----------- Advanced Math Course (as
appropriate to each student)
MA5701 Statistical Methods
MY 5000 Materials
Science and Engineering BU------- Entrepreneur/Industrial Modules
(under development)
Suggested
Electives:
BL4010 Biochemistry I
BL4020 Biochemistry II
BL4820 Biochem. Techniques I
BL4830 Biochem. Techniques II
BL5350 Special Topics Physiol.
BL5360 Special Topics Biochem.
BL4320 Histology
BL4470 Analysis of Biological Data
CH5530 Molecular Spectroscopy
BE5500 Advanced Biomaterials
BE5930 Biomaterials Interfaces
BL4030 Molecular Biology
MY
5100 Thermodynamics and
Kinetics I
MY
5110 Thermodynamics and
Kinetics II
MY
5200 Scanning Electron
Microscopy
MY
5250 Practical Transmission
Electron Microscopy
MY
5400 Mechanical Behavior of
Materials
MY
5540 Surface Chemistry I
MY
5550 Surface Chemistry II
Physiological
Measurement
BE4930 Advanced
Physiology
BE4930 Graduate Seminar
MA5701 Statistical Methods
BE5940 Implantable
Devices
BU------- Entrepreneur/Industrial
Modules (under development)
Suggested
Electives:
MY 5000 Materials
Science and Engineering
BE5500 Advanced
Biomaterials
BE5930 Biomaterials Interfaces
BE5600 Lasers, Optics, and Biosensors
BE4930 Advanced Polymeric Materials
BE5930 Genetic Engineering
BL4010 Biochemistry I
BL4030 Molecular Biology
BL4080 Cardiopulmonary Physiology
EE
4211 Computer-Aided Circuit
Design
EE
4231 Physical Electronics
EE
4232 Electronic Applications
EE4252 Two-Dimensional Signal and
Image Processing
EE4253 Real Time Signal Processing
EE4255 Wireless Communications
EE4261 Classical Control Systems
EE
5430 Electronic Materials
EE
5450 Modeling of IC
Interconnects
EE
5460
EE
5530 Wireless Digital
Communication
EE
5580 Wavelet and Spectral
Analysis
EE
5900 Introduction
to MEMS
EE6470 Thin Films
MY5200 Scanning Electron Microscopy
MY
5540 Surface Chemistry I
MY
5550 Surface Chemistry II
Each plan of work must be approved the Graduate
Program committee.
Enrollment and Credit
Requirements: Full-time and part-time students
will be permitted to enroll in the program.
Full-time students not supported by GRA or GTA appointments are required
to take a minimum of 9 credits per semester at the Doctoral level. All graduate students using University
Services must be enrolled for at least one course or at least one credit of graduate
research. The maximum is 16 credits per
semester, though supported graduate students should generally plan to take 9-11
credits per semester. Graduate students
supported by a GRA or GTA appointments or fellowships may not drop below the
minimum number of credit hours as described above. GRA and GTA students are required to register
for and complete a certain number of credit hours, depending on their level of
support, in each semester in which they receive support. In the Doctoral programs, research credits
may be included for the purpose of determining whether the minimum and maximum
enrollment criteria have been met. GRAs
and GTAs who are enrolled for the minimum of credits are considered to be
full-time students.
Appointment levels shall be as follows:
Quarter
time (10 hours per week) 9 credit minimum,
Half
time (20 hours per week) 9 credit minimum,
Three
quarter time (30 hours per week) 9
credits minimum,
Summer
enrollment 1
credit or 1 course
Unless the fellowship carries other requirements for
determining eligibility, fellowship students must be enrolled full time (9
credit minimum Ph.D. level).
Grade
Requirements: Students must maintain a minimum
grade point average of 3.0 in order to complete and graduate from the
program. A ‘C’ earned in one course may
be counted towards graduation requirements, provided that it is offset by an
equivalent number of ‘A’ credits to allow at least a 3.0 grade point average to
be maintained. Also, if a student
receives a ‘C’ in two of his/her classes, the classes can be repeated with
permission from the student’s advisor and the Graduate Program Committee.
Time to Degree
Requirements: Ph.D. students must complete the
doctoral degree within eight years from the time of a student’s first
enrollment in the doctoral program by the Dean of the
Other Degree
Requirements: The degree requirements for a Ph.D.
in Biomedical Engineering will adhere to the general rules and requirements
established by the
Advisory Committee - Each student will have an Advisor
who is a member of the Biomedical Engineering faculty. Approval by the Department chairperson will
be required. The Advisor’s primary
responsibility will be supervising the student’s research project and directing
the student’s academic and professional growth.
Adjunct faculty can serve as a student’s research advisor, but the
Department chairman may choose to appoint an academic advisor in those cases
where the adjunct faculty may not be familiar with the Department’s rules and
requirements.
An Advisory Committee for each
student will be comprised of the student’s advisor plus 4 additional
members. Two of the four may be from the
same department as the Advisor while the other two will come from members of
the Graduate Faculty outside the Department of Biomedical Engineering. At least one of the Committee members must be
an engineer as defined by holding a doctorate in an engineering
discipline. Since biomedical engineering
is an interdisciplinary field, it will be imperative that the Advisory
Committee play an active role in the research project. Therefore, it will be critical that the
Advisory Committee members be appointed during the student’s first academic
year in the BME Ph.D. program. Also, the
Advisory Committee must meet at least twice a year with the advisor and the
student to discuss progress. A brief
written and oral report on the research will be expected from the student at
these meetings. It is expected that the
student and advisor will meet on a regular basis.
Comprehensive Examination - Advancement to doctoral candidacy
is contingent upon successful completion of a comprehensive written and oral
examination. All Ph.D. students will be
expected to take the examination no later than three years after enrollment. However, students will be encouraged to take
the examination after completion of the core courses. The exam will be offered twice a year
depending upon need. Each student will
take a comprehensive written examination composed of two core areas (Math and
BME Core Courses: Biomaterials, Biomechanics, Life Sciences Bioinstrumentation)
and one area of specialization (which will cover material relevant to the
candidate’s research focus).
Students must pass the written
examination before the oral examination may be scheduled. Students will pass each portion of the
written examination with a score of 70% or better. If a student fails one section, she/he must
re-take all sections for which scores were less than 70 percent. Students will not be required to re-take
sections for which scores were 70 percent or greater. In the event a student must re-take any
portion or each portion of the written test, she/he must wait until the next
scheduled examination date (approximately 6 months). Students will be allowed to take each section
of the written examination a maximum of two times unless special circumstances
arise. Failure on the second attempt may
result in dismissal from the program after a complete review of the student's
records.
An oral examination will also be
administered. Students may schedule the
oral examination, which will be administered by the student’s advisory
committee members, following successful completion of the written examination. The decision to pass or fail a student will
be made by the committee, and criteria may vary on an individual basis. Students will be allowed to take the oral
examination a maximum of two times.
Failure on the second attempt may result in dismissal from the
program. Following successful completion
of the oral examination, the student is admitted to candidacy for the doctoral
degree.
Research Dissertation Proposal - Before accumulating more than 10
semester credits of BE 9990 Doctoral Dissertation Research, each student is
required to successfully pass an oral defense of the research dissertation
proposal. This examination shall be a
presentation of the proposal for the dissertation research, and is to be
administered by the student’s doctoral committee.
4. New
Course Descriptions
No new
courses are planned. However, as BME
faculty are added, we anticipate that they will develop new courses in their
areas of interest and expertise and that they will revise existing courses to
suit their teaching methods student needs.
5. Projected
Enrollment
We project
our initial Ph.D. graduate enrollment to be 1.5 graduate students per BME
faculty member. Our goal is to increase
this number to 2.0 graduate students per BME faculty member. Upon approval of the proposed Ph.D. program
in biomedical engineering, the department will offer the biomedical students
currently enrolled in other departments the opportunity to transfer to
BME. The department’s immediate plan is
to increase our current size from 5 faculty (including department chair) to 7
faculty (including department chair).
These positions are included in the Department’s budget and do not
require new funding authorizations. The
department is on track to meet this staffing goal. A new faculty member will begin at MTU on
Recruitment
plans include (1) carefully screening our BME undergraduate majors for
potential graduate school candidates, (2) working with MTU’s
6. Scheduling
Plans
The Ph.D.
program in BME will be offered at the beginning of Fall Semester 2005, although
students already enrolled in other departments who are studying biomedical
engineering will be invited to transfer into the program sooner. The number of BME faculty will be at the
projected and budgeted number of 7 (including department chair) by the
beginning of Fall Semester 2005. Student recruitment will begin upon approval of this proposed Ph.D. program.
7. Administration
of Degree Program
Even though
the proposed PhD degree program is within the
8. Program
Costs (Years 1, 2, and 3)
Estimated
program budgets for Years 1, 2, and 3 are attached to this proposal as
Attachment A.
9. Description
of Available/Needed Equipment
Graduate
students in the BME Department will require computing resources in or near
their workspace. The current BME
computing labs are located in the West Computing facilities in the
10. Faculty
Resumes
Current CVs
for each BME faculty member are attached t this proposal as Attachment B.
11. PRR
(if planned) – NA to this proposal.
12. Internal
Status of Proposal
This
proposal for a Ph.D. in Biomedical Engineering has the support of the entire
BME faculty, and a letter indicating this signed by all BME faculty members is
attached to the original copy of this proposal.
The proposal has been reviewed and approved by the Dean of MTU’s
13. Planned
Implementation Date
This
proposed Ph.D. program will be implemented upon final approval at all required
levels.
14. Library
and Other Learning Resources
We have
requested an allowance in our budget for library acquisition of books and journals relevant to the biomedical engineering field. The library’s present collection of biomedical engineering resources is not adequate to
support a graduate program in BME. There
are a number of professional journals and books that are essential library
resources for BME graduate students.
15. Space
No
additional space is required to support this proposed Ph.D. program.
16. Accreditation
Requirements
There are
no further accreditation requirements for this proposed Ph.D. program. The BME Department will be seeking ABET
accreditation for its undergraduate BME program in the fall of 2004.
Revised 4/14/05
Ph.D. Program in
Biomedical Engineering
Attachment A
Estimated Budget and
Justification for Years 1 – 3
Budget Item |
Year 1 |
Year 2 |
Year 3 |
Total |
Faculty |
NA |
NA |
NA |
NA |
Graduate
Support (Stipend,
Tuition, Fees) |
$120,000 |
$120,000 |
$120,000 |
$360,000 |
Equipment (Computers
and support for added grad students) |
$ 8,000 (4
computers and support) |
$ 8,000 (4
computers and support) |
$ 4,000 (2
computers and support) |
$ 20,000 |
Library
Resources |
$ 4,000 |
$ 4,000 |
$ 4,000 |
$ 12,000 |
Travel |
NA |
NA |
NA |
NA |
Additional
Space or Renovations |
NA |
NA |
NA |
NA |
Totals |
$132,000 |
$132,000 |
$128,000 |
$392,000 |
Budget Justification:
Faculty
salaries are already included in the existing BME budget, and no new funding
authorization is required at this time.
This
estimated budget assumes continuing graduate student support at current levels,
which includes 6 graduate teaching assistants supported by MTU and 5 graduate
students supported by external research funding. For the first 3 years of the new Ph.D.
program, the Department requests support from MTU for 4 additional Ph.D.
graduate students. This assumes an
annual stipend of $20,000 and tuition and fees of $10,000 per student. When the Ph.D. program is well-established,
the Department anticipates increased external research funding to support more
graduate students.
Graduate
students in the BME Department will require computing resources in or near
their workspace. Some of the current
graduate students associated with the Department already have computing
facilities though their research support, but others and new students will
require additional facilities. Other
than computing resources, no new equipment is needed to support this proposed
Ph.D. program
The
Department requests $4,000 per year for library acquisition of books and
journals relevant to the biomedical engineering field. The library’s present collection of
biomedical engineering resources is not adequate to support a graduate program
in BME. There are a number of
professional journals, such as Physiological
Measurement, and books that are essential library resources for BME
graduate students. $4,000 per year will
allow for annual subscriptions to 4 professional journal subscriptions and
acquisition of several books
DATE:
TO: Michael R. Neuman, PhD, MD
Professor
and Chair
FROM: Faculty of Biomedical Engineering
RE: Doctoral Program in Biomedical Engineering
_________________________________________________________________________
We, as the current faculty
members in the Department of Biomedical Engineering, request that you take the
necessary steps to establish a PhD degree program in the field of biomedical
engineering. We will work with you to
develop new graduate courses, qualifying and comprehensive examinations, and
provide advice and dissertation topics for graduate students in this
program. Furthermore, each of us will
seek research funding in our areas of expertise that will include support for
graduate research assistants. We
recognize the importance of an active graduate degree program and original
research in keeping our existing undergraduate degree program at the highest
quality level. In that each of us are
already working with graduate students, we believe that the additional effort
required in our own graduate program will be less than if we were starting
without this advantage.
We encourage you to
energetically pursue this PhD program.
David A. Nelson, PhD Debra
D. Wright, PhD
Professor Asst.
Professor
Seth W. Donahue, PhD Daniel
C. Clupper, PhD
Asst. Professor Asst.
Professor (start date of
NOTE: Signatures on file. Dr. Jeremy
Goldman, PhD
Asst. Professor (start date
of
Department
Chair and Faculty Curriculum Vitae
Michael
R. Neuman, M.D., Ph.D., Chair
Seth
Warner Donahue, Ph.D.
Jeremy
Goldman, Ph.D.
Debra
D. Charlesworth, Ph.D.
David
Arthur Nelson, Ph.D.
Daniel
C. Clupper, Ph.D.
CURRICULUM VITAE
MICHAEL R. NEUMAN
Professor and Chairman
Department of
1400
Telephone: 906-487-2772 or 906-487-1949
Fax: 906-487-1717
E-mail: mneuman@mtu.edu
Adjunct
Professor of Biomedical Engineering
EDUCATION
M.D. 1974
Ph.D. 1966 Case
Institute of Technology
B.S.E.E. 1961 Case
Institute of Technology
HONORS
Sigma Xi
Tau Beta Pi
Eta Kappa Nu
National
Career Development Award
Fellow, American Institute of Medical and
Biological Engineering
Fellow, Institute of Physicists and Engineers
in Medicine (
IEEE Engineering in Medicine and Biology
Society Service Award, 1996
State of
IEEE Engineering in Medicine and Biology
Society 2004 Career Achievement Award
Fellow,
PROFESSIONAL SOCIETIES
Institute of Electrical and Electronic
Engineers
American Association for the Advancement
of Science
Society for Gynecologic Investigation
Biomedical Engineering Society
Institute of Physicists and Engineers in
Medicine
International Society on Biotelemetry
American
PROFESSIONAL ACTIVITIES
Editor, Physiological Measurement,
Member, Scientific Advisory Committee,
The Whitaker Foundation, 2000 -
Chairman
of Organizing Committee, Workshop on Biomedical Sensing: Understanding the
Sensor-
Tissue Interface,
Program co-chairman, IEEE-EMBS
International Meeting,
Symposium Chairman, 13th International
Symposium on Biotelemetry,
Editor‑in‑Chief, IEEE
Transactions on Biomedical Engineering, 1989‑1996.
Eli Lilly visiting Professor (part time),
Emerging Cardiovascular Technologies,
Sept., 1990 - August, 1991.
Council Member, International Federation
of Medical and Biological Engineering, 1989‑1994.
Vice President, Liaisons, American
Institute for Medical and Biological Engineering, 1992-1994.
Member FDA OB/GYN Devices Advisory Panel,
1992-1996.
Vice President for International Affairs,
1986‑1990.
Reviewer and member of special study
sections for NIH
Member of the Scientific Advisory
Committee Duke -
Member of the Advisory Committee,
Center
Member of the NIH-FDA Consensus
Development Conference on Infant Apnea and Home
Monitoring
Technical Consultant, 20th IEEE Video
Conference, New Technologies in Biomedical
Engineering, 1987.
Vice President for Technical Activities ‑
IEEE Engineering in Medicine and Biology Society, 1987.
Vice President for Publications &
Member Activities‑IEEE Engineering in Medicine and
Biology Society, 1986.
President‑International Society on
Biotelemetry, 1984‑1988.
Program Co‑Chairman, 20th Annual
Meeting of the Association for the Advancement of
Medical Instrumentation, May 1985.
Member at Large‑IEEE Engineering in
Medicine and Biology Society Administrative
Committee, 1984‑1987.
Associate Editor ‑ Transducers,
IEEE Transactions on Biomedical Engineering, 1983‑1988.
Member of Editorial Board, Journal of
Clinical Engineering, 1984‑.
Member of Editorial Board, Annals of
Bioengineering, 1979‑1981.
Co‑Director for Bioengineering,
Perinatal Clinical
Delegate for
1985, 1988.
Reviewer of Manuscripts for: IEEE
Transactions on Biomedical Engineering,
American
Journal of Obstetrics and Gynecology,
Journal of Applied Physiology, Biophysical Journal,
Medical Instrumentation, Pediatric
Research, Journal of Clinical Engineering, Biomedical
Instrumentation and Technology, and
Biotelemetry and Patient Monitoring.
Chairman of Organizing Committee ‑
International Workshop on Blood Gas Sensor and
Measurement Technology,
EXPERIENCE
August, 2003 - Professor
and Chairman, Department of Biomedical Engineering,
May, 1998 –
July, 2003 Herff
Professor of Biomedical Engineering,
Joint
Program in Biomedical Engineering, University of
University
of
Jan. 1995 - Present Adjunct
Professor of Biomedical Engineering,
February, 1980 ‑
August, 1980 Guest Professor, Universitatsspital Frauenklinik,
June, 1974 – April, 1998 Associate
Professor of Biomedical Engineering in Reproductive Biology and Biomedical
Engineering,
July, 1970 ‑ June, 1974 Associate
Professor of Biomedical and Electrical Engineering,
September, 1966 ‑
June, 1970 Assistant Professor of Engineering, Case
June, 1966 ‑ August, 1966 Project
Engineer,
September, 1965 ‑ June, 1966 U.
S. Steel Foundation Fellow, Case Institute of Technology
Sept, 1961 ‑ Sept, 1965 Graduate
Assistant, Case Institute of Technology
Summers
1957-1961 Engineering
Assistant ‑ Thermo‑Products Company, Inc.,
PUBLICATIONS
1. Ko, W.H., Yon, E.T. and Neuman, M.R.;
"A University Clean
Room", Semiconductor Products and
2. Neuman, M.R. and Ko, W.H.;
"The Use of
Equivalent Networks to
Minimize the Tolerance of
Passive Thin Film
Circuits", Microelectronics
and Reliability, 5: 329, (November, 1966).
3. Neuman, M.R. and Ko, W.H.;
"Dependence of the Conductivity
of Thin Polycrystalline Bismuth
Films on Grain Size", Journal of Applied Physics, 37: 3327, (July, 1966).
4. Ko,
W.H. and Neuman,
M.R.; "Implant Bio‑Telemetry and
Microelectronics", Science, 156:351, (April 27, 1967).
5. Ko, W.H., Lin, K.Y. and Neuman, M.R.; "Body Reaction
of Implant Packaging Materials", Biomaterials, p.
55 ff., Plenum Press, (1969).
6. Neuman, M.R. and Sutton, W.G.;
"Structural Dependence of
Strain Gauge Effect
and Surface Resistivity for Gold Thin Films", Journal of Vacuum Science and Technology, 6: 710,
(July/August, 1969).
7. Neuman, M.R., Critchfield, F.H. and
Lin, W.C.; "An
Intravaginal Fetal ECG
Telemetry System", Obstetrics
and Gynecology, 35: 96, (January,
1970).
8. Neuman, M.R. and Howard, L.;
"Electron Microscope Beam Effects
in the Investigation of Thin Film
Structure", Journal of Vacuum Science and Technology, 7: 169,
(January/February, 1970).
9. Yon, E.T., Neuman, M.R., Wolfson, R.N. and
Ko, W.H.; "Insulated
Active Electrodes," IEEE
Trans. Elec. Control
Instrumentation, IECI‑17:
195, (1970).
10. Liu, C.C.,
D'Souza, A., Peterson, E.N. and
Neuman, M.R.; "Development of an
Implantable Oxygen Sensor", IEEE Transactions‑ Industrial
Electronic and Control Instrumentation, IECI‑17, (1970).
11. Neuman, M.R.,
Picconnatto, J. and
Roux, J.F.; "A
Wireless Radiotelemetry System
for Monitoring Fetal
Heart Rate and Intrauterine Pressure
During Labor and
Delivery", Gynecologic Investigation, 1: 92, (1972)
12. Neuman,
M.R.; "The Use of
Phase Plane Loops
to Display Data
Monitored During Labor and Delivery", International
Federation for Medical & Biological
Engineering Proceedings of the Workshop on
the Display of Biomedical Data, Melbourne, Australia, pp. 10‑12,
(1971).
13. Roux, J.F.,
Neuman, M.R. and
O'Gureck, J.E.; "The
Value and Limitations
of Fetal Monitoring
by Transvaginal Telemetry
and Conventional Wire
Systems", International Journal
of Obstetrics‑Gynecology,
10: 199‑201, (November, 1972).
14. O'Gureck, J.E.,
Roux, J.F. and
Neuman, M.R.; "A Practical
Classification of Fetal
Heart Rate Patterns", Obstetrics
& Gynecology, 40: 356‑361,
(1972).
15. O'Gureck,
J.E., Roux, J.F. and Neuman, M.R.; "Neonatal Depression &
Fetal Heart Rate
Patterns During Labor", Obstetrics & Gynecology, 40: 347‑355, (1972).
16. Neuman,
M.R.,
17. Liu,
C.C., Ahn, B.K., Brown, E.G. and Neuman,
M.R.; "Engineering
Development & Evaluation
of Implantable PO2, pH
and PCO2 Sensors", Proceedings of the First
Pacific Chemical Eng. Conference, Kyoto, Japan, pp. 144‑150, (October,
1972).
18. Brown,
E.G., McDonnell, F.E., Liu, C.C.,
Neuman, M.R. and
Sweet, A.Y.; "A Unique
Electrode Catheter for
Continuous Monitoring of Arterial Blood Oxygen Tension in Newborn
Infants", Eds.: Bicher, H.I.
and Bruley, D.F.,
Oxygen Transport to Tissue, Advances in Experimental Medicine & Biology, 37: 1103‑1108, Plenum
Press, New York, (1973).
19. Selim,
M.A., So‑Bosita, J.L. and Neuman, M.R.; "Carcinoma in situ of Cervix
Uteri", Surg. Gynec.
& Obstet., 139: 697‑700,
(November, 1974).
20. Roux,
J.F., Neuman, M.R. and Goodlin, R.; "Monitoring Intrapartum
Phenomena", Critical Reviews of Biomedical Engineering, pp. 119‑158, (1975).
21. Neuman,
M.R., Wolfson, R.N. and Zador,
22. Neuman,
M.R.; "Uses and Abuses
of Electronics in
Obstetrics", Medicine and
Hygiene, 33: 794‑798, (1975).
23. Neuman,
M.R.; "Patient Monitoring", in Section 26: "Electronics in
Medicine and Biology", appearing in Electronics Engineers'
Handbook, pp. 26‑42, Editor‑in‑Chief,
Fink, D.G., McGraw ‑ Hill, (1975).
24.
25. Knoke, J.D., Tsao, L.L., Neuman, M.R. and
Roux, J.F.; "The Accuracy of Measurements of Intrauterine Pressure
During Labor: A Statistical
Analysis", Computers and Biomedical Research, 9: 177‑186,
(1976).
26. Zador,
27. Artal, R., Sokol, R.J., Neuman, M.R.,
Burstein, A.H. and Stojkov, J.; "Mechanical Properties
of Prematurely and Nonprematurely
Ruptured Membranes: Methods and Preliminary
Results", American Journal of Obstetrics and Gynecology, 125:
655‑659, (July 1, 1976).
28. Selim,
M.A., Razi, A., Neuman, M.R. and Topolnicki, W.; "Adenocarcinoma of the Corpus Uteri",
29. Neuman, M.R.; "Pressure Measurements
in Obstetrics", pp. 85‑95, appeared
in Indwelling and
Implantable Pressure Transducers,
Editors: Fleming, D. G., Ko,
W.H. and
Neuman, M.R., CRC
Press, Inc., (1977).
30. Lin, W.C., Feng, C.H. and Neuman, M.R.;
"A Microprocessor Based Data
Acquisition System for
Monitoring the Kinematics
of Labor", Proceedings of
the IEEE, 65: 722‑729, (1977).
31. Santic, A. and Neuman, M.R.; "A Low
Input Voltage dc‑dc
Converter for Implant
Electronic Circuits", Journal
of Bioengineering, 1:357‑368,
Pergamon Press, Inc., (1977).
32. Neuman, M.R.; "Perinatal
Monitoring by Telemetry", Patient
Care, 124:164‑188,
(February 28, 1977).
33. Neuman, M.R.; Chapter 5, "Biopotential Electrodes", Chapter
6, "Biopotential Amplifiers" and
Chapter 12, "Therapeutic
Devices", Medical Instrumentation:
Application and Design,
Editor‑in‑Chief,
Webster, J. G.,
Houghton‑Mifflin, Boston,
Massachusetts, (March, 1978).
34. Neuman, M.R.; "Applications of Chemical
Sensors in Obstetrics", Theory,
Design and Biomedical Application of Solid State
Chemical Sensors, Editors: Cheung, P.W.,
Fleming, D.G., Neuman, M.R. and Ko,
W.H., CRC Press, Inc., Boca Raton, Florida, pp. 277‑287, (1978).
35. Dabbs, J.M. Jr., and Neuman, M.R.; "Telemetry of
Human Cerebral Temperature", Psychobiology, 15(6):599‑603,
(November, 1978).
36. Neuman, M.R.; "The Biophysical and
Bioengineering Bases of Perinatal
Monitoring ‑ Part I: Fetal Heart Rate", Perinatology/Neonatology, 2(4):16‑22 & 44, (July‑August,
1978).
37. Neuman, M.R., Roux, J.F., Patrick, J.E.,
Munro, M.G., Cudmore, D.W., Owen, S.M.,
Angel, E., Fox,
H.E. and Pessel, D.; "Evaluation of
Fetal Monitoring by
Telemetry", Obstetrics &
Gynecology, 54(2):249‑254,
(1979).
38. Neuman,
M.R., Merkatz, I.R., Selim,
M.A. and Zador, I.E.; "Continuous
Monitoring of Cervical
Dilatation During Labor and Measurement of
Cervical Compliance in
the Human", Biology
of Cervical Dilatation,
Editors: Stubblefield, P.G. and Naftolin, F., Raven Press, pp. 233‑246,
(1979).
39. Moss, P.L., Lauron, P., Roux, J.F., Neuman,
M.R. and Dmytrus, K.C.; "Continuous
Cervical Dilatation Monitoring
by Ultrasonic Methods During Labor", American Journal of Obstetrics
& Gynecology, 132(1):16‑19,
(1978).
40. Neuman, M.R.; "The Biophysical and
Bioengineering Bases of Perinatal Monitoring
- Part II: Uterine
Contractions", Perinatology/Neonatology, 2(5):14‑18,
(September‑October, 1978).
41. Neuman,
M.R.; "The Biophysical and Bioengineering Bases of Perinatal Monitoring
‑ Part III: Monitoring Fetal Chemistry",
Perinatology/ Neonatology, 2(6):25‑30, (November‑December, 1978).
42. Neuman, M.R.; "The Biophysical and
Bioengineering Bases of Perinatal Monitoring
‑ Part IV:
Measuring Cervical Dilatation
and Radiotelemetry Monitoring", Perinatology/Neonatology, 3(1):18‑23, (January‑February, 1979).
43. Neuman, M.R.; "The Biophysical and
Bioengineering Bases of Perinatal Monitoring ‑
Part V: Neonatal Cardiac and Respiratory Monitoring", Perinatology/Neonatology, 23(2):17‑23,
(March‑April, 1979).
44. Neuman, M.R.; "The Biophysical and
Bioengineering Bases of Perinatal Monitoring
‑ Part VI:
Neonatal Temperature, Blood‑pressure,
and Blood‑ gas
Instrumentation", Perinatology/Neonatology, 3(3):25‑32 & 53, (May‑June, 1979).
45. Neuman,
M.R. and Coello‑Vera, A.; "International Workshop on Biomedical Transducers
and Measurements", Artificial
Organs, 3(2):195‑200, (May,
1979).
46. Fraden, J. and Neuman, M.R.; "QRS Wave
Detection", Medical and
Biological Engineering and Computing, 18: 125‑132, (1980).
47. Neuman, M.R.; Neonatology, Obstetrics and
Gynecology", Chapter 15
in Therapeutic Medical Devices, Editors: Cook, A. and
Webster, J., Prentice‑Hall,
(1981).
48. Neuman,
M.R.; "Implantable
Transducers and Systems:
Packaging Methods and Testing
Criteria, A Review of the Workshop", Medical and Biological Engineering
and Computing, 17(5):N14‑15, (September,
1979).
49. Liu, C.C., Bocchicchio, B.C., Overmeyer,
P.A. and Neuman, M.R.; "A Palladium‑Palladium Oxide
Miniature pH Electrode", Science, 207:188‑189, (1980).
50. Roux, J.F.,
and Neuman, M.R.; "Electronic Fetal
Monitoring by Telemetry",
Contemporary OB/GYN, 16: 67‑72, (October, 1980).
51. Neuman, M.R. and O'Connor, E.; "A Two‑Channel
Radiotelemetry System for Clinical Fetal Monitoring",
Biotelemetry and Patient Monitoring, 7:
104‑121, (1980).
52. Schnatz, P.T. and Neuman, M.R.; "An
Electrical Impedance Technique
for Recording Oviductal and
Uterine Activity", Medical
and Biological Engineering and Computing, 19: 64‑65, (1981).
53. Neuman,
M.R.; "Biomedical
Engineering Aspects of Neonatal
Monitoring", in Behrman's
Neonatal‑Perinatal
Medicine, Editors: Fanoroff, A. and Martin, R., Mosby, St.
Louis, (1983).
54. Liu, C.C.,
Neuman, M.R., Montana,
K.L. and Oberdoerster, M.C.;
"Miniature Multiple Cathode
Dissolved Oxygen Sensor
for Marine Science
Applications", Proc. 16th Ann. Conf. of
Marine Technology, pp. 468‑472, (1980).
55. Neuman, M.R., Fleming, D.G., Ko,
W.H. and Cheung,
P.W. (Eds.), Physical Sensors for Biomedical Applications,
CRC Press, (1980).
56. Druzgalski, C., Neuman, M.R., Offner, F.,
Tykulsky, A., Jorgens, J. and
Mack, S.; "Everything You
Wanted to Know About Transducers But Were Afraid to Ask", IEEE/EMBS
Newsletter, 20(1):13‑18, (March, 1981).
57. Neuman, M.R., Flammer, C.M. and O'Connor,
E.; "Safety Devices for
Neonatal Intensive Care",
Journal of Clinical
Engineering, 7(1):51‑62,
(January‑March 1982).
58. Mendelson, Y., Cheung, P.W., Neuman, M.R. and Cahn, S.D.;
"Spectrophotometric
Investigation of Pulsatile
Blood Flow For Transcutaneous Reflectance
Oximetry", in Bicher, H.I. (Ed.),
Oxygen Transport to Tissue IV,
Plenum Publishing Corporation, (1983),
pp. 93‑102.
59. Neuman,
M.R., Liu, C.C.
and Cheung, P.W.; "Application of
Microelectronic Technology to Oxygen and Hydrogen Ion Sensors",
in Huch, R. and Huch, A. (Eds.),
Continuous Transcutaneous Blood
Gas Monitoring, Dekker, Basel, (1983), pp 101‑115.
60. Lysikiewicz, A., Neuman, M.R., Huch, R.
and Huch, A.; "Maternal Transcutaneous PCO2 During
Labour", in Huch,
R. and Huch, A. (Eds.), Continuous
Transcutaneous Blood Gas
Monitoring, Dekker, Basel, (1983),
pp 619‑627.
61. Jones, R.D., Neuman, M.R., Sanders, G. and
Cross, F.T.; "Miniature
Antimony pH Electrodes
for Measuring Gastro‑Esophageal Reflux", "Ann. Thoracic Surgery, 33:491‑495,
(1982).
62. Santic, A., Vamvakas, S. and Neuman, M.R.;
"Micropower Electronic
Switches for Implanted
Application", IEEE Trans.
Biomedical Engineering, Vol. BME‑29 (8):583‑589, (August,
1982).
63. Neuman, M.R.; "The Second
International Symposium on Continuous Transcutaneous Blood
Gas Monitoring ‑‑ A Review", Biotelemetry and Patient
Monitoring, 9: 124‑128, (1982).
64. Yonekawa, H., Berk, J.L., Neuman,
M.R., and Liu,
C.C.; "Tissue Hypoxia and
Increased Physiological Tissue Shunt Caused by Beta‑ Adrenergic
Stimulation", Eur. Surg. Res., 13: 325‑338, (1981).
65. Liu, C.C. and Neuman, M.R.; "Fabrication of Miniature
PO2 and
pH Sensor Using Microelectronic
Techniques, Diabetes Care, 5(3):275‑277,
(1982).
66. Neuman,
M.R.; "Physical and Chemical
Sensors for Biomedical
Applications", Medical Progress
Through Technology, 9: 95‑104, (1982)
67. Neuman,
M.R., Huch, R.
and Huch, A.; "The Neonatal
Oxycardiorespirogram",
CRC Critical Reviews in
Bioengineering, 11: 77‑112, (1984).
68. Neuman, M.R.; "Electronic Monitoring
of the Fetus",
Clinics in Perinatology, 10: 237‑252, (1983).
69. Neuman, M.R. and Santic, A.; "A
Comparison of Infrared and Low
Power Radio Frequency Telemetry
Systems" in Kimmich, H.P. and
Bornhausen, M. (ed) Medical Telemetry, European Economic Community, Report
EUR 9158 EN,pp 251‑275, (1984).
70. Neuman, M.R.; "Optimal Detection of
Respiration and Apnea in Infant
Monitors", Medical Technology
for the Neonate,
AAMI Technology Assessment Report no.TAR 9‑84, pp 49‑54,
(1984).
71. Neuman,
M.R.; "Proceedings,
Symposium on Biosensors", IEEE Engineering in Medicine and Biology
Society, 84CH2068‑5, (1984).
72. Spätling, L., Neuman, M.R., Huch, R.
and Huch, A.; "Influence of Different
Prostaglandin Applications on Cervical Rheology". Int. J. OB/GYN, 23: 269‑376,
(1985).
73. Neuman, M.R.; "Biosensors, Transducers,
Electrodes and Physiological Systems",
Chapter 2 in
Bronzino, J., Biomedical Engineering and Instrumentation: Basic Concepts and Applications, PWS Publishers,
74. anti,
A. and Neuman, M.R.; "A Low
Power Infrared Biotelemetry System", Biotelemetry VIII,
pp. 147‑150, (1984).
75. Neuman, M.R., Schnatz, P.T. and Martin, R.
J.; "Telemetry of Basal Body Temperatures in Women and Respiration in Neonates",
Biotelemetry VIII, pp. 137‑140, (1984).
76. Neuman, M.R.; "Applications of
Biotelemetry in Perinatal Medicine",
Biotelemetry VIII, pp. 121‑128, (1984).
77. Crago, P.E., Chizeck, H.J., Neuman, M.R. and
Hambrecht, F.T.; "Sensors for Functional
Neuromuscular Stimulation", IEEE Transactions on Biomedical
Engineering, BME‑33: 256‑268, (1986).
78. Karagounis, V.A., Liu, C.C., Neuman,
M.R., Romankiw, L.T., Leary, P.A.
and Cuomo, J.J.; "A Pd‑PdO Film Potentiometric pH
Sensor", IEEE Transactions on
Biomedical Engineering, BME‑33: 113, (1986).
79. Neuman, M.R. and Liu, C.C.;
"Fabrication of Biomedical Sensors Using Thin and Thick Film
Microelectronic Technology", in C.D. Fung et al, Micromachining and
Micropackaging of Transducers, Elsevier,
80. Potvin, A.R., Crosier, W.G., Fromm, E., Lin, J.C.,
Neuman, M.R., Pilkington, T.C.,
Robinson, C.J., Schneider, L.W., Strohbehn, J.W., Szolovitz, P., and Tompkins,
W.J; "Report of an IEEE Task Force‑an IEEE Opinion on Research Needs for Biomedical
Engineering Systems", IEEE Transactions on Biomedical Engineering, BME‑33:
48‑59, (1986).
81. Selim, M.A., Derda, H.J., Neuman, M.R.,
Shalodi, A.D., and Sharan, V.M.;
"Improvement of the
Botstein‑Zacharopoulos Radiation Applicator", Int. J. Radiation Onc.
Biol. Phys., Vol. 12: 251‑254, (1986).
82. Neuman, M.R.; Apnea Monitoring‑Technical
Aspects, Chapt. 4 in NIH Consensus
Development Committee, Infant
Apnea and Home Monitoring, NIH,
83. Little, G. (Chairman) et al; Consensus Statement, National Institutes of
Health Consensus Development Conference on Infantile Apnea and Home Monitoring,
Pediatrics, 79: 292‑299, (1987).
84. Neuman, M.R.; Fetal Monitoring, in Webster,
J.G., ed., Encyclopedia of Medical
Devices and Instrumentation, J. Wiley, New York (1988), pp. 1271‑1287.
85. Neuman, M.R.;
Neonatal Monitoring, in Webster,
J.G., ed., Encyclopedia of Medical Devices and Instrumentation, J. Wiley, New
York (1988), pp. 2114‑2133.
86. Neuman,
M.R.; Biomedical Engineering Aspects of Neonatal Monitoring, in Fanaroff,
A. and Martin, R. eds., Neonatal‑Perinatal
Medicine, Mosby,
87. Neuman,
M.R.; Pulse Oximetry: Physical Principles, Technical Realization and
Present Limitations, in
Huch, A., Huch, R., and Rooth, G.; Continuous Transcutaneous Monitoring,
Plenum, New York, pp. 135‑144, (1987).
88. Liu, C.C.,
Neuman, M.R., Romankiw,
L.T., and Makovos, E.B.; Microelectronic Sensors for Simultaneous Measurement of PO2
and pH, in Huch, A., Huch, R., and Rooth,
G.; Continuous Transcutaneous
Monitoring, Plenum, New York, pp. 295‑298, (1987).
89. Fouke,
J.M., Wolin, A.D.,
Saunders, K.G., Neuman,
M.R., and McFadden, E.R.; Sensor for Measuring Surface Fluid
Conductivity In Vivo, IEEE Trans. Biomed. Engrg., Vol. 35,No. 10, pp. 877‑881, (1988).
90. Neuman, M.R.; Biotelemetry: We Have Come A
Long Way, But the Road Continues
On, in Kimmich,
H.P.; Biotelemetry IX, International Society on Biotelemetry,
Doring, Braunschweig, (1987), pp. 1‑8.
91. Neuman,
M.R.; New Perspectives
in Perinatal Biotelemetry, in Kimmich, H.P.; Biotelemetry
IX, International Society on Biotelemetry, Doring, Braunschweig, (1987), pp.
169‑172.
92. Neuman, M.R. and Liu, C.C.; Biomedical
Sensors in Interventional Systems: Present
Problems and Future Strategies,
Proc. IEEE, Vol. 76, No. 9, pp. 1218‑1225, (1988).
93. Kiwi, R., Neuman, M.R., Merkatz, I.R.,
Selim, M.A., and Lysikiewicz, A.; Determination of the Elastic Properties of
the Cervix, Obstet. & Gynec., 71: 568‑574, (1988).
94. Liu, C.C. and Neuman, M.R.; Future Trends in
Electrochemical Sensor Development,
in Powers, R.A.; Electrochemistry as an
Emerging High Tech Area, Plenum,
95. Liu, C.C., Neuman, M.R. and Makovos,
E.A.; Electrochemical Sensors Fabricated
by Microelectronic Fabrication Processes for the Development of
Biosensors, in Schmid, R.D.; Proceedings
Biosensors International Workshop,
VCH Publishers,
96. Neuman, M.R. and Liu, C.C.; Biomedical Applications for Chemical Sensors,
in Schumm, B., Liu, C.C., Powers, R.A., and Yeager, E.B.; Sensors Science and
Technology, Electrochemical Society, Pennington, NJ, pp. 18‑30 (1987).
97. Talbot‑Pedersen, A., Neuman, M.R.,
Saidel, G.M. and Jacobsen,
E.; Estimation of the
Determinants of Transcutaneous Oxygen Tension Using a Dynamic Computer
Model, in Huch, A., Huch, R., and Rooth,
G.; Continuous Transcutaneous
Monitoring, Plenum, New York, pp. 269‑273, (1987).
98. Huch, A., Huch, R., Konig, V., Neuman, M.R.,
Parker, D., Yount, J. and Lébbers, D.; Limitations of Pulse Oximetry Lancet, 1
(8581):357‑8, (1988).
99. Soykan, O.,
Berec, A., Neuman,
M.R.; Signal Processing for a
Capacitive Force Sensor Array, Innovation et Technologie en Biologie et
Medecine, 10(1):78-86, (1989).
100.
Neuman, M.R.; Medical
Applications of Sensors, in Grandke, T. and Ko, W.H.; Sensors: Vol. 1,
Fundamentals, Weinheim, FRG: VCH Verlagsgesellschaft, Chapt. 6.6,
(1989).
101.
Neuman, M.R., Brill, A.B.,
Gibbons, D.F., Greatbatch, W., Mates, R.
and Rushmer, R.F.; Research Directions in Biomedical Engineering, IEEE
Engineering in Medicine and Biology Magazine, 8(3):18-26, (Sept., 1989).
102.
Neuman, M.R. and Santic, A.;
Biotelemetry Systems, in Miles, L.E. and Broughton, R.T.; Medical Monitoring
in the Home and Work Environment,
103.
Ballou, S.P., Mackiewicz, A.,
Lysikiewicz, A., and Neuman, M.R.; Direct Quantitation of Skin Elasticity in
Systemic Sclerosis, J. Rheumatology,
17:790-4,(1990).
104.
Re, T.J. and Neuman, M.R.;
Thermal Contact Sensing Thermometer, Biomedical Instrumentation and
Technology, 25:54-59, (1991).
105. Baird,
T.M. and Neuman, M.R.; The Effect of Infant Position on Breath Amplitude
as
Measured by Transthoracic Impedance and Strain Gauges, Ped. Pulmon.,
10:52-56, (1991).
106. Lazebnik,
N, Neuman, M.R., Lysikiewicz, A., Dierker, L., and Mann, L.I.; Correlation of
Fetal Heart Rate Response to Scalp
Stimulation with Acid-Base Status, Am. J. Perinatology, 9:226-230
(1992).
107.
Baird, T.M., Goydos, J.M., and
Neuman, M.R.; Optimal Electrode Location for Monitoring the ECG and Breathing
in Neonates, Pediatr. Pulmonology, 12:247-250, (1992).
108.
Neuman, M.R. and Wang, N.;
Association of Pulse Oximetry Motion Artifact with Finger Blood Volume, J.
Clin. Monitoring, (in press).
109. R.
P. Buck, V. V. Cosofret, T. M. Nahir, T. A. Johnson, R. P. Kusy, M. R. Neuman,
R. B. Ash and H. T. Nagle, "Macro To Micro Electrodes For In Vivo
Cardiovascular Measurements", in "Biosensors and Chemical Sensors,
Optimized Performance Through Polymeric Materials" (P. G. Edelmann and J.
Wang, eds.). ACS Symposium Series #487, 1992, pp 237‑245.
110. Neuman,
M.R.; Biomedical Sensors, Chapter 104, pp. 2342-2350, in R.C. Dorf, The
Electrical Engineering Handbook, Boca Raton, CRC Press, (1993).
111. Neuman,
M.R.; Book Review, J.A. Allocca, Medical Instrumentation for the Health Care
Professional, Medical Instrumentation, 26:336-7, (1992).
112.
E.
Lindner, V. V. Cosofret, S. Ufer, T. A. Johnson, R. B. Ash, H. T. Nagle, M. R.
Neuman, and R. P. Buck; In Vivo and in Vitro esting of Microelectronically
Fabricated Planar SensorsDesigned for Applications in Cardiology, Fresenius J. Anal. Chem., 346:584-8,
(1993).
113. E.
Linder, V. V. Cosofret, R. P. Buck, J. W. Kao, M. R. Neuman, and J. M.
Anderson; Ion-Selective Membranes with Low Plasticizer Content: Electroanalytical
Characterization and Biocompatability Studies, J. Biomed. Mat. Res., 28:591-601,
(1994).
114. V.
V. Cosofret, E. Linder, T. A. Johnson, and M. R. Neuman; pH Planar Microsensors
for Cardiovascular Use, Talanta, 41:931-938, (1994).
115. M.
R. Neuman; Cardio-Pulmonary Monitoring, Chapter 12 in Y. W. Brans & W. W.
Hay (eds.), Perinatal Biomedical Technology, Oxford Univ. Press, (1995),
pp 209 - 223.
116. M.
R. Neuman; Cardiotocography, Chapter 11 in Y. W. Brans & W. W. Hay (eds.), Perinatal
Biomedical Technology, Oxford Univ. Press, (1995), pp 191-208.
117. M.
R. Neuman, R. P. Buck, V. V. Cosofret, E. Lindner, and C. C. Liu; Fabricating
Biomedical Sensors with Thin-Film Technology, IEEE Engineering in Medicine
and Biology, 13:409-419, (1994).
118. V.
V. Cosofret, M. Erdosy, E. Lindner, R. P. Buck, W. J. Kao, M. R. Neuman and J.
M. Anderson; Ion-selective Microchemical Sensors with Reduced Preconditioning
Time. Membrane Biostability Studies and
Applications in Blood Analysis, Analyt. Let., 27:3039 - 3063,
(1994).
119. E.
Linder, V. V. Cosofret, R. P. Buck, T. A. Johnson, R. B. Ash, M. R. Neuman, W.
J. Kao and J. M. Anderson; Electroanalytical and Biocompatability Studies on
Microfabricated Array Sensors, Electroanalysis, 7:864-870,
(1995).
120. R.
P. Buck, V. V. Cosofret, E. Lindner, S. Ufer, M. Madaras, T. A. Johnson, R. B.
Ash, and M. R. Neuman; Microfabrication Technology of Flexible Membrane-Based
Sensors for in Vivo Applications, Electroanalysis, 7:846-851,
(1995).
121. V.
V. Cosofret, M. Erdosy, R. P. Buck, W. J. Kao, J. M. Anderson, E. Lindner and
M. R. Neuman; Electroanalytical and Biocompatibility Studies on Carboxylated
Poly(vinyl chloride) Membranes for Microfabricated Array Sensors, Analyst,
119:2283 - 2292, (1994).
122. M.
R. Neuman; Biopotential Electrodes, in J. Bronzino (ed.); Handbook of
Biomedical Engineering,
123. M.
R. Neuman; Physical Sensors, in J. Bronzino (ed.); Handbook of Biomedical
Engineering,
124.
V.
V. Cosofret, M. Erdosy, T. A. Johnson, R. P. Buck, R. B. Ash, and M. R. Neuman;
Microfabricated Sensor Arrays Sensitive to pH and K+ for Ionic
Distribution Measurements in the Beating Heart, Anal. Chem.,
67:1647-1653, (1995).
125. V.
V. Cosofret, M. Erdosy, T. A. Johnson, D. A. Bellinger, R. P. Buck, R. B. Ash,
and M. R. Neuman;
Electroanalytical and Surface Characterization of Encapsulated Implantable
Membrane Planar Microsensors, Analytica Chimica Acta, 314:1-11,
(1995).
126. V.
V. Cosofret, M. Erdosy, J. S. Raleigh, T. A. Johnson, R. P. Buck, and M. R.
Neuman; Aliphatic Polyurethane as a Matrix for pH Sensors: Effects of Native
Sites and Added Proton Carriers on Electrical Potentiometric Properties, Talanta,
43:143-151 (1996).
127. A.
Sharkawy, M. R. Neuman, & W. M. Reichert; Sensorcompatability: Design
Considerations for Biosensor-based Closed Loop Drug Delivery, in K. Parks
(ed.), Controlled Drug Delivery: The Next Generation, ACS Series on Drug
Delivery, (1998).
128. A.
Talbot, M. R. Neuman, G. M. Saidel,
& E. Jacobsen; Dynamic Model of Oxygen Transport for Transcutaneous PO2
Analysis, Annals of Biomedical Engineering, 24:294-304, (1996).
129. M.
R. Neuman; Apnea, Chapter 6 in: Neonatal
Intensive Care,
130. M. R. Neuman; Biomedical Sensors, in J. G.
Webster (ed.) Encyclopedia of Electrical Engineering,
131. C. X. Xu, S. A. M. Marzouk, V. V.
Cosofret, R. P. Buck , M. R. Neuman and R. H. Sprinkle;
Development of a diamine biosensor,
Talanta, 44:1625-1632, (1997).
132.
Crowell,
DH, Brooks, LJ, Colton T, Corwin, MJ, Hoppenbrouwers T, Hunt CE, Kapuniai LE,
Lister G, Neuman MR, Peucker M, Ward SL, Weese-Mayer DE, Willinger M, and the
CHIME Study Group: Infant Polysomnography: Reliability. Sleep 1997; 20:553-560.
133.
Neuman,
M.R.; Revisions of: Chapter 5,
"Biopotential
Electrodes", Chapter 6,
"Biopotential
Amplifiers" and
Chapter 12, "Therapeutic
Devices", in: Medical
Instrumentation: Application and
Design, Editor‑in‑Chief, Webster,
J. G., Wiley,
134.
H.
Qiu, L. Hedlund, M. R. Neuman, R. Black, G. P. Cofer, and G. A. Johnson;
Measuring the Progression of Foreign Body Reaction to Silicone Implants using in vivo MR Microscopy, IEEE Trans. Biomed. Engrg., 45:921-927,
(1998).
135.
D.
H. Crowell, L. J. Brooks, T. Colton, M. J. Corwin, T. T. Hoppenbrouwers, C. E.
Hunt, L. E. Kapuniai, G. Lister, M. R. Neuman, M. Peucker, S. L. Davidson-Ward,
D. E. Weese-Mayer, M. Willinger, and CHIME; Infant Polysomnography:
Reliability, Sleep, 20:553-60,
(1997).
136.
G.
Nagy, C. X. Xu, R. P. Buck, E. Lindner, and M. R. Neuman, Amperometric
Microcell for Enzyme Activity Measurements, Analytical
Chemistry, 70:2156-2162, (1998).
137.
T.
Penzel, S. Salmons, and M. R. Neuman (eds.), Biotelemetry XIV, Marburg, Tectum Verlag, (1998).
138.
S.
A. M. Marzouk, C. X. Xu, B. R. Cosofret, R. P. Buck, S. S. M. Hassan, M. R.
Neuman, and
R.
H. Sprinkle, "Amperometric Flow Injection Determination of Putrescine and
Putrescine
Oxidase",
Anan. Chim. Acta, 363:57-65, (1998).
139.
G.
Nagy, Clarke X Xu, E. Lindner, R. P. Buck, and M. R. Neuman, "Wet and Dry
Chemistry
Kits
for Creatine Kinase Using a Small‑Volume, Microfabricated, Planar,
Amperometric cell",
Anal.
Chim. Acta, 377:1-12, (1998).
140.
G.
Nagy, C. X. Xu, V. V. Cosofret, R. P. Buck, M. R. Neuman, and R. H. Sprinkle,
"Amperometric
Measuring Cell for the Determination of Putrescine Oxidase Activity",
Talanta,
47:367-376,
(1998).
141.
M.
J. Corwin, G. Lister, J. M. Silvestri, M. Peucker, L. J. Brooks, S. L.
Davidson-Ward, C. E. Hunt, M. R. Neuman,
D. H. Crowell, T. Colton, and The Collaborative Home Infant Monitoring
Evaluation
(CHIME) Study Group; Agreement among
Raters in Assessment of Physiologic Waveforms Recorded by a Cardiorespiratory
Monitor for Home Use, Pediatric Research,
44: 682-690, (1998).
142.
Hunt
CE, Corwin MJ, Lister G,
143.
144.
G.
Nagy, R.E. Gyurcsanyi, A. Cristalli, M. R. Neuman, E. Lindner, Screen printed
amperometric microcell for proline iminopeptidase enzyme assay, Biosensors and
Bioelectronics, 2000, 15. 265-272
145.
Robert
E. Gyurcsányi , Alessandra Cristalli, Géza Nagy, Livia Nagy, Cara Corder,
Bradford D. Pendley, Stefan Ufer, H. Troy Nagle, Michael R. Neuman, Ernö
Lindner, Analytical performance characteristics of thin and thick
film amperometric microcells, Fresenius Journal of Anal. Chem, 2001, 369: 286-294.
146.
Ramanathan
R, Corwin MF, Hunt CE, Lister G, Tinsley L, Baird L, Silvestri JM, Crowell DH,
Hufford D, Martin RJ, Neuman MR, Weese-Mayer DM, Cupples LA, Peucker M,
Willinger M, Keens TG, and the Collaborative Home Infant Monitoring Evaluation
(CHIME) Study Group: Cardiorespiratory
events recorded in the home: Comparison
of healthy infant with those at increased risk for SIDS, JAMA, 285:2199-2207,
2001.
147.
Michael
R. Neuman, Herman Watson, Rebecca S. Mendenhall, John T. Zoldak, Juliann M.
DiFiore, Mark Peucker, Terry M. Baird, David H. Crowell, Toke T. Hoppenbrouwers,
David Hufford, Carl E. Hunt, Michael J. Corwin, Larry R. Tinsley, Debra E.
Weese-Mayer, Marvin A. Sackner, and the CHIME Study Group, Cardiopulmonary
Monitoring at Home: The CHIME Monitor,
Physiol. Meas., 22:267-286, 2001.
148.
John
T. Zoldak, Herman L. Watson, Daisy B. Bolduc, Juliann M. DiFiore, Rebecca S.
Mendenhall, Mark Peucker, Michael R. Neuman, and the CHIME Study Group; An
Electronic Simulator for Testing Infant Apnea Monitors that Uses Actual
Physiologic Data, Physiol. Meas., 22:N1-N12, 2001.
149.
Robert
E. Gyurcsányi , Géza Nagy, Livia Nagy, Alessandra Cristalli, Richard P. Buck,
Michael R. Neuman, H. Troy Nagle, Stefan Ufer, Ernö Lindner, Amperometric
microcells for diagnostic enzyme activity measurements, Biomedical Diagnostic
Reagents, A. M. Usmani ed. Marcel Dekker, in press
150.
Livia
Nagy, Geza Nagy, Robert Gyurcsanyi, Erno Lindner, Michael R. Neuman
Amperometric microcell for putrescine measurement in blood sample, Biophysical
and Biochemical Methods, J. Biophys. Biochem. Methods, 2002, 53,
165-175.
151.
John
H. Eiler, Doris J. Alcorn and Michael R. Neuman (Editors); Biotelemetry 15,
Proceedings of the 15th International Symposium on Biotelemetry,
International Society on Biotelemetry, Wageningen, The
153.
Crowell DH, Kapuniai LE, Hoppenbrouwers T, Brooks
LJ, Davidson Ward S, Hunt CE, Weese-Mayer DE, Neuman MR, Corwin MJ, Peucker MR,
Lister G, Tinsley L, Pearce J, and the CHIME Study Group. Atlas of Infant Polysomnography. Parthenon Publishing/CRC Press, 2003.
154.
David, Y, von Maltzahn, WW, Neuman, MR, and
Bronzino, JD, (Editors), Clinical
Engineering, CRC Press, 2003.
155.
SB Knisley and MR Neuman, Simultaneous electrical
and optical mapping in rabbit hearts, Ann
Biomed Engrg, 31:32-41, 2003.
156.
CE Hunt, MJ Corwin, T Baird, LR Tinsley, P Palmer,
R. Ramathan, DH Crowell, S Schafer, RJ Martin, D Hufford, M Peucker, DE
Weese-Mayer, JM Silvestri, MR Neuman, J Cantey-Kiser, and the CHIME Study
Group. Cardiorespiratory Events Detected
by Home Memory Monitoring and One-Year Neurodevelopmental Outcome, J. Pediatr.,
145:465-471, 2004.
157.
DH Crowell, LJ Brooks, MJ Corwin, S Davidson-Ward,
CE Hunt, LE Kapuniai, MR Neuman, JM Silvestri, LR Tinsley, DE Weese-Mayer, J
DiFiore, M Peucker, JS Grove, JW Pearce, and the CHIME Study Group. Ontogeny of
Arousal, J. Clin. Neurophysiol, 12:290-300, 2004.
158.
E Sazonov, N Sazonova,
CONFERENCE PAPERS
1.
Neuman,
M.R. and Ko., W.H.; "Structure
Determined Conductivity of Bismuth
Thin Films", The Electrochemical
Society,
2.
Neuman,
M.R. and
Ko, W.H.; "Structure Determined
Electrical Transport
Properties of Bismuth
Thin Films", Thirteenth National Vacuum Symposium, San Francisco,
California, (October, 1966).
3.
Turney,
S.Z., Neuman, M.R., Ko, W.H., and Kennedy, J.H.; "Electrical
Properties of Myocardium: Variations with
the Duration of Rectangular Pulse Stimuli",
International Conference on Engineering
in Medicine and Biology, (August 14, 1967).
4.
Roux,
J.F., Neuman, M.R. and other Members of the Perinatal Clinical Research
Center; "A Perinatal Research Unit", Scientific
Exhibit presented at The
Annual Meeting of the American
College of Obstetricians and
Gynecologists, (May, 1968).
5.
Neuman,
M.R., Critchfield, F.H. and Lin, K.Y.;
"Experimental Study of Packaging
Material of Microelectronic
Implants", Section 9A‑4, Proceedings of the Twenty‑first
Annual Conference on Engineering in
Medicine and Biology, (November, 1968).
6.
Neuman,
M.R., Critchfield, F.H. and Lin,
W.C.; "An Intravaginal Fetal ECG
Telemetry System", Section
38.1, Proceedings of the Twenty‑first Annual
Conference on Engineering
in Medicine and Biology, (November, 1968).
7.
Neuman,
M.R.; "An Intravaginal Fetal ECG Telemetry System – Clinical
Aspects", Society for
Gynecologic Investigation, Sixteenth Annual Meeting,
8.
Neuman,
M.R. and Sutton W.G.; "Structural Dependence of Strain Gauge Effect and
Surface Resistivity for
Thin Gold Films",
1969 International
Conference on Thin
Films, Boston, Massachusetts, (April, 1969).
9.
Wolfson, R.N.
and Neuman, M.R.;
"Miniature Si‑SiO2 Insulated Electrodes Based
on Semiconductor Technology", Session
14‑6, Proceedings of the Eighth International Conference on
Medical and Biological
Engineering, (July, 1969).
10.
Neuman,
M.R. and Howard, L.; "Electron Microscope
Beam Effects in the Investigation of Thin Film
Structure", Sixteenth National Vacuum Symposium, (November, 1969).
11.
Neuman,
M.R. and Roux, J.F.;
"Analysis of Fetal
Heart Rate - Intrauterine
Pressure Loops", Sixth World Congress of Gynecology and Obstetrics, (
12.
Neuman,
M.R., Kadefors, R., Lin, W.C., Critchfield, F.H. and
Roux, J. F.; "A Wireless Patient Monitor for Labor and Delivery", Sixth World Congress of
Gynecology and Obstetrics, (
13.
Ko,
W.H., Neuman, M.R., Wolfson, R.N. and
Yon, E.T.; "Insulated Active Electrodes", Second
Annual Transducer Conference,
14.
Liu, C.C.,
D'Souza, A., Peterson, E.N.
and Neuman, M.R.; "Development
of an Implantable
Oxygen Sensor", Second
Annual Transducer Conference,
15.
Neuman,
M.R.; "A Telemetry System for Fetal
Intensive Care During Labor
and Delivery", Twenty‑third
Annual Conference on Engineering in Medicine and Biology, (November, 1970).
16.
Somerwill,
L.W. and Neuman, M.R.; "A Signal Analyzer for the Display of Intrauterine Pressure Data During
Labor", Biomedical Engineering Society,
17.
Neuman,
M.R.,
18.
Neuman,
M.R.; "The Use
of Phase Plane
Loops to Display
Data Monitored During Labor and Delivery", Ninth International
Conference on Medical and Biological
Engineering, Workshop Session on
Display of Medical Data, (August, 1971).
19.
Ahn,
B.K., Liu, C.C., Neuman, M.R. and Ko, W.H.; "Development of a
Miniature pH Glass
Electrode for Biological
Applications", Instrument Society of America, Ninth Annual Symposium
on Biomedical Sciences Instrumentation,
(August, 1971).
20.
O'Gureck,
J.E., Roux, J.F. and Neuman, M.R.; "Neonatal Depression of Fetal Heart
Rate Patterns During Labor", District V Conference, American
21.
Neuman, M.R.,
Brown, E.G., McDonnell, F.E. and Liu, C.C.;
"Application of Oxygen
Cathodes in Perinatology", Twenty‑fourth
Annual Conference on Engineering in Medicine and Biology, Las Vegas, Nevada,
(November, 1971).
22.
Roux, J.F.,
Neuman, M.R. and
O'Gureck, J.E.; "The
Value and Limitation of
Fetal Monitoring by
Transvaginal Telemetry and Conventional Wire Systems", Newark
College of Medicine and Dentistry Conference
on Electronic Monitoring
of the Fetus,
Newark, New Jersey, (December, 1971).
23.
Neuman,
M.R.; "Computer Generated Display of Fetal
Heart Rate and Intrauterine Pressure", Society for Gynecologic Investigation,
24.
Brown,
E.G., Liu, C.C., McDonnell, F.E., Neuman, M.R. and Sweet, A. Y.; "An Intravascular Electrode for
Continuously Monitoring Arterial Oxygen Tension", Pediatric Research
Society,
25.
Liu,
C.C., Ahn, B.K.,
26.
Brown,
E.G., Liu, C.C., McDonnell, F.E., Neuman, M.R. and Sweet, A. Y.; "A Unique
Electrode Catheter for
Continuous Monitoring of Arterial Blood Oxygen Tension in Newborn Infants", International Symposium on
Oxygen Transport to Tissue,
Clemson, South Carolina, (April, 1973).
27.
Neuman,
M.R.; "Flexible Thin Film Skin
Electrodes for Use
with Neonates", Tenth
International Conference on Medical and Biological Engineering,
28.
Liu,
C.C., Ahn, B.K., Brown, E.G., Neuman, M.R.,
29.
Neuman,
M.R.; "Two Simple Safety Devices for Use with I‑A
and I‑V Lines on
Neonates", Twenty‑sixth Annual Conference on Engineering in Medicine
and Biology,
30.
Brown,
E.G., Liu, C.C., Somerwill,
L.W. and Neuman,
M.R.; "An Extraluminal Catheter
Tip PO2 Monitor for Neonates",
Twenty‑sixth Annual
Conference on Engineering
in Medicine and Biology, Minneapolis, Minnesota,
(October, 1973).
31.
Wolfson,
R.N. and Neuman, M.R.; "Measurement of Fetal Descent During Labor by Ultrasonic Time‑of‑Flight",
Twenty‑sixth Annual Conference on Engineering in Medicine
and Biology,
32.
Ko,
W.H., Yon, E.T., Neuman, M.R.,
Hynecek, J. and Zeewy,
A.; "Development of a
Dual Channel Telemetry
System for Perinatal
Monitoring", Twenty‑sixth Annual
Conference on Engineering
in Medicine and Biology, Minneapolis, Minnesota, (October, 1973).
33.
Neuman,
M.R. and Zador, I.; "Continuous Ultrasonic Determination of Cervical
Dilatation During Labor",
Society for Gynecological Investigation, Annual Meeting,
Los Angeles, California,
(March, 1974).
34.
Rich,
R., Neuman, M.R. and Ko, W.H.; "Evaluation of Dry Surface ECG Electrodes and
Their Attachment", Twenty‑seventh Annual Conference on
Engineering in Medicine and Biology, (October 6‑10, 1974).
35.
Neuman,
M.R., Schnatz, P.T. and Yon, E.T.; "Determination of Oviduct Motility by Recording Electrical Impedance Changes",
Twenty‑seventh Annual Conference on Engineering in Medicine and Biology,
(October 6‑10, 1974).
36.
Zador,
37.
Liu,
C.C., Wolfson, S.K., Brown, E.G., Ko,
W.H., McDonnell, F.E., Neuman, M.R. and Sommerwill, L.W.;
"Recent Development of Continuous Monitoring Blood Oxygen
Sensor", Sixty‑seventh Annual
Meeting of American Institute
of Chemical Engineers,
Washington, D. C., (December, 1‑5, 1974).
38.
Neuman,
M.R., Wolfson, R.N. and Zador,
39.
Schnatz, P.T.
and Neuman, M.R.; "Oviduct Motility
in Rabbits Determined by
Electrical Impedance Measurements", Society
for Gynecologic Investigation, (1975).
40.
Neuman,
M.R., Apple, H.P. and Jagatich, C.T.;
"Computer Assisted Data Compression
for Fetal Heart Rate‑Intrauterine Pressure Monitors", The
Midwest Biomedical Engineering
Conference and Workshop, Ohio
State University, Columbus,
Ohio, (April 11‑12, 1975).
41.
Neuman,
M.R., Selim, M.A. and Feng, C.H.; "A
Diagnostic Instrument for Detecting
an Incompetent Uterine Cervix", Twenty‑eighth Annual
Conference on Engineering in Medicine and Biology,
42.
Neuman,
M.R.; "Pressure Measurements in Obstetrics and Gynecology, "Biomedical Electronics
Workshop on Pressure Transducers, (December 5, 1975).
43.
Neuman,
M.R., Roux, J.F., Hynecek, J. and
Boettcher, S.F.; "Fetal Monitoring by
Radiotelemetry", Third International Biotelemetry Conference, (May 17, 1976).
44.
Santic, A.
and Neuman, M.R.;
"Micropower, Low Voltage
Radio Telemetry Transmitter Circuits", Eleventh International
Conference on Medical and
Biological Engineering, Ottawa,
Ontario, Canada, (August, 1976).
45.
Lin,
W.C., Feng, C.H. and Neuman, M.R.; "A Microprocessor Based Data
Acquisition and Preprocessing System
for Obstetrical Patient Monitoring", Twenty‑ninth Annual
Conference on Engineering
in Medicine and Biology,
18: 189, Boston, Massachusetts, (November, 1976).
46.
Neuman,
M.R., Knoke, J.D., Tsao, L.L. and Roux,
J.F.; "Limitations of Intrauterine
Pressure Measurements During
Labor", Twenty‑ninth Annual Conference on Engineering in Medicine
and Biology, 18: 328,
47.
Rich,
R. and Neuman, M.R.; "Preliminary
Clinical Evaluation of a
Miniature Dry Surface
Electrode for Obtaining Heart
Rate of Infants", Twenty‑ninth
Annual Conference on Engineering in
Medicine and Biology, 18: 329, Boston, Massachusetts, (November, 1976).
48.
Neuman,
M.R. and Schnatz, P.T.; "Continuous Monitoring of Basal Body
Temperature in Humans
by Radio Telemetry", Twenty‑ninth Annual Conference on
Engineering in Medicine
and Biology, 18:
421,Boston, Massachusetts, (November, 1976).
49.
Neuman,
M.R.; "Instrumentation for Perinatal
Monitoring and Its Limitations", Fall
Symposium on Perinatal
Physiology and its Application to Clinical
Obstetrics, University of
Montreal and McGill University,
Montreal, Quebec, Canada,
(November 11 ‑ 13, 1976).
50.
Neuman,
M.R. and Fleming, D.G.; "Applications of Chemical Sensors in the Perinatal
Period and in
Pediatric Intensive Care", Second Biomedical Electronics
Resource Workshop, Theory,
Design and Biomedical Application
of Solid State
Chemical Sensors, (March, 1977).
51.
Neuman,
M.R.; "Use of
Telemetry for Monitoring
the Fetus and Newborn", Symposium on Future
Directions in Perinatal Care, Columbia University and the National Foundation ‑
March of Dimes, New York, New York, (March 17 ‑ 18, 1977).
52.
Roux, J.F.,
Neuman, M.R., Patrick, J. and
Cudmore, D.W.; "Application of Telemetry
to the Monitoring of Labor", Scientific Exhibit, American
53.
Neuman,
M.R.; "Perinatal Telemetry", Third
International Symposium on
Perinatal Medicine,
54.
Czulewicz,
A., Greber, I. and Neuman, M.R.; "Continuous Measurement of Tissue
Oncotic Pressure", Thirteenth
Annual Meeting of the Association for
the Advancement of
Medical Instrumentation,
Washington, D. C., (March 29 ‑ April 1, 1978).
55.
Neuman,
M.R.; "Electronic Instrumentation of Cervical Dilatation and
Compliance", Conference on
The Biology of
Cervical Dilatation,
56.
Neuman, M.R., Selim, M.A., Schnatz, P.T. and Bolling,
D.R.; "Simultaneous
Measurement of Lower
Urinary Tract Pressures", Thirty‑first Annual
Conference on Engineering
in Medicine and Biology, Atlanta, Georgia, (October 21‑25,
1978).
57.
Neuman,
M.R.; "A Fetal Monitor
Telemetry Adaptor", Thirty‑first Annual Conference
on Engineering in Medicine and Biology,
58.
Fleming,
D.G., Neuman, M.R., Ko, W.H. and Topich, J.A.; "The Design Characterization and
Applications of Indwelling
and Implantable Pressure Transducers", Tutorial, Thirty‑first
Annual Conference on Engineering in Medicine and Biology, Atlanta, Georgia,
(October 21‑ 25, 1978).
59.
Santic,
A. and
Neuman, M.R.; "Low
Voltage, Micropower Implant Circuits", International
Workshop on Biomedical
Transducers and Measurements, Madrid, Spain, (November, 1978).
60.
Fraden,
J., Neuman, M.R. and Rich, R.; "A Dry
Electrode Monitoring
System", IEEE Engineering in Medicine and Biology Annual Conference,
61.
Zelina,
F.J., Vamvakas, S., Lin, W.C. and Neuman, M.R.; "A Telemetry Pulse‑Frequency Demodulation System
Employing Microprocessor
Controlled Noise Rejection", IEEE
Engineering in Medicine
and Biology Society Annual Conference,
62.
Fraden,
J. and Neuman, M.R.; "
63.
Vamvakas, S.
and Neuman, M.R.; "A Multipurpose, Micropower,Implantable Telemetry
System", Thirty‑second Annual Conference on Engineering in
Medicine and Biology,
64.
Neuman,
M.R.; "Perinatal
Telemetry", JUREMA Conference,
65.
Neuman,
M.R.; "Current Problems in Biomedical Transducer Research" Workshop on
Biomedical Transducers, Thirty‑third Annual Conference on Engineering
in Medicine and
Biology,
66.
Liu,
C.C., Neuman, M.R.,
67.
Spatling,
L., Bronz, L., Morf, P., Neuman, M.R., Huch, R. and Huch, A.; "Messung der Cervixfestigkeit
vor und nach lokaler Anwendung von Prostaglandinen ‑
erste Klinische Erfahrungen,
(Measurement of Cervical Stiffness
Before and After
Local Application of Prostaglandins ‑ First Clinical
Experience)", Swiss Association for
Family Planning, Basel, Switzerland, (February, 1981).
68.
Mendelson, Y., Cheung, P.W., Neuman, M.R.
and Cahn, S.D.;
"Spectrophotometric
Investigation of Pulsatile
Blood Flow For Transcutaneous Reflectance
Oximetry", Annual Meeting International Society on Oxygen Transport to
Tissue, Detroit, (August, 1981).
69.
Neuman, M.R.,
Liu, C.C. and
Cheung, P.W.; "Application of Microelectronic Technology to Oxygen and Hydrogen Ion
Sensors", 2nd International
Symposium on Continuous
Transcutaneous Blood Gas Monitoring, Zurich, Switzerland,
(October, 1981).
70.
Lysikiewicz,
A., Neuman, M.R., Huch, R. and
Huch, A.; "Maternal
Transcutaneous PCO2 During Labour", 2nd International
Symposium on Continuous Transcutaneous Blood Gas Monitoring, Zurich, Switzerland, (October, 1981).
71.
Mendelson,
Y., Cheung, P.W. and Neuman, M.R.; "Spectrophotometric Transcutaneous
Reflectance Oximetry", 2nd International Symposium on Continuous Transcutaneous Blood
Gas Monitoring,
72.
Spatling,
L., Bronz, L., Morf, P., Witzig, D., Neuman,
M.R., Huch, R. and Huch, A.; "Wirkung Verschiedener
Prostaglandin‑applikationen auf die Cervix Uteri im Ersten Trimenon
‑ Erste Quantifizierbare
Konsistenzbestimmungen," Symposium Prostaglandine in Gynakologie und
Geburtshilfe", Homburg,
73.
Liu,
C.C., Savnik, D.A., Neuman, M.R. and Yonekawa,
H.; "Miniature Multiple Cathode
Oxygen Sensor For
Medical and Biological Monitoring", 74th Ann.
AICHE meeting, New,
74.
Neuman, M.R.; "Force and
Position Transducers", 12th
Neural Prosthesis Workshop, National
Institutes of Health,
Bethesda, Maryland, (November, 1981).
75.
Spatling,
L., Fallenstein, F., Neuman, M.R., Muller,
N., Huch, R. and
Huch, A.; "Quantitative Vergleich Verschiedener Prostaglandin ‑
Applikationen auf die Cervix Uteri", German ‑ French Association For
Gynecology and Obstetrics,
76.
Liu,
C.C., Karagounis, V., and Neuman, M.R.; "Metal ‑ Metal Oxide pH
Sensors", International Workshop on Blood Gas Sensor and Measurement
Technology,
77.
Cheung,
P.W., Mendelson, Y., Neuman, M.R., King, K.C., Martin, R.J., and Murphy,
M.F.; "Development of a
Real Time Transcutaneous Reflectance Oximeter for Arterial
Hemoglobin Oxygen Saturation", International Workshop
on Blood Gas
Sensor and Measurement Technology, Columbia, MD (June, 1982).
78.
Neuman,
M.R. and Buckett, J.R.; "Thumb Force and Position Sensors", 35th ACEMB,
79.
Selim,
M.A., Derda, H.J., Neuman, M.R., Shalodi, A.D.,
and Sharan, V.M.; "Improvement of
the Botstein‑Zacharopoulos Radiation Applicator", 35th ACEMB,
80.
Neuman, M.R.;
"Physical and Chemical
Sensors for Medical Instrumentation," Invited
Lecture, World Congress on Medical Physics and Biomedical Engineering,
81.
Neuman, M.R.;
"Transcutaneous Blood Gas
Measurements", Invited
Lecture, Annual International Medical and Laboratory Instrumentation Congress
and Exhibition,
82.
Neuman,
M.R. and Santic A.; "A Comparison of Infrared and Low Power Radio
Frequency Telemetry Systems", European
Economic Community Workshop on
Alternate Forms of
Biomedical Telemetry, Garmisch‑Partenkirchen, FRG, (May,
1983).
83.
Santic,
A. and Neuman, M.R.; "Instrumentation for
Sensing Blood Pressure at the Finger", Association for the
Advancement of Medical Instrumentation 18th Annual Meeting,
84.
Neuman, M.R.; "Home Medical
Technology",
Association for the Advancement of Medical Instrumentation 18th Annual
Meeting,
85.
Mendenhall,
R.S. and Neuman, M.R.;
"Efficacy of Five
NoninvasiveInfant Respiration Sensors", IEEE
Frontiers in Engineering
in Medicine and Biology, Columbus, Ohio, (Sept., 1983).
86.
Santic,
A. and Neuman, M.R.; "Optimization
of Low Power
Infrared Biotelemetry Systems", 36th Annual Conf. Engineering in
Medicine and Biology,
87.
Mendelson,
Y., Cheung, P.W.
and Neuman, M.R.;
"Instrumentation Development
for Noninvasive Arterial
OS", 36th Annual
Conf. Engineering in Medicine and Biology, Columbus, Ohio, (Sept.,
1983).
88.
Neuman,
M.R.; "Force and Position Sensors", 13th Neural Prosthesis Workshop,
89.
Neuman,
M.R.; "Optimal Detection of Respiration and Apnea in Infant Monitors", AAMI
Technology Assessment Conference: Medical Technology for the Neonate,
90.
Neuman,
M.R.; "Applications of Biotelemetry in Perinatal Medicine", 8th International Symposium on Biotelemetry,
91.
Neuman,
M.R., Schnatz, P.T. and Martin, R.J.;
"Telemetry of Basal Body
Temperatures in Women
and Respiration in
Neonates", 8th
International Symposium on
Biotelemetry, Dubrovnik, Yugoslavia, (May, 1984).
92.
Santic,
A. and Neuman, M.R.; "A Low
Power Infrared Biotelemetry System", 8th
International Symposium on Biotelemetry, Dubrovnik, Yugoslavia, (May,
1984).
93.
Neuman, M.R.,
Berec A., O'Connor,
E.; "Capacitive Sensors for Measuring Finger
and Thumb Tip
Forces", IEEE Frontiers
of Engineering and Computing in Health Care, Los Angeles, (1984).
94.
Karagounis,
V.A., Liu, C.C., Neuman, M.R., Leary‑Renick, P.A.
and Cuomo, J.J.; "Palladium Oxide
Thin Sputtered Films
as pH Electrodes", 37th
ACEMB, 38: 6, p 255, Los
Angeles, California, (1984).
95.
Neuman,
M.R. and Riso, R.; "Sensory Feedback Transducers", Fifteenth Neural
Prosthesis Workshop, (November, 1984).
96.
Neuman,
M.R.; "Concerns About 'Hospital
Equipment' in the
Home", Northwest Apnea Management Symposium,
97.
Neuman,
M.R.; "Theory and Practice of Thoracic Impedance Use", Third
Conference on Infantile
Apnea and Home Monitoring, Rancho Mirage,
98.
Spatling,
L., Neuman, M.R., Huch, R. and Huch, A.; "Influence of Different
Prostaglandin Applications on Cervical Rheology", Submitted to International
Journal of Obstetrics and Gynecology.
99.
Neuman,
M.R.; "Blood Gases in Perinatal
Medicine: Significance,
Instrumentation and Need", 11th Northeast Bioengineering Conference,
100.
Neuman,
M.R. and Santic, A.; "Low Power Multiple Transmitter Infrared
Telemetry", 20th AAMI Annual Meeting,
101.
Talbot‑Pederson,
A. and Neuman, M.R.; "A Dynamic Computer
Model of Transcutaneous
Oxygen Tension Measurement", 20th
AAMI Annual Meeting,
102.
Mendenhall,
R.S. and Neuman, M.R.;
"Comparitive Analysis of
Five Non‑Invasive
Neonatal Respiration Sensors", 20th
AAMI Annual Meeting,
103.
Neuman,
M.R. and Berec, A.; "Capacitive Force and Tactile Sensors for Use on the
Paralyzed Hand", 14th ICMBE,
104.
Neuman, M.R.
and Liu, C.C.; "Applications of
Electrochemical Principles to Microelectronic Blood Gas Sensors",
14th IFMBE,
105.
Yount,
J.E. and Neuman, M.R.; "Development of
a Physiologically
Appropriate Circuit for
Testing Thoracic Impedance
Respiration Monitors", 14th IFMBE, Espoo, Finland, (1985).
106.
Liu, C.C.
and Neuman, M.R.;
"Application of Microelectronic Fabrication Techniques
to Electrochemical Sensors", 1985
AICHE Summer National Meeting, Seattle, WA, (1985).
107.
Neuman, M.R.; "Pulse Oximetry:
Physical Principles, Technical Realization and Present
Limitations", Third International Conference on Continuous
Transcutaneous Monitoring,
108.
Liu,
C.C., Neuman, M.R., Romankiw, L.T., Makovos, E.B.; "Microelectronic Sensors
for Simultaneous Measurement of PO2 and pH" Third International Conference
on Continuous Transcutaneous
Monitoring, Zurich, Switzerland, (October 1‑4, 1986).
109.
Talbot‑Pedersen,
A., Neuman, M.R., Saidel, G.H. and
Jacobsen, E.; "Estimation of the Determinents
of Transcutaneous Oxygen Tension Using a Dynamic Computer Model" Third International
Conference on Continuous
Transcutaneous Monitoring, Zurich, Switzerland, (October 1‑4, 1986).
110.
Neuman,
M.R., Liu, C.C., Makovos, E.B.,
Saunders, K.; "Miniature
Electrochemical Biosensors Fabricated
Using Microelectronic Technology",
39th ACEMB,
111.
Neuman,
M.R.; "Biotelemetry: We've Come a Long Way But the Road Continues On", Opening Lecture,
Ninth International Symposium on Biotelemetry,
112.
Neuman,
M.R.; "New Prospectives in
Perinatal Biotelemetry"
Ninth International Symposium on
Biotelemetry,
113.
Neuman,
M.R.; "Critical and Emergent Issues in Biosensors", IEEE‑EMBS
Annual Meeting,
114.
Neuman,
M.R.; "Biosensor
Research", Plenary lecture,
5th Annual Conference on
Biomedical Engineering and
Research in Houston, Houston, Texas, (March, 1987).
115.
Neuman,
M.R.; "Principles and Technical Limitations in Infant Apnea Monitoring", 5th
Annual Conference on Biomedical Engineering and Research in
116.
Neuman, M.R.; "Engineering Problems
when Measuring Breathing", American Thoracic Society,
117.
Makovos,
E.B., Lysikiewicz, A., Liu, C.C. and Neuman, M.R.; A Cyclic Voltammetric pH
Sensor for Animal Tissue, 40th ACEMB, Niagara Falls, (Sept. 10‑12, 1987),
Proceedings, p. 172.
118.
Soykan,
O., Chizeck, H.J. and Neuman, M.R.; Signal Processing for a Force
Sensor Array, 40th ACEMB, Niagara Falls, (Sept. 10‑12, 1987),
Proceedings, p. 222.
119.
Berec,
A., Soykan, O. and Neuman, M.R.; A Multielement
Capacitive Force Sensor, 40th
ACEMB, Niagara Falls,
(Sept. 10‑12, 1987),
Proceedings, p. 100.
120.
Jespersen,
E. and Neuman, M.R.; Joint Angle
Position Sensor, 40th ACEMB,
121.
Neuman,
M.R.; New Biosensor Technologies
and Design Strategies, Advances in
Biomedical Technologies: Outlook
for the 1990's, Madison, Wisconsin, (Sept. 28‑29,
1987).
122.
Neuman, M.R.;
Biomedical Sensors, IEEE
Video Conference: New Technologies in Biomedical Engineering,
(Oct. 26, 1987).
123.
Rutherford,
K.M., Riso, R. and Neuman, M.R.; A Finger Mounted Force Sensor
for Use with an FNS Hand Grasp
System, 9th Annual IEEE‑EMBS Conf.,
124.
Neuman,
M.R., Kiwi, R., Merkatz, I.R., Selim, M.A. and
Lysikiewicz, A.; Measurement of the Elastic Properties of the Uterine
Cervix, 9th Annual IEEE‑EMBS Conf.,
125.
Saidel,
G.M., Talbot‑Pedersen, A. and Neuman, M.R.; Model of Oxygen Transport in
Skin and Sensor for Analysis of Transcutaneous Oxygen Measurement, AICHE
Ann. Mtg., New York, (Nov. 15‑20, 1987).
126.
Lysikiewicz,
A., Lazebnik, N., Dierker, L., Neuman, M.R.
and Mann, L.I.; Fetal
Evoked Responses and Fetal Acid‑Base Status, Soc. Of
Perinatal Obstetricians,
127.
Neuman,
M.R. and
Re, T.J.; Thermal
Contact Sensing Electronic Thermometer, Assoc.
for Advancement of Medical Instrum. Ann. Mtg.,
128.
Soykan,
O., Berec, A. and Neuman, M.R.; Signal
Processing for a Capacitive Force Sensor Array, ITBM‑CRDP,
129.
Mackiewickz,
A., Lysikiewicz, A., Neuman, M.R. and
Ballou, S.P.; Quantitative Measurement
of Skin Elasticity
and Plasticity in Scleroderma, Am. Rheumatism Assn.,
130.
Neuman,
M.R. and Liu, C.C.; Biomedical Sensors‑Present and
Future; Gordon Conf. on
Bioanalytical Sensors,
131.
Talbot‑Pedersen,
A., Neuman, M.R. and Saidel, G.M.; A Dynamic
Model for Transcutaneous Oxygen Tension Measurement, World Cong. on
Med. Physics and Biomed. Engrg.,
132.
Neuman,
M.R., Ballou, S.P., Mackiewickz, A. and
Lysikiewicz, A.; Apparatus for Measurement of Skin Elasticity in
Systemic Sclerosis, World Cong. on Med.
Physics and Biomed. Engrg.,
133.
Jespersen,
E. and Neuman, M.R.; A Thin Film Strain Gauge Angular Displacement Sensor for
Measuring Finger Joint Angles, 10th IEEE-EMBS Internat. Conf., Proceedings,
p. 807, (Nov., 1988).
134.
Baird,
T.M. and Neuman, M.R.; Alteration in Breath Amplitude as Measured by
Transthoracic Impedance with Changes in Infant Position, 7th Conf. on Apnea of
Infancy, Rancho Mirage, CA, (Jan., 1989). Abstract in: Pediatric Pulmonology,
5: 260, (1988).
135.
Neuman,
M.R.; Pulse Oximetry: Technical Considerations, 7th Conf. on Apnea of Infancy,
Rancho Mirage, CA, (Jan., 1989).
136.
Lazebnik,
N, Neuman, M.R., Lysikiewicz, A., Dierker, L., and Mann, L.I.; Correlation of
Fetal Heart Rate Response to Scalp Stimulation with Acid-Base Status, SGI
Annual Meeting,
137.
Ashmead,
J.W., Ashmead, G.G., Amini, S., Nuamah, I., Neuman, M.R., and Mann, L.I.;
History of Preterm Delivery and Risk of Recurrent Preterm Delivery: Analysis of
4040 Preterm Deliveries, SGI Annual
Meeting,
138.
Neuman,
M.R.; Primary and Secondary Infant Apnea Monitor Sensing Modalities, Infant
Apnea Monitors: Mandatory Performance Standard Issues, FDA-CDRH,
139.
Neuman,
M.R.; The Detection of Infant Apnea, Infant Apnea Monitors: Mandatory Performance Standard Issues,
FDA-CDRH,
140.
Neuman,
M.R.; Basic Principles and Clinical Limitations of Pulse Oximetry, AAMI Annual
Meeting, Proceedings, (1989).
141.
Neuman,
M.R.; Noninvasive Monitoring of Uterine Contractility in Pregnant Patients
Using Multiple Tocodynamometers, 11th IEEE-EMBS International Conference, Proceedings,
(Nov., 1989).
142.
McIntyre,
T. and Neuman, M.R.; Thin Film Sensor for Infant Respiration, 11th IEEE-EMBS
International Conference, Proceedings, (Nov., 1989).
143.
Neuman,
M.R.; Monitor Update: What's New in Sensing, Processing, Recording and Display,
Eighth Conference on Apnea of Infancy, Rancho Mirage, CA, (
144.
Baird,
T.M., Goydos, J., and Neuman, M.R.; Optimal Lead Placement for Monitoring the
ECG and Breathing in Infants, Eighth Conference on Apnea of Infancy, Rancho
Mirage, CA, (Jan. 25-27, 1990).
145.
Neuman,
M.R.; Important Considerations for Transducers and Support Electronics,
Clinical and Engineering Standards for Monitoring and Diagnostic Display of
Physiologic Activity,
146.
Neuman,
M.R.; Considerations for Implant Biotelemetry, Workshop on Implantable
Telemetry Systems, University of North Carolina, Chapel Hill, (June 4, 1990).
147.
Neuman,
M.R. and Wang, N.; Motion Artifact in Pulse Oximetry, IEEE-EMBS Annual Meeting,
Proceedings, 12:2007-8,
148.
Soykan,
O. and Neuman, M.R.; A Comparitive Study of Signal Processing to Improve Sensor
Array Characteristics, IEEE-EMBS Annual Meeting, Proceedings, 12:508-9,
149.
Ashmead,
G.G., Ashmead, J.W., Lazebnik, N., Neuman, M.R., Amini, S., and Mann, L.I.; The
Correlation of Fetal Blood Gases and pH with Non-Invasive Testing, Society of Perinatal
Obstetricians, (Feb., 1990), abstract in J. Perinat. Med. 18(Suppl.
1):10, (1990).
150.
Ashmead,
J.W., Ashmead, G.G., Mann, L.I., Amini, S., and Neuman, M.R.; Uterine Artery
Banding in the Pre-Pregnant Virgin Sprague-Dawley Rat: Potential Model for Intrauterine
Growth Retardation and Pregnancy Induced Hypertension, Society for Gynecologic
Investigation, (March, 1990).
151.
Neuman,
M.R.; Event Recording Monitors - Equipment Comparisons and Contrasts, Ninth
Conference on Apnea of Infancy, Rancho Mirage, CA, (
152. R.
P. Buck, R. P. Kusy, M. R. Neuman, and J. J. Wortman, "Macro to Micro
'Plunge' Electrodes for in vivo Cardiovascular Measurements" on Symposium:
"Biosensors", Polymer Materials, Science and Engineering Division,
ACS Spring Meeting, Atlanta, GA, (April 14‑19, 1991). Abstract: Proc. of
the ACS Division of Polymeric Materials Vol. 64, page 390, (1991).
153. R.
P. Buck, T. M. Nahir, R. P. Kusy, M. R. Neuman, R. B. Ash, and H. T. Nagle,
"Macro and Micro 'Plunge' Electrodes of in vivo Cardiovascular
Measurements" on Symposium: Electrochemical Sensors for Medical
Applications", 42nd ISE Meeting, Montreux, Switz., (August 25‑30,
l991).
154.
Neuman,
M.R.; Discussant for Sensors Session, Engineering Foundation Conference, Neural
Prostheses: Motor Systems III,
155.
Neuman,
M.R., Buck, R.P. and Nagle, H.T.; Biomedical Sensors: An Integrated Approach to
Technology, Evaluation and Applications, Minisymposium, 13th Annual Conf., IEEE
- Engineering in Medicine and Biology Society, Orlando, (Oct. 31 - Nov. 3,
1991).
156.
Akasofu,
K.I. and Neuman, M.R.; A Thin-Film Capacitance Shear Force Sensor for Medical
and Robotics Applications, 13th Annual Conf., IEEE - Engineering in Medicine
and Biology Society, Orlando, (Oct. 31 - Nov. 3, 1991).
157. Neuman,
M.R.; New Developments in Apnea Monitor Technology: Sensors - the Patient - Monitor Interface, Tenth Conference
on Apnea of Infancy, Annenberg Center at
Eisenhower Medical Center, Rancho Mirage, CA, (Jan. 23 -25, 1992).
158.
Baird, T.M., McIntyre, T., and Neuman, M.R.; Comparison of a Thin-Film
Compliant Strain Gauge For Measuring Infant Respiration with Transthoracic
Impedance and the Mercury Strain Gauge, Tenth Conference on Apnea of Infancy,
Annenberg Center at Eisenhower Medical Center, Rancho Mirage, CA, (Jan. 23 -25,
1992).
159. R.
P. Buck, E. Lindner, V. V. Cosofret, R. P. Kusy, T. A. Johnson, and M. R.
Neuman, "Design, Fabrication and Testing of Flexible Ion Microsensors for
Cardiovascular Applications", Electrochemical Society Meeting, St. Louis,
MO, (May 17‑22, 1992). In the Long Abstract Book as Abstract 553.
160. T.
M. Baird and M. R. Neuman; A Thin-Film Temperature Sensor for Measuring Nasal
and Oral breathing in Neonates, 14th
Annual International Conf., IEEE - Engineering in Medicine and Biology Society,
161. M.
R. Neuman, D. G. Fleming, T. M. Baird and S. Lambert; Monitoring Infant
Respiration using an Eight-Channel
Transthoracic Impedance Monitor, 14th Annual International Conf., IEEE -
Engineering in Medicine and Biology Society, Paris, (Oct. 29 - Nov. 1, 1992).
162. D.
G. Fleming, M. R. Neuman and T. M. Baird; Eight-Channel Impedance Pneumography
Applied to Studies of Infant Respiration, American Thoracic Society, Annual
Meeting,
163. M.
R. Neuman; Workshop on Sensors for Cardiovascular Applications,
164. J.
T. Zoldak, O. Soykan, and M. R. Neuman; An Electronic Simulator for Testing
Infant Apnea Monitors that Utilizes Realistic Physiologic Data, 15th Annual
International Conf., IEEE - Engineering in Medicine and Biology Society, San
Diego, (Oct. 28 - 31, 1993).
165. M.
R. Neuman, K. Markus, M. Mehregany, and H. Z. Massoud; Mini-Symposium: Microelectromechanical
Systems - A New Technology for Biomedical Application, 15th Annual
International Conf., IEEE - Engineering in Medicine and Biology Society, San
Diego, (Oct. 28 - 31, 1993).
166. M.
R. Neuman; Analytic Strategies, Pathoohysiological Mechanisms for Sudden Infant
Death Syndrome, NICHD - SIDS
167. M.
R. Neuman; Collaborative Home Infant Monitor Evaluation (CHIME): Comparison of
Technologies and Interrater Reliability, 12th Conference on Apnea of Infancy,
Annenberg Center at Eisenhower Medical Center, Rancho Mirage, CA, (Jan. 20 -
22, 1994).
168. M.
R. Neuman; Computerized Polysomnography and Cardiorespiratory Monitoring:
Technical Considerations, 12th Conference on Apnea of Infancy, Annenberg Center
at Eisenhower Medical Center, Rancho Mirage, CA, (Jan. 20 - 22, 1994).
169. M.
R. Neuman; Moving Sensor and Instrumentation Technology from the Laboratory
into Clinical Practice: A Case Study of Infant Apnea Monitoring,
170. M.
R. Neuman; Application of Thin-Film Microelectronic Technology to the
Development of Biomedical Sensors, Keynote Address, International Conference on
Biomedical Engineering, Hong Kong, (April 7 - 9, 1994).
171. M.
R. Neuman; Monitoring Infant Apnea: Technology Development, Application and
Evaluation, International Conference on Biomedical Engineering,
172. M.
R. Neuman; Biomedical Sensors, New England Society of Clinical Engineering,
Trinity College, Hartford, CT, (May 12, 1994).
173. M.
R. Neuman; Biomedical Sensors based upon Thin- and Thick-Film Microelectronic
Technology, Sensor Technology, 21st Annual Spring Symposium of the Michigan Section
of the American Vacuum Society, Detroit, MI, (May 21, 1994).
174. M.
R. Neuman; Biomedical Sensors: The Critical Link between Patient and Monitor,
Keynote address, Spacelabs Breakfast, Association for the Advancement of
Medical Instrumentation annual Meeting, Washington, D.C., (May 21 - 25, 1994).
175. M.
R. Neuman; Instrumentation for Respiratory Patient Monitoring and Pulmonary
Function Testing, Association for the Advancement of Medical Instrumentation
annual Meeting, Washington, D.C., (May 21 - 25, 1994).
176. M.
R. Neuman; Physical and Chemical Sensors of Biomedical Variables Fabricated
using Microelectronic Technology,
Contributions of Biomedical Engineering to Biology and Medicine,
National Institutes of Health, Fogarty Center, (June 13 - 16, 1994).
177. M.
R. Neuman; Monitoring Infant Apnea: Technology Development, Application, and
Evaluation, World Congress on Medical Physics and Biomedical Engineering, Rio
de Janeiro, (Aug. 21 - 26, 1994).
178. M.
R. Neuman, C. R. Edwards, W. McFarland, and S. Krause; A Sensor for Measuring
Finger Joint Angular Displacement Based upon Thin-Film Microelectronic
Technology, World Congress on Medical Physics and Biomedical Engineering, Rio
de Janeiro, (Aug. 21 - 26, 1994).
179. C.
Cristalli, M. R. Neuman, and M. Ursino; Studies on the Soft Tissue Pressure
Distribution in the Arm during Blood Pressure Measurement, IEEE-EMBS Annual
International Meeting,
180. M.
R. Neuman; The Challenge of Biosensors, Biosensors, Transducers, and
Nanomachines in Biotechnology, Fondazione per le Biotechnologie, Villa Gualino,
Turin, Italy, (Nov. 27 - Dec. 2, 1994).
181. M.
R. Neuman; Thick and Thin Film Techniques for Biomedical Sensors, Biosensors,
Transducers, and Nanomachines in Biotechnology, Fondazione per le
Biotechnologie, Villa Gualino, Turin, Italy, (Nov. 27 - Dec. 2, 1994).
182. M.
R. Neuman; R. P. Buck; Physical and Chemical Biomedical Sensors based upon
Thin-Film Microelectronic Technology, AAAS Annual Meeting,
183. M.
R. Neuman, R. P. Buck; Fabricating Biomedical Sensors using Microelectronic
Technology: The Potential for Integrated Sensor-Telemetry Systems, 13th
International Symposium on Biotelemetry,
Williamsburg, VA, (March 26 - 31, 1995).
184. V.
V. Cosofret, M. Erdosy, T. A. Johnson, R. P. Buck, R. B. Ash, and M. R. Neuman;
Sensor Arrays for Monitoring pH and K+ in the Beating Myocardium,
Eurosensors IX: Eighth International Conference on Solid State Sensors and
Actuators, Stockholm Sweden, (June 25-29, 1995), Digest of Technical Papers,
paper 469-D11; 2:902-4.
185. C.
Cristalli and M. R. Neuman; A Capacitive Pressure Sensor for Measurement of
Interfacial Pressure between a Sphygmomamometer Cuff and the Arm; IEEE-EMBS
17th Annual International Conference, Montreal, (Sept. 21-24, 1995),
Proceedings Paper No. 7.1.1.2.
186. M.
R. Neuman, R. P. Buck, R. B. Ash, T. A. Johnson, M. Erdosy, S. Ufer, and V. V.
Cosofret; Batch-Produced Microfabricated Ion-Selective Electrodes:
Reproducibility, Reliability and Yields,
IEEE-EMBS 17th Annual International Conference, Montreal, (Sept. 21-24,
1995), Proceedings Paper No. 7.1.3.5.
187.
M.
R. Neuman, R. P. Buck; Fabricating Biomedical Sensors using Microelectronic
Technology: The Potential for Integrated Sensor-Telemetry Systems, 13th
International Symposium on Biotelemetry,
Williamsburg, VA, (March 26 - 31, 1995).
188. M.
R. Neuman, S. C. Perlaky, J. P. Michalski, J. B. Bass, and C. C. McCombs;
Detection of TB Antigens in the Liquid
and Vapor Phases by an Antibody-Based Piezoelectric Biosensor, IEEE-EMBS 17th Annual International
Conference, Montreal, (Sept. 21-24, 1995), Proceedings Paper No. 7.1.3.8.
188.
J.
B. Bass, S. C. Perlaky, J. P. Michalski, M. R. Neuman and C. C. McCombs;
Detection of Air Borne Mycobacterial Antigens by Antibody-Based Biosensors,
Lancet Conference, (1995).
189.
Corwin
MJ, Neuman M, Silvestri JM, Crowell D, Davidson-Ward S, Brooks L, Hunt C,
Lister G, Willinger M, & CHIME: Accuracy of apnea scoring with the CHIME
monitor: Comparison to polysomnography.
Presented at Fourth SIDS International Conference,
190.
Hoppenbrouwers
T., Neuman M., Corwin M., Silvestri J., Baird T, Crowell D., Hunt C., Sackner
M., Lister G., Willinger M. & CHIME.
Multivariable Cardiorespiratory Monitoring at Home: Collaborative Home Infant Monitoring
Evaluation (CHIME). 18th
Annual International IEEE Conference, Engineering in Medicine and Biology,
191.
M.
R. Neuman, R. P. Buck, V. V. Cosofret, E. Lindner, M. Erdosy, C. R. Edwards, R.
A. Lucic, C. Xu, and S. Marzouk; Microfabricated Miniature Chemical Sensors,
XIV International Symposium on Biotelemetry, Marburg, Germany, (April 6-11,
1997).
192.
C.
Cristalli, C. R. Edwards, and M. R. Neuman; Microfabricated Variable Capitance
Force Sensors, XIV International Symposium on Biotelemetry,
193.
M.
R. Neuman; Thirty years of fetal/neonatal measurement technology: Has it made a
difference?, 6th International Conference on Fetal and Neonatal
Measurement Technology,
194.
M.
R. Neuman, J. T. Zoldak, T. M. Baird et
al; Instrumentation for Home Cardiopulmonary Monitoring, The CHIME
Monitor. 6th International Conference on
Fetal and Neonatal Measurement Technology,
195.
Hunt
CE, Corwin MF, Peucker M, Weese-Mayer DE, Tinsley L, Keens TG, Lister G, Neuman
MR, Baird TM & CHIME. “Longitudinal
assessment of oxygen saturation and sleep position in healthy term infants
during the first 6 months of life”. Soc
Pediatr Res,
196.
Corwin,
MJ, Lister G. Silvestri J, Peucker M, Brooks L, Davidson Ward SL, Hunt CE,
Neuman MR, Crowell DH, Colton T & CHIME:
Inter-rater agreement in scoring home cardiorespiratory tracings. Soc Pediatr Res,
197.
Corwin
MJ, Weese-Mayer, Neuman MR, Crowell D, Davidson Ward S, Brooks L, Hunt CE,
Lister G, Willinger M, & CHIME: Apnea duration: Respiratory inductance
plethysmography (RIP) and transthoracic impedance (TTI) pneumography vs.
polysomnography (PSG). Soc Pediatr Res,
198.
D.
H. Crowell, L. J. Brooks, T. Colton, M. J. Corwin, T. T. Hoppenbrouwers, C. E.
Hunt, L. E. Kapuniai, G. Lister, M. R. Neuman, M. Peucker, S. L. Davidson-Ward,
D. E. Weese-Mayer, M. Willinger, and CHIME; Infant Polysomnography:
Reliability. Soc Sleep Res, American
Sleep Disorders Assoc 11th Annual Meeting:
199.
M.
R. Neuman, Important Issues in
Biomedical Sensors Development, First Annual BEACON Symposium, Biomedical
Engineering Alliance for Connecticut, Trinity College, Hartford, CT, Oct. 2,
1998.
200.
M. R. Neuman, G. Nagy, E. Lindner, C. Xu,
and R. P. Buck, Microfabricated Sensors for Diamines and Diamine Oxidase for
Applications in Reproductive Medicine, Annual Meeting of the Biomedical
Engineering Society, Cleveland, OH, Oct. 10 - 13, 1998.
201.
M. R. Neuman, Sensing the Human Body:
Biosensor Development at CWRU, Annual Meeting of the Biomedical Engineering
Society,
202.
Corwin M., Colton T., Neuman M., Baird
T., Brooks L., Crowell D., Tinsley L., Hoppenbrouwers T., Keens T.,
Davidson-Ward S., Ramanathan R., Hunt C., Hufford D., Lister G., Weese-Mayer
D., Silvestri J., Willinger M.: “The
CHIME Pilot Study”. Pediatric Research 37:389A, April, 1995.
203.
Corwin MJ, Neuman M, Silvestri JM,
Crowell D, Davidson-Ward S, Brooks L, Hunt C, Lister G, Willlinger M, & CHIME: Accuracy of apnea
scoring with the CHIME monitor: Comparison to polysomnography. Presented at Fourth SIDS International
Conference, Bethesday,
204.
Hoppenbrouwers T., Neuman M., Corwin M.,
Silvestri J., Baird T., Crowell D., Hunt C., Sackner M., Lister G., Willinger
M. & CHIME. “Multivariate
Cardiorespiratory Monitoring at Home: Collaborative Home Infant Monitoring
Evaluation (CHIME).” Presentation at the
18th Annual International Conference of the IEEE Engineering in
Medicine and Biology Society,
205.
Neuman MR, Zoldak JT, Watson H, Hunt
CE ??other authors? and CHIME. “Instrumentation for Home Cardiopulmonary
Monitoring.” Presented 6th
International Conference on Fetal & Neonatal Physiological Measurement,
206.
Hunt CE, Corwin MJ, Peucker M,
Weese-Mayer DE, Tinsley L, Keens TG, Lister G, Neuman MR, Baird TM &
CHIME. “Longitudinal assessment of
oxygen saturation and sleep position in healthy term infants during the first 6
months of life.” Presented at Society
for Pediatric Research,
207.
Corwin MJ, Lister G, Silvestri J, Peucker
M, Brooks L, Davidson Ward SL, Hunt CE, Neuman MR, Crowell DH, Colton T &
CHIME: “Interrater agreement in scoring home cardiorespiratory tracings.” Presented at Society Pediatric Research,
208.
Corwin MJ, Weese-Mayer DE, Neuman MR,
Crowell D, Davidson Ward S, Brooks L, Hunt CE, Lister G, Willinger M, &
CHIME: Apnea duration: Respiratory inductance plethysmography (RIP) and
transthoracic impedance (TTI) pnemography vs. polysomnography (PSG). Presented at Society for Pediatric Research,
209.
Crowell, DH, Brooks, L.,
210.
Hunt, CE, Corwin, MJ, Peucker, M,
211.
M. R. Neuman, G. Nagy, E. Lindner, C. Xu,
and R. P. Buck. Microfabricated Sensors for Diamines and Diamine Oxidase for
Application in Reproductive Medicine, Biomedical Engineering Society Annual
Meeting,
212.
M. R. Neuman. Sensing the Human Body: The
CWRU Experience, Biomedical Engineering Society Annual Meeting,
213.
M. R. Neuman, Microfabricated Biomedical
Sensors,
214.
M.
R. Neuman, Issues in Microfabricated Biomedical Sensors,
215.
M.
R. Neuman, Microfabricated Biomedical Sensors,
216.
M.
R. Neuman, Biomedical Instrumentation in Perinatal Medicine, keynote address,
Taiwan BME Society,
217.
M.
R. Neuman, Focusing the Memphis Effort in Pediatric Biomedical Engineering,
Crippled Children’s Foundation Research Center, Memphis, Tennessee, September
27, 1999.
218.
M.
Neuman, H. Bada, S. Colaso, Monitoring Infant Breathing by Multi-Channel
Transthoracic Impedance Measurement, 7th International Conference on
Fetal & Neonatal Physiological Measurement, University of Turku, Turku,
Finland, June 15, 2000.
219.
M.
Neuman, R. Danish, E.Eckstein, J. Buchanan, Memphis Center for Biomedical
Engineering in Pediatrics: A New, Clinically Relevant Research and Training
Program, 7th International Conference on Fetal & Neonatal
Physiological Measurement, University of Turku, Turku, Finland, June 15, 2000.
220.
M.
R. Neuman, The Memphis Center for Biomedical Engineering in Pediatrics: A New,
Clinically Relevant Research and Training Program, Tennessee 2000 Biomedical
Engineering Conference, Knoxville, Tennessee, March 30-April 1, 2000.
221.
Neuman,
M.R., Lindner, E., Cristalli A., Gyurcsanyi R. E., Cheema K., and Pandolf M.;
Thin- and Thick-Film Structures for Miniature Biomedical Sensors, 1st
Annual International IEEE-EMBS Special Topic Conference on Microtechnologies in
Medicine and Biology, Lyon, France, October 12-14, 2000.
222.
Neuman, M.R.;
Memphis Center for Biomedical Engineering in Pediatrics: A
Clinically-Based BME Educational Experience, The Whitaker Foundation Biomedical
Engineering Educational Summit, Lansdowne, Virginia, December 7-10, 2000.
223.
Neuman,
M.R.; Biosensors, An Overview, 20th Southern Biomedical Engineering
Conference,
224.
M.R.
Neuman, Q. Li.; System for Tracking Caged Animals for Behavioral Studies, 16th
International Symposium on Biotelemetry, Vienna, Austria, May 6-11, 2001.
225.
M.R.
Neuman, A. Cristalli, E. Lindner, M. Pandolf; Non-Conventional Thick-Film
Strucutres and Techniques for Biomedical Sensor Fabrication, 16th
International Symposium on Biotelemetry, Vienna, Austria, May 6-11, 2001.
226.
M.R.
Neuman; Microfabricated Biomedical Sensors, The University of
227.
Neuman, MR, Lindner, E, and Pendley, B. Thick- and
Thin-Film Based Biomedical Sensors, BECON 2002: Sensors for Biological Research
and Medicine, NIH,
227.
Lindner, E, Liu, Y, Gyurcsanyi, RE, and Neuman, MR.
Microfabricated Amperometric Cells for Enzyme Assays and Multi-Component
Analysis, BECON 2002: Sensors for Biological Research and Medicine, NIH,
228. Neuman, MR and Roscoe, J. Physiological Measurement, A Peer-Reviewed Journal Devoted to Biomedical Sensors and Instrumentation Research, BECON 2002: Sensors for Biological Research and Medicine, NIH, Bethesda, MD, June 24-5, 2002.
229. John, V, Neuman, MR, Talati. A and Bada, H. The Effects of in utero Cocaine Exposure on Heart Rate and Heart Rate Variability in Infants, Computers in Cardiology, Memphis, Sept. 2002.
230. John, V, Neuman, MR, Talati, A. The effects of in utero Cocaine Exposure on the Heart Rate and Heart Rate Variability of term and Near Term Infants Following Orthostatic Stress, Second Joint EMBS/BMES Conference, Houston, Oct. 23-26, 2002.
231.
Neuman, MR, Buchanan, J, Danish, R, and Eckstein, EC.
232. Gyurcsanyi, RE, Nagy, G, Lindner, E, and Neuman, MR. Amperometric Microcells for Enzyme Assay, International Conference on Electrochemical Sensors, Matrafured, Hungary, Oct. 13-18, 2002.
233. Neuman, MR, Pandolf, M, Lindner, E, and Pendley, B. Unconventional Thick-Film Sensor Structures, International Conference on Electrochemical Sensors, Matrafured, Hungary, Oct. 13-18, 2002.
234.
Neuman, MR. Important Issues in Biomedical
Sensors, invited lecture, AIChE Annual
Meeting,
235.
Neuman, MR. Biosensors, invited lecture, Twelfth Annual
Connecticut Symposium on Microelectronics and Optoelectronics,
236.
S. Sangupta, Q.
Li and M.R. Neuman. A Two-Dimensional Color-Based
Confined Animal Motion Tracking System, Biomedical Engineering Society Annual
Meeting,
PATENTS
1.
R.
D. Horbinski, R. D. MacGregor, M. R. Neuman; Depth and Temperature Indicator,
U.S Patent No. 3,087,338, (April 30,
1963).
2.
M.
R. Neuman, and McIntyre, T.G.; Strain Gauge and Method of Making and Using
the Same,
3.
M.
R. Neuman; Multiple Thin-Film Sensor
4.
M.
R. Neuman; Multiple Thin-Film Sensor
5.
C.
Bergkuist, R. P. Buck, V. V. Cosofret, C. C. Liu, R. A. Lucic, J. P. Moriarty,
M. R. Neuman, R. M. Bucchianeri; Sensor
Cartridges,
Jeremy Goldman, PhD
Biomedical Engineering Department
309 Minerals and
Email: jgoldman@mtu.edu
M.S., in Biomedical
Engineering
2000
– 2002 American Heart Association Pre-Doctoral Fellowship
2000
– 2002 Northwestern University Scholarship
1998 – 2000 Walter P. Murphy
Fellow
Worked under Professor
§
Goldman J, Le TX, Skobe
M, and Swartz MA. Overexpression of VEGF-C causes
transient hyperplasia but not increased lymphangiogenesis in regenerating skin
(submitted).
§
Pytowski B*, Goldman J*, Persaud K, Wu Y, Witte L,
Hicklin D, Skobe M, Boardman K.C., and Swartz M.A. Complete and specific inhibition of adult
lymphatic regeneration by a novel VEGFR-3 neutralization antibody. J of the National Cancer Institute.
97:14-21, 2005. *authors contributed
equal work.
§
Goldman J, Zhong L, and
Liu S.Q. Degradation of a-actin filaments in venous smooth muscle cells in response to
mechanical stretch. Am J Physiol Heart Circ Physiol. 284: H1839-H1847, 2003.
§
Liu SQ, Ran YY, Tang D, Li YC, Goldman J,and Zhong L.
A possible role of initial cell death due to mechanical stretch in the
regulation of subsequent cell proliferation in experimental vein grafts. Biomechanics
and Modeling in Mechanobiology. 1:17-27, 2002.
§
Liu SQ, Zhong L, and Goldman J. Control of the shape
of a thrombus-neointima-like structure by blood shear stress. Journal of
Biomechanical Engineering. 124(1): 30-36, 2002.
§
Liu SQ, Zhong L, Jian ZL, Goldman J, Moore MM.
Regulation of Shear Dependent Vascular Smooth Muscle Cell Migration By Tyrosine
Kinase Signaling Pathways. In Advances in Biomechanics, Zhu C., and Lun
M ed., Springer-Verlag, Berlin, 2001, pp. 62-73.
§
Moore MM, Goldman J, Patel A, Chien S, and Liu SQ. Role
of tensile stress and strain in the induction of cell death in experimental
vein grafts. Journal of Biomechanics 34(3): 289-297, 2001.
§
Liu SQ and Goldman J. Role of blood shear stress in
the regulation of vascular smooth muscle cell migration. IEEE Transactions
on Biomedical Engineering, 48(4): 474-483, 2001.
Abstracts and
Conference Proceedings
§
Goldman J, Zhong L, and Liu S.Q. Regulation of smooth muscle
actin filament degradation by mechanical stretch. Annals of Biomedical Engineering. Abstract Supplement Biomedical Engineering
Society 2001 Annual Fall Meeting,
§
Goldman
J, Boardman KC, Skobe M, and Swartz MA. Tumor-lymphatic interactions in a
unique collagen skin replacement model. Experimental Biology 2003 Annual
Meeting, April 11-15,
§
Goldman
J and Swartz MA. VEGF-C overexpression
affects early lymphatic growth but not long-term lymphatic function in
regenerating skin. Gordon Research
Conference - Molecular
Mechanisms In Lymphatic Function & Disease 2004, March 7-12,
Debra
D. Charlesworth, Ph.D.
Formerly Debra D.
Wright
Department of Biomedical Engineering Voice: (906) 487-1989
1400 Townsend Dr. E-mail: wright@mtu.edu
Dr. Charlesworth
joined the Center for Biomedical Engineering in November 1999 as an Assistant
Professor. She has played a significant
role in its development from a Center to a full department and has been
instrumental in the preparation for the first ABET site visit. Her role included developing several new
courses, building a strong program of undergraduate and graduate research,
publishing papers, and writing proposals.
She is also an active member in several professional organizations
including the Association for Women in Science (AWIS) and Society for
Biomaterials (SFB). She has well cited
publications in the field of biomaterials and assistive technology and is
currently researching polymeric composites for orthopedic applications. This research has led to the development of
new degradable materials and the application of nanomechanical techniques to
characterize their properties. Her work
with assistive technology has led to collaborations with health care
professionals throughout the region and the development of important new
devices to aid people in the community with disabilities. One such device was honored in 2002 with the
Rehabilitation Engineering Society of North America’s highest design award.
Northwestern
University (
§
Ph.D. in Biomedical Engineering December
1999
Dissertation: Optimization and thermomechanical characterization of highly oriented
PMMA fibers and self-reinforced composite PMMA.
§
Master of Science in Biomedical Engineering June
1996
Thesis: Processing-structure-property characterization of self-reinforced
poly(methyl methacrylate):
Unidirectional and woven composites.
§ Bachelor of Science in Mechanical Engineering, Summa Cum Laude 1993
§ Foreign Language Certificate, German 1992
· American Association of University Women (AAUW) 2002 – present
· Society for Experimental Mechanics (SEM) 2001 – present
· American Society for Engineering Education (ASEE) 2000 – present
· Society for Biomaterials (SFB) 1995 – present
· Association for Women in Science (AWIS) 1994 – present
§
Assistant Professor, Department of Biomedical
Engineering 1999
– present
Research interests include resorbable biomaterials for fracture fixation
devices, polymeric fiber formation, characterization of thermomechanical fiber
properties, wear properties of biomaterials and nanomechanics of
biomaterials. Teaching interests include
graduate and undergraduate courses in the area of biomaterials and
biomechanics.
Northwestern
University (
§ Graduate Research Assistant 1993 – 1999
§ National Science Foundation Fellow 1993 – 1997
§
American Association of University Women Fellow 1998
– 1999
Examined the thermal and mechanical properties of a novel polymer biomaterial,
self-reinforced composite poly(methyl methacrylate). Optimized fiber and composite processing,
investigated processing-structure-property relationships and examined the
effects of molecular weight and processing on molecular structure.
§
National High School Institute, Lecturer Summers 1995 – 1997
Designed and taught a course entitled “Biomaterials and Medical Devices.”
3M Company (
§
Engineering Intern Summer
1993
Responsible for cost reduction activities on a new medical imaging product, the
DryView laser imager, resulting in cost reductions of $200 to $600 per machine. The imager was introduced in 1995, and from
1995 – 2001 sold 15,000 units. The
technology is currently owned and marketed by Kodak.
General Motors
(
§
Engineering Intern Summer
1991
Assessed ergonomics and comfort of seating systems through quantitative
pressure tests and qualitative surveys.
Compared ergonomics of competitive vehicles’ seating systems.
·
Student team received “top five” honors from the
Rehabilitation Engineering 2002
Society of
·
The Committee on Institutional Cooperation
Women in Science and Engineering Initiative Travel Award 1999
· AAUW Selected Professions Dissertation Fellowship 1998
·
·
American Assoc. of Dental Research -
· Odontographic Society Research Award 1994
· National Science Foundation Fellowship 1993
·
· National Dean's List 1990, 1993
·
Who's Who in
·
·
“Nanomechanical Characterization of Biomaterials”
·
Notre Dame, Department of Aerospace and
Mechanical Engineering September
23, 2003
“Composite Biomaterials in Orthopedics:
New Materials and Characterization Methods”
·
“Composite Materials for Orthopaedic Applications”
·
Americans with Disabilities Act Resource
Network, Upper Michigan
“Assistive Technology @
·
“A New Composite Material for Biomedical Applications”
·
“Entropic Springs and Other Things”
·
Dedication of the
“Biomedical Engineering: For the Future”
·
“Characterization of composite PMMA as a novel biomaterial”
1.
D.D.
Wright, J.E. Beard, D.A. Nelson.
“Senior Engineering Design Projects to Assist Disabled Persons in
2.
D.D.
Wright, J.E. Beard, D.A. Nelson.
“REU Supplement to Senior Engineering Design Projects to Assist Disabled
Persons in
3.
S. Menzel.
“Assistive Technology for Aging in Place.” National Association of Home Builders, March
2004 – April 2005, $15,000 total sponsor amount. Commitment: Collaborator on proposal; develop three
devices that will meet the unmet needs of the elderly. For example:
opening milk cartons or transporting items through the house when using
a walker.
4.
D.D.
Wright. “Developing a Collaborative
Research Program between
5.
D.D.
Wright. “Novel Hot Compaction of
Composite Materials for Orthopedic Biomaterials.” Michigan Tech Research Excellence Fund, May
2003 - April 2004, $42,940 total sponsor amount. Commitment: purchase equipment and oversee graduate
research in developing composite materials.
6.
T.J. Van Dam, L.L. Sutter, S.A. Grant, L.M.
Matuana, J.A. King, D.D. Wright. “The Acquisition of Instrumentation for
Microstructural Characterization of Materials that are Non-Conductive or
Include Volatile Phases.” National
Science Foundation, CMS-0079469, September 2000 - August 2003, $490,820 total
sponsor amount. Commitment: Assisted in
instrument selection, proposal preparation and initial user of equipment.
1. D.D. Wright. “Layered composites for orthopedic applications.” National Institutes of Health, 1R15 AR052317-01, April 2005 - March 2008, $230,304 total sponsor amount. Commitment: Supervise undergraduate students conducting research, prepare publications and manage entire budget. Proposal received a priority score of 193, placing it in the fundable category. Currently waiting for funding decision.
2. D.D. Charlesworth, P. Charlesworth, J.A. King, C. Vician, H. Wang. “Application of a spiral curriculum and modern laboratory instrumentation to polymer science and engineering courses.” National Science Foundation, June 2005 - May 2008, $199,796 total sponsor amount. Commitment: Supervise and develop new laboratory and course materials, supervise renovations of undergraduate laboratory, prepare articles for publication and manage 25% of budget.
3. D.D. Charlesworth, M. Raber. “Translation of New Devices for Assistive Technology.” Coulter Foundation, August 2005 – July 2007, $129,582 total sponsor amount. Commitment: Develop an Assistive Technology Enterprise, human subjects teaching module and manage entire budget.
Note: After June 2004,
publications were submitted under
1. W.J.
Peers, D.D. Wright-Charlesworth,
2. P. Charlesworth, D.D. Charlesworth, C. Vician. What is the influence of Web-based course work on incidences of cheating? The student perspective. Journal of Chemical Education. (Accepted pending revision)
3. D.D. Wright-Charlesworth, E.P. Lautenschlager, J.L. Gilbert. Hot compaction of poly(methyl methacrylate) composites based on fiber shrinkage results. Journal of Materials Science: Materials in Medicine. (In press)
4.
D.D.
Wright-Charlesworth, D.M. Miller,
5.
D.D.
Wright-Charlesworth, W.J. Peers,
6. D.D. Wright, E.P. Lautenschlager, J.L. Gilbert. Constrained shrinkage of highly oriented PMMA fibers. Journal of Applied Polymer Science 2004;91:4047-4056.
7. D.D. Wright, E.P. Lautenschlager, J.L. Gilbert. The effect of processing conditions on the properties of poly(methyl methacrylate) fibers. Journal of Biomedical Materials Research - Applied Biomaterials 2002;63:152-160.
8. D.D. Wright, E.P. Lautenschlager, J.L. Gilbert. The effect of processing temperature and time on the structure and fracture characteristics of self-reinforced composite poly(methyl methacrylate). Journal of Materials Science: Materials in Medicine 1999;10:503-512. (3 citations)
9. D.D. Wright, E.P. Lautenschlager, J.L. Gilbert. Interfacial properties of self-reinforced composite poly(methyl methacrylate). Journal of Biomedical Materials Research - Applied Biomaterials 1998;43:153-161. (2 citations)
10. D.D. Wright, E.P. Lautenschlager, J.L. Gilbert. Bending and fracture toughness of woven self-reinforced composite poly(methyl methacrylate). Journal of Biomedical Materials Research 1997;36:441-453. (5 citations)
11. S.R. Visuri, J.L. Gilbert, D.D. Wright, H.A. Wigdor, J.T.J. Walsh. Shear strength of composite bonded to Er:YAG laser-prepared dentin. Journal of Dental Research 1996;75:599-605. (48 citations)
1. D.D. Wright, J.E. Beard, D.A. Nelson.
2. D.D. Wright. Degradable Polymer Composites.
In: Wnek G,
Bowlin G, editors. Encyclopedia
of Biomaterials and Biomedical
Engineering.
3. D.D. Wright, J.E. Beard, D.A. Nelson.
1. D.D. Wright, K.R. Schourek. K-16 Collaboration: Introducing students to biomaterials,
research and decision making. 18th
Biennial Conference on Chemical Education.
2. D.D. Wright, D.M. Miller, J.A.
King. Ceramic-polymer and
self-reinforced composites for orthopaedic applications. Transactions of the Seventh World
Biomaterials Congress.
3.
M. Desrochers, G. Hein, M. Raber, D.D. Wright. Fun and games... In the classroom? Transactions of the 2003 American Society
for Engineering Education.
4.
A.N. Latimer, D.D. Wright. The effect of
an aqueous environment on the creep properties of degradable sutures. Transactions of the 29th Annual Meeting of
the Society for Biomaterials.
5.
W.J. Peers, D.D.
Wright,
6.
D.D.
Wright, J.A. King, D.M. Miller, B.D. Almquist. Ceramic-polymer composites for orthopedic
tissue engineering. Transactions of
the 2003 Biomedical Engineering Society Annual Fall Meeting.
7.
D.D.
Wright, A.N. Latimer. An apparatus
to measure the creep of degradable sutures and polymer fibers. Transactions of the 2003 Biomedical
Engineering Society Annual Fall Meeting.
8.
D.D.
Wright, V. Jukuri, R. Miller, R. Vyas, K. Penegor. A motivational exercise device for the upper
extremities. Transactions of the
International Conference on Aging, Disability, and
9.
D.D.
Wright, J.M. Klein, N. Gabriel.
Student mentoring for the design of assistive technology devices. Transactions of RESNA's 25th International
Conference on Technology & Disability: Research, Design, Practice.
10.
W.J. Peers, D.D.
Wright,
11.
D.D.
Wright, D.M. Miller,
12.
D.D.
13.
D.D.
Wright, E.P. Lautenschlager, J.L. Gilbert.
The effect of molecular orientation on the relaxation process in
poly(methyl methacrylate) fibers. Transactions
of the Sixth World Biomaterials Congress.
14.
D.D.
Wright, E.P. Lautenschlager, J.L. Gilbert.
A new experimental method to quantify the relaxation processes in
poly(methyl methacrylate) fibers. Transactions
of the 25th Annual Meeting of the Society for Biomaterials.
15.
D.D.
Wright, P. Mui, E.P. Lautenschlager, J.L. Gilbert. The effect of melt spinning temperature on
the tensile properties and molecular orientation of poly(methyl methacrylate)
fibers. Transactions of the 24th
Annual Meeting of the Society for Biomaterials.
16.
D.D.
Wright, E.P. Lautenschlager, J.L. Gilbert.
Thermal and mechanical effects of processing on self-reinforced
composite poly(methyl methacrylate). Transactions
of the 23rd Annual Meeting of the Society for Biomaterials.
17.
D.D.
Wright, E.P. Lautenschlager, J.L. Gilbert.
Bending and fracture toughness of woven self-reinforced composite
poly(methyl methacrylate). Transactions
of the Fifth World Biomaterials Congress.
18.
D.D.
Wright, E.P. Lautenschlager, J.L. Gilbert.
Thermal and thermo-mechanical analysis of self-reinforced composite
poly-(methylmethacrylate). Transactions
of the 21st Annual Meeting of the Society for Biomaterials.
Dr. Charlesworth
is actively involved in advising graduate and undergraduate students conducting
research on her projects. The Biomedical
Engineering program does not offer graduate degrees at the M.S. or Ph.D. level
at the present time. She has adjunct
appointments in Mechanical Engineering – Engineering Mechanics and Materials
Science and Engineering to facilitate advising students in these
departments. She has advised over 20
undergraduate students conducting research in her laboratory, and five graduate
students.
·
Dissertation: The development of layered composites for orthopedic applications.
·
Carrie
Majkrzak, M.S., Chemical Engineering, 2004
Thesis: The effect of processing conditions on the mechanical and
nanomechanical properties of self-reinforced ultra high molecular weight
polyethylene.
·
Darinda
Miller, M.S., Materials Science and Engineering, 2004
Thesis: The effect of processing conditions and ceramic incorporation on the
mechanical and nanomechanical properties of poly(lactic acid).
·
Amy
Latimer, M.S. Materials Science and Engineering, 2003
Thesis: An apparatus to study the effect of environment on the creep properties
of degradable sutures.
·
William
Peers, M.S., Mechanical Engineering – Engineering Mechanics, 2002
Thesis: Wear characterization of self-reinforced composite poly(methyl
methacrylate).
·
Journal Review
Journal of Biomedical Materials Research – Part B 2004 – present
Clinical Orthopaedics and Related Research 2004
– present
·
Society for Biomaterials (SFB)
Bylaws Committee, National organization 2003
– present
Faculty Advisor, Michigan Tech Student Chapter 2002
– present
Abstract Review 2001
– present
Secretary/Treasurer, Orthopedic Biomaterials Special Interest Group 2003 – present
Student Awards Coordinator, Orthopedic Biomaterials Special Interest Group 2001 – 2003
·
Association for Women in Science
L’Oreal for Women in Science US Fellowship Programme Reviewer 2004
Undergraduate scholarship reviewer 2001
– 2003
·
National Science Foundation
Graduate Research Fellowship Program Reviewer 2004
– present
Proposal review 2003
·
The International Science and
Proposal Review 2002
·
Society for Experimental Mechanics (SEM)
Organizing committee, Bioinspired conference 2002
– 2003
Bylaws committee chair, Bioinspired technical division 2003 – 2004
Dr. Charlesworth
is dedicated to providing a challenging and inspiring education to Michigan
Tech students. She employs a number of
active learning methods in the classroom, all of which are designed to engage
the entire class in discussions as well as accommodate students’ different
learning styles. All classes use a
comprehensive WebCT site which allows students 24-hour/day access to course
materials and information. Dr.
Charlesworth is also dedicated to the continuous improvement of her
teaching. To help her achieve that goal,
she attends workshops on campus, reads essays about teaching, has participated
in the National Effective Teaching Institute led by Richard Felder, and has
attended the American Society for Engineering Education’s annual meeting.
·
BE4300/5300:
Advanced Polymeric Biomaterials
Elective course in the biomedical engineering curriculum which details polymer
properties and the use of polymers as biomaterials.
·
BE5900: Graduate
Seminar in Biomaterials
Students prepare reviews of journal articles and instructor leads discussion
and the presentation of new material specific to graduate student needs.
·
ENG5200:
Engineering Applications in the Physical Sciences
Accelerated class taught during the summer for teachers. Prepared a 1.5 day module which introduces
teachers to biomaterials and gives suggestions how to incorporate these topics
into a K-12 curriculum.
·
BE3750:
Human Biomechanics
Required course in the biomedical engineering curriculum. Course focuses on the properties of
biological tissues and the mechanics of the human body.
·
BE4900/4910:
Senior Design Project I and II
Have served as project advisor to six senior design teams. Teams have designed devices for people with
disabilities and tools for biomaterials research.
As an advisor to
student organizations, Dr. Charlesworth regularly attends general meetings,
meets individually with officers to determine direction and planning for the
group and plans social events at her home to celebrate the students’ successes
during the year.
·
Society for Biomaterials 2003
– present
The student section was formed in 2003 and is officially recognized by the
national organization as a student chapter.
The students organize visits to universities conducting biomaterials
research, conduct outreach educational programs to local schools and raise
funds to support their activities.
·
This organization fulfills its motto, “Students Helping Students” by
administering a scholarship program, delivering survival kits to students
during finals, and organizing a mud volleyball tournament during Spring Fling.
Due to the small
size of our department (Four faculty members and a department chair), all
faculty are members of all committees.
Each faculty member also takes leadership responsibility for at least
one committee.
· Chair, Curriculum Committee for Biomedical Engineering 2004 – present
· Biomedical Engineering Safety Committee 2002 – present
· Chair, Faculty Search Committee 2003 – 2004
· Michigan Tech Fund Merit Award selection committee 2004
· Laptop initiative committee 2004 – 2005
· Biomedical Engineering Library Liaison 2000 – present
· Non-departmental Ph.D. Program Committee 2002 – present
·
YES! Expo 2004
Assisted in organizing booth for science and engineering exposition to
encourage junior high and high school students to consider careers in science
and engineering.
· West Engineering Information Systems Hiring Committee 2002
· Oversight committee for MEEM2120 course 2000 – 2003
·
LeaderShape cluster facilitator January
2001
Michigan Tech students are taught in this program how to be leaders as well as
how to develop and achieve their vision.
Dr. Charlesworth served as an instructor and leader for the workshop.
·
ABET Accreditation Workshop September
2000
In preparation for the first ABET site visit to accredit the Biomedical Engineering
degree program, Dr. Charlesworth attended this workshop. Participants learned how ABET evaluates
programs, and wrote draft program objectives and outcomes.
Since Biomedical
Engineering is a relatively new discipline, it is important for students, the
community and teachers to learn more about the field. In learning about this new field, students
will be able to make better choices about their course of study and teachers
will be able to better advise their students about career options. Additionally, it is important to provide
young women with role models and examples so that they have choices regarding
their future careers. Dr. Charlesworth
has participated in a number of activities to support these objectives. The following list presents a summary of her
most important activities in this area:
“Diversity in Engineering”
Prepared for the NSF funded GUIDE program (PI:
Gretchen Hein, Ph.D.). The
program targets at-risk undergraduates and establishes a mentoring program
between graduates and undergraduates.
Presented twice in 2003
“Questions about
Students often wonder how graduate school is different from their undergraduate
experience and what factors they need to consider to when applying to graduate
school. This presentation addresses
these questions.
§ Biomedical Engineering Society 2001 – 2003
§
“Total Hip Replacements” 2002
– 2003
This presentation is part of an AP Anatomy & Physiology class at a local
high school. The instructor and Dr.
Charlesworth have developed a course unit that introduces these students to hip
replacement technology and helps the students to develop an opinion about the
best methods for hip replacements.
“Biomaterials: Building a
Better Body”
This unit introduces students to the fundamentals of biomaterials with hands-on
activities and modern examples. This has
been adapted for and presented to several different audiences.
§ Bio-Athlon: High school biology instructors
§ Take Your Daughters to Work Day
§ K-12 Teacher Introduction to Engineering Conference
§ Educators’ Science and Mathematics Institute Series – Physical Science Institute
Curriculum Vitae
David Arthur Nelson
http://www.biomed.mtu.edu/danelson/
Voice: (906) 487-2749
Fax: (906) 487-1717
E-mail: danelson@mtu.edu
Home:
(906) 482-1988
Professional
Experience
Assistant
Professor / Associate Professor / Professor of Mechanical Engineering (1984 -
present)
Director
/ Interim Chairman, Biomedical
Visiting
Scientist (1997-8)
Directed
Energy Bio-Effects Laboratory
Brooks
Air Force
Scientist
I (1979 - 1981)
Inhalation
Technology and Toxicology Section
Biology
Department
Battelle
Northwest Laboratories
Education
Ph.D.
Mechanical Engineering,
M.S.
Biomedical Engineering, The
B.S.E.
Biomedical Engineering,
Security
Clearance
Secret
Level
Technical
and Advisory Boards
IEEE
Committee on Electromagnetic Safety (ICES), Subcommittees
Subcommittees SC-3 ( Extremely Low Frequency Radiation) and SC-4 (Radio
Frequency Radiation)
This
is an international panel of experts who provide technical advice and
recommendations on
biological
effects and hazards associated with radio frequency and low frequency
radiation.
Advisory
Board, Physical Therapy Assistant Program ,
The
board provides assessment and advice on a baccalaureate-level health profession
program.
Professional
Societies and Committees
American
Society for Engineering Education (ASEE)
American
Society of Mechanical Engineers (ASME), K-17 Committee on Bio-Heat Transfer
Bioelectromagnetics
Society (BEMS)
Administrative
Experience
Director, Center for Biomedical Engineering,
Interim Chairman,, Department of Biomedical Engineering,
Coordinated
and led the initiative to establish a formal biomedical engineering program at
Tech.
This entailed the following:
students (> 60% women)
funding to establish new
co-operative education opportunities in biomedical engineering.
advocate the biomedical
engineering program.
criteria.
interim chair.
Committee on Academic Tenure,
The
Committee is responsible for interpreting promotion and tenure policy and
ruling on appeals
regarding
denial of tenure and/or promotion.
Chairman, Task Force on Tenure and Promotion Policies and Procedures,
(1996-7).
Led the task force which revised and re-wrote university promotion and tenure
policies and
procedures.
The new policies and procedures were approved by the faculty and implemented by
the
university.
Committee on Tenure and Promotion, College of Engineering,
present).
Departmental representative on the college-level committee reviewing candidates
for tenure
and/or
promotion.
Research
Experience
Developed
successful research program in fundamental and applied heat transfer and
applications in
biomedical
engineering.
sources
Patents
“Non-Contact
Skin Blood Flow Measurement Using Millimeter Wave”, D.A. Nelson, Inventor; PCT
Patent
Application PCT/US04/12690 (pending)
Publications:
Archival Journals
Walters,
T.J., Ryan, K.L., Nelson, D.A., Blick, D.W., Mason, P.A. “Effects of Blood Flow
on Skin
Heating
Induced by Millimeter Wave Irradiation in Humans” Health Physics 86(2):115-20 (2004)
Nelson,
D.A., T.J. Walters, K.L. Ryan, K.B. Emerton, W.D. Hurt, J.M. Ziriax, L.R.
Johnson, and P.A
Mason,.
“Inter-Species Extrapolation of Skin Heating Effects from Millimeter Wave
Irradiation:
Modeling
and Experimental Results” Health Physics 84(5):608-15 (2003)
Gasjek,
P., T.J. Walters, W.D. Hurt, J.M. Ziriax, D.A. Nelson and P.A. Mason,
“Empirical Validation of
SAR
Values Predicted by FDTD Modeling” Bioelectromagnetics
Nelson,
D., M. Nelson, T.Walters, and P. Mason, “Thermal Effects of Millimeter Wave
Irradiation of the
Primate
Head: Model Results” IEEE Transactions on Microwave Theory and Techniques 48(11):2111-
20(2000)
Mason,
P., W. Hurt, J. D’Andrea, T. Walters, K. Ryan, P. Gajsek, D. Nelson, K. Smith
and J. Ziriax,
“Effects
of Frequency, Permittivity, and Voxel Size on Predicted Specific Absorption
Rate Values during
Electromagnetic
Field Exposure” IEEE Transactions on Microwave Theory and Techniques
48(11):2050-8 (2000)
Nelson,
D., S. Zia, R. Whipple and M. Ohadi, “Corona Discharge Effects on Heat Transfer
and Pressure
Drop
in Tube Flows” Journal of Enhanced Heat Transfer 7(2):81-95 (2000)
Nelson,
D. “Invited Editorial on ‘Pennes’ 1948 Paper Revisited’ ” Journal of Applied
Physiology 85:2-3
(1998)
Nelson,
D. and
Quantitative
Modeling Results” European Journal of Applied Physiology and Occupational Physiology
78:353-359 (1998)
Nelson,
D., M. Barker, and B. Hamlin, “Thermal Effects of Acrylic Cementation at Bone
Tumor Sites”
International Journal of Hyperthermia 13(3): 287-306 (1997)
Leece,
G.,
Frequency
and Temperature on the Fatigue Life of 60 Tin / 40 Lead Solder” Journal of
Electronic
Packaging 118(4): 280-287 (1996)
Nunneley,
S. and D. Nelson, “Limitations on Arteriovenous Cooling of the Blood Supply to
the Human
Brain”
European Journal of Applied Physiology 69:474-479 (1994)
Ohadi,
M., N. Sharaf and D. Nelson, “Electrohydrodynamic Enhancement of Heat Transfer
in a Shelland-
Tube
Heat Exchanger” Experimental Heat Transfer 44: 19-39 (1991)
Ohadi,
M., D. Nelson, and S. Zia, “Heat Transfer Enhancement of Laminar and Turbulent
Pipe Flow via
Corona
Discharge” International Journal of Heat and Mass Transfer 34: 1175-88 (1991)
Peng,
L. and D. Nelson, “Numerical Simulation of Heating from an Acrylic Implant in
Bone” Biomedical
Sciences Instrumentation 27:253-61 (1991)
Nelson,
D., M. Ohadi, and S. Zia, “Electrostatic Discharge Effects on Pressure Drop in
Tube Flows”
International Journal of Heat and Fluid Flow 11(4): 298-302 (1990)
Nelson,
D., L. Evers, D. O'Donnell and E. Morgan, “Determination of Surface Pressure
Distributions
for
Axisymmetric Bluff Bodies” Journal of Fluids Engineering 111(3):348-352 (1989)
Nelson,
D. and
Heat Transfer 108(4): 749-754 (1986)
Martonen,
T., M. Clark, D. Nelson, J. Rossignol and D. Willard, “Testing and Personnel
Dosimetry
Devices
for Hazard Evaluation of Solvent Refined Coal Droplet Aerosols”, American Industrial
Hygiene
Association Journal 44(1):52-54 (1983)
Martonen,
T., M. Clark, D. Nelson, D. Willard and J. Rossignol, “Evaluation of a
Mini-Cascade
Impactor
for Sampling Exposure Chamber Atmospheres” Fundamental and Applied Toxicology 2:149-
152
(1982)
Manuscripts
under Review (as of
Nelson,
D.A., Curlee, J.S., Curran, A.R. “Determining Localized Garment Insulation
Values from
Manikin
Studies: Computational Method and Results” submitted to European Journal of
Applied
Physiology (2004)
Publications:
Book Chapters
Mason,
P., W. Hurt, J. Ziriax, T. Walters, K. Ryan, D. Nelson and J. D'Andrea “Models
used to
Determine
the Bioeffects of Directed Energy Exposure” in Countering the
Directed Energy Threat: Are
Closed Cockpits the Ultimate Answer? NATO Research and Technology Organization
report RTO-MP-
30
(2000)
Mason,
P.A., J.M. Ziriax, W.D. Hurt, T.J. Walters, K.L. Ryan, D.A. Nelson, K.I. Smith
and J.A.
D'Andrea
“Recent Advancements in Dosimetry Measurements and Modeling” In: B.J.
Klauenberg and D.
Miklavic
(Eds.), Radio Frequency Radiation Dosimetry,
Publishers,
pp. 141-155 (2000)
Walters,
T.J., P.A. Mason, K.L. Ryan, D.A. Nelson, and W.D. Hurt “A Comparison of SAR
Values
Determined
Empirically and by FD-TD Modeling” In: B.J. Klauenberg and D. Miklavic (Eds.),
Radio
Frequency
Radiation Dosimetry,
(2000)
Publications:
Proceedings and Technical Reports
Nelson,
D.A., Curran, A.R., Marttila, E.A., Ng, E.T., Ziriax, J.M., Mason, P.A., Hurt,
W. “A High-
Resolution,
Whole-Body Model Incorporating Thermoregulation” Proceedings of IEEE/COST 281
Thermal
Physiology Workshop,
OnLine
Dependence
on Liquid Line Parasitic Losses" 34th International Conference on
Environmental Systems,
Society
of Automotive Engineers No. 04ICES-124(2004)
Rogers,
P., J. Ku, J. Perez and D. Nelson, “Condenser Effects on
Applications
to Thermal Management in Next Generation Vehicles” Proceedings of 6th Vehicle
Thermal
Management
Systems (VTMS) Conference & Exposition,
Rogers,
P.D., J. Bishop, J. Ku and D.A. Nelson, “Effect of Sink Temperature on LHP
System
Performance:
Preliminary Results” Proceedings of 6th ASME/JSME Thermal Engineering
Conference
(2003)
Wright,
D.D., Beard, J.E. and Nelson,
Design
Projects to Aid Persons with Disabilities. JD Enderle and B. Hallowell, eds.
CT:
Creative Learning Press, Inc. (2003)
Wright,
D.D., Beard, J.E. and Nelson,
Design
Projects to Aid Persons with Disabilities. JD Enderle and B. Hallowell, eds.
CT:
Creative Learning Press, Inc. (2002)
Emerton,
K.B., Cooke, W.H, Nelson, D.A. “Adaptation of Aerospace Cool-Suit Technology to
Treatment
of
Multiple Sclerosis Symptoms” Proceedings of 2001 ASME International Mechanical
Engineering
Congress
and Exposition (2001)
Nelson,
D., Walters, T., Ryan, K. and Johnson, L.R. “Skin Heating Effects of Millimeter
Waves: Inter-
Species
Variability” Advances in Heat Transfer and Mass Transfer in Biotechnology 1999,
ASME HTDVol.
363;
BED-Vol. 44, pp. 141-4 (1999)
Mason,
P., J. Ziriax, J., W. Hurt, T. Walters, K. Ryan, D. Nelson and J. D’Andrea,
“Recent Advances in
Dosimetry
Measurements and Modeling” Proceedings of NATO Conference on Biological Effects
of
Non-Ionizing
Radiation,
Walters,
T., D. Nelson, D. Blick, L. Johnson and J. D’Andrea, “The Rate of Skin Heating
in Response to
94
GHz mm Wave Irradiation in Humans, Rhesus Monkeys, and Rats” Proceedings of the
Bioelectromagnetics
Society Annual Meeting,
Nelson,
D., P. Mason and D. Miller, “Microwave-Induced Temperature Gradients in the Rat
Brain”
Proceedings
of the 17th Southern Biomedical Engineering Conference (1998)
Nelson,
D. and M. Barker “A General Coordinate Scheme for Simulation of Hyperthermia at
Bone
Tumor
Sites” Advances in Bioheat and Mass Transfer, R.B. Roemer, ed. pp. 19-30 (1993)
Nelson,
D. and E. Suydam, “The Thermal Aspects of the Electrorheological Effect and Its
Impact on
Application
Design” Electro-Rheological Flows - 1993, ASME Fluids Engineering Div. - Vol.
164: 71-
84
(1993)
Nelson,
D., M. Ohadi, S. Zia and R. Whipple, “Electrostatic Effects on Heat Transfer
and Pressure Drop
in
Cylindrical Geometries” Proceedings of the ASME/JSME Thermal Engineering Joint
Conference,
Vol.
3: 33-39 (1991)
Nelson,
D. and L. Peng, “Simulation of Hyperthermia from an Acrylic Implant in Bone” in
Bioheat
Transfer
- Applications in Hyperthermia, Emerging Horizons in Instrumentation and
Modeling, R.B.
Roemer,
J.J. McGrath and H.F. Bowman, eds.(1989)
Nelson,
D., M. Ohadi, R. Whipple, S. Zia and A. Ansari, “Effects of Corona Discharge on
Forced
Convection
in Tubes: Pressure Drop Results” Conference Record of the 1989 IEEE Industry
Applications
Society Annual Meeting, Part II, 2090-2093 (1989)
Nelson,
D. and E. Shaughnessy, “An Exact Solution for Electrically-Driven Convection
Between
Vertical
Electrodes” in Conference Record of the 1989 IEEE Industry Applications Society
Annual
Meeting,
Part II, 2084-2089 (1989)
Nelson,
D. and M. Ohadi, “EHD Enhancement of Heat Transfer in Heat Exchangers” Gas
Research
Institute
Report. GRI-88/0194, NTIS Publication PB88-247465 (1988)
Kohr,
O. and D. Nelson., “Measurement of the Thermal Diffusivity of Cancellous Bone
Using the
Thermal
Pulse Decay Method” in 1988 Advances in Bioengineering (1988)
Nelson,
D.A., L.W. Evers, D.M. O'Donnell and E.J. Morgan, “Determinations of Surface
Pressure
Distributions
for Axisymmetric Bluff Bodies” AIAA/ASME/SIAM/APS 1st National Fluid Dynamics
Congress,
Part 3, 1849-1856 (1988)
Nelson,
D. and
Society
of Mechanical Engineers, Technical paper 85-Y-1252 (1985)
Abstracts
(past 5 years)
Nelson,
D.A., Curran, A.R., Marttila, E.A., Ziriax, J.M., Mason, P.A., Hurt, W.D.
“Simulation of Whole-
Body
Human Exposure to 2450 MHz: Model Results Incorporating Thermoregulatory
Function” submitted
for
the 27th meeting of the Bioelectromagnetics Society (2005)
Nelson,
D.A., Ng, E.T., Curran, A.R., Marttila, E.A., Ziriax, J.M., Mason, P.A., Hurt,
W.D. “Parametric
Analysis
of Tissue Temperature Sensitivity to Thermal Property Values for the Whole-Body
Simulations of
Human
Exposure to 915 MHz” submitted for the 27th meeting of the Bioelectromagnetics
Society (2005)
Nelson,
D.A., Curran A.R., Marttila E.A., Ng, E.T., Ziriax J.M., Mason P.A., Hurt W.D.
“Exposure of the
Human
Head to 915 MHz Irradiation: A Thermal Model Incorporating Blood Flow” The 26th
Meeting of
the
Bioelectromagnetics Society (2004)
Curran,
A.R., Marttila, E.A., Nelson, D.A., Ziriax, J.M., Mason, P.A. and Hurt, W.D. “A Voxel-Based
Whole-Body
Incorporating Active Thermoregulation for Simulating RF Heating in Man” The
26th Meeting
of
the Bioelectromagnetics Society (2004)
Nelson,
D.A. and Curran, A.R. “Computational Modeling of Whole-Body RFR Heating” Tenth
Air Force
Workshop
on Measuring and Modeling Thermal Responses to Directed Energy Exposure,
(2004)
Curran,
A.R., Marttila, E.A., Nelson, D.A., Ziriax, J.M., Mason, P.A. and Hurt, W.D.
“Three-
Dimensional,
Voxel-Based Bio-Heat Transfer Code for Whole-Body Simulation of RF Heating” The
25th
Annual Meeting of the Bioelectromagnetics Society (2003)
Nelson,
D.A., Ng, E., Curran A.R., Marttila, E.A, Ziriax, J.M., Mason, P.A. and Hurt,
W.D. “Localized
Tissue
Heating Effects of Human Exposure to 400 MHz and 800 MHz Fields: Results of
Whole-Body
Thermoregulatory
Modeling” 25th Annual Meeting of the Bioelectromagnetics Society (2003)
Ludwig,
L.C., Enz, R.L., Blough, E.R. and Nelson, D.A. “The Potential Role of Heat
Shock Protein
Expression
in Tendon Disuse Atrophy” Society for Experimental Mechanics Conference and
Exposition
on
Experimental and Applied Mechanics,
Walters,
T., Nelson, D., Ryan, K., Tate, L., Hurt, W., Ziriax, J. and Mason, P.
“Microwave-Induced
Regional
Heating as a Function of Orientation: Relationship to FD-TD Model” 21st Annual
Meeting of
the
Bioelectromagnetics Society (1999)
Mason,
P., Ziriax, J., Hurt, W., Walters, T., Ryan, K., Hatcher, D., Cox, D., Gao, J.,
Roby, J., Andrew,
T.,
Nelson, D., and D'Andrea, J. “Theoretical and Empirical Electromagnetic Field
(EMF) Dosimetry
using
Anatomical Models, Temperature Probes, and Functional and Diffusion Magnetic
Resonance
Imaging”
21st Annual Meeting of the Bioelectromagnetics Society (1999)
Walters,
T., D. Nelson, D. Blick, L. Johnson and J. D’Andrea, “The Rate of Skin Heating
in Response to
94
GHz mm Wave Irradiation in Humans, Rhesus Monkeys, and Rats” Proceedings of the
Bioelectromagnetics
Society Annual Meeting,
Nelson,
D., Walters, T., Mason, P. and Nelson, M. “Modeling Thermal Effects of
Millimeter Wave
Exposure
in the Primate Head” Twenty-first Annual Meeting of the Bioelectromagnetics
Society (1999)
External
Funding: Education & Program Development
Enhancement
of Internship Opportunities for Biomedical Engineering Students at
Technological
University, The Whitaker Foundation; $180,000, 2003-6; Principal
Investigator
Optimizing
the Inter-Disciplinary Course: Introduction to Electrical Engineering for
Non-EE Majors;
National
Science Foundation, $462,398, 2004-8; Co-Investigator
Senior
Engineering Design Projects to Assist Disabled Persons in
Science
Foundation, $75,000, 2000-5; Co-Investigator
Research
Experience for Undergraduates Supplement; National Science Foundation; $12,000
renewable
annually,
2001 – 2004; Co-Investigator
Establishment
of a B.S. Bioengineering Program at
External
Funding: Research & Technical Development
Enhancement
of Human Thermoregulatory Model for RF Dosimetry, Office of Naval Research
(subcontract
with
ThermoAnalytics, Inc.), $200,000 / $50,000 (total contract / MTU subcontract
value) 2004-
2006;
Principal Investigator
Large-Area
Millimeter Wave Dosimetry; SBIR (Phase I) OSD 0043-H05; proposal in
collaboration with
Qortek,
Inc.,
Principal
Investigator
Human
Comfort Model for Rapid Prototyping of Vehicle Cabin Thermal Environments;
Automotive
& Armament Command (TAACOM), $61,276 sub-contract with ThermoAnalytics,
Inc.,
2004-5;
Principal Investigator
Market
Analysis and Development Plan for Non-Contact Skin Blood Flow Meter;
Commercialization
Initiative Challenge Fund; $67,116, 2004-5, Principal Investigator
Development
of a Human Thermoregulatory Model – SBIR Phase II award; Naval Health Research
Center
; $151,432 subcontract from ThermoAnalytics, Inc., 2002-4, Principal
Investigator
3-D
Voxel-Based Bio-Heat Transfer Code; Office of Naval Research Small Business
Innovative
Research
OSD00-HP01 Phase I; $10,000 sub-contract from ThermoAnalytics, Inc., 2001, Principal
Investigator
Development
of a Capillary Pumped
Automotive
Research and
Tissue
Heating Effects of Non-ionizing Radiation; D.A. Nelson;
$2,500,
2000-1; Principal Investigator
Modeling
Thermal Effects of Millimeter Wave Exposure in the Primate Head; D.A. Nelson;
US Air
Force
Directed Energy Bio-Effects Laboratory, $7,942, 1999; Principal Investigator
Analysis
of Capillary Pumped Loop Heat Pipe; D.A.
Principal
Investigator
IPA
Assignment to Brooks Air Force Base; D.A. Nelson, USAF Directed Energy Bio-
Effects
Laboratory,
$88,062, 1997-8; Principal Investigator
Analysis
of Hyperthermia of Giant Cell Tumors of Bone; AREA research grant from the
National
Institutes
of Health, $105,261, 1991- 4; Principal Investigator
Analysis
of Materials and Processes to Improve Solder Joints and Metal/Ceramic Contacts;
grant from
the
State of
Proposal
to Study Welding of Ground Electrodes to Spark Plug Bodies; research contract
with AC
Rochester
Division, General Motors Corporation, $53,667, 1990; Co-Principal
Investigator
Electrostatic
Enhancement of Heat Transfer in Heat Exchangers via Corona Discharge; research
contract
with
The Gas Research Institute, $90,497, 1989-90; Co-Principal Investigator
Electrostatic
Enhancement of Convective Heat Transfer in a Shell-and-Tube Heat Exchanger with
Corona
Discharge; research contract with The Gas Research Institute, $168,673, 1987-9;
Co-Principal
Investigator
Modeling
of Hyperthermia from an Acrylic Implant following Curettage of a Giant Cell
Tumor of Bone;
D.A.
Nelson, Principal Investigator; research grant from The Whitaker Foundation,
$54,289 (1986-9)
Experimental
Determinations of Surface Pressure Distributions for Bluff Bodies; L.W. Evers
and D.A.
Nelson;
research grant from Mercury Marine (Brunswick Corp.), $13,000, 1985-6 Co-Principal
Investigator
Pending
Funding (as of
A
Novel Method for Non-Contact, Quantitative Measurement of Skin Blood Flow:
Modeling and
Experiments
to Show Feasibility; grant proposal to National Institutes of Health / National
Institute of
Biomedical
Imaging and Bioengineering (R21), $367,233 (total requested) Principal
Investigator
Major
Contributions to Teaching Improvement
Implemented
a curriculum leading to a new degree, “Bachelor of Science in Biomedical
Engineering”.
The
degree was authorized by
class
of twenty students received the degree at the May, 2001 university
commencement.
Established
new year-long capstone “Senior Design Practicum” for Biomedical Engineering
students.
Developed
external sponsorship (corporate and federal) for student projects.
Re-designed
the undergraduate mechanical engineering thermodynamics laboratory course.
Obtained
private
funding (Deere Foundation, 3M Corporation) to modernize and re-equip the lab.
Taught
distance education courses (Thermodynamics I, Introductory Heat Transfer) for
the General
Motors
Corporation Technical Education Program. Cited by GM for providing “superior
instruction”
(1997).
Teaching
Reportoire
Thermodynamics
I
Applications
of Thermodynamics
Heat
Transfer
Conduction
Heat Transfer *
Fluid
Mechanics
Advanced
Fluid Mechanics*
Numerical
Methods for Engineers
Biomechanics
& Human Factors in Design
Biomedical
Engineering Design I & II
Heat
and Mass Transfer in Biology and
Medicine*
*indicates graduate level course
Graduate
Advisees
M.
Ling, Ph.D. candidate (in progress)
S.
Charbonnel, M.S.M.E. candidate (in progress)
M.
Shah, M.S.E.E. candidate (in progress)
M.
Hepakoski, M.S.M.E. candidate (in progress)
A.
Biswas, M.S.M.E. candidate (in progress)
P.D.
Rogers, Ph.D. (2004) “Evaluation of
Applications”
E.J.
Ng, M.S.E.E. (2004) “Low-Power Radio Frequency Heating of Skin for Blood Flow
Measurement:
A
Feasibility Study”
E.T.
Ng, M.S.E.E. (2004) “Simulation of Radio Frequency Heating Using a Whole Body
3-Dimensional
Voxel
Model”
J.D.
Curlee, M.S.M.E. (2004) “An Approach for Determining Localized Thermal Clothing
Insulation for
Use
in an Element Based Thermoregulation and Human Comfort Code”
B.A.
Paulsen, M. Eng. (2002) “Thermal Properties of Biological Tissues”
N.J.
Lauer, M.S.M.E. (2001) “EHD Enhancement of Condensation Heat Transfer”
M.T.
Nelson, M.S.M.E. (1999) “Modeling Thermal Effects of Millimeter Wave Exposure
in the Primate
Head”
B.H.
Hamlin, Ph.D. (1999) “Temperature Simulations and Thermal Damage Predictions
Accompanying
Surgical
Cementation Treatments of Giant Cell Tumors of Bone: A Numerical Study”
A.P.
Running, M.S.M.E. (1995) “Effects of Electrode Geometry on Electrically-Induced
Secondary
Motion
in Tube Flows”
S.
Hande, M.S.E.M. (1994) “An Improved Model of the Effects of Cycling Frequency
and Temperature
on
the Mechanical Fatigue Life of 60 Tin / 40 Lead Solder” [co-advisor w/ I.
Miskioglu]
E.C.
Suydam, M.S.E.M. (1993) “The Thermal Aspects of the Electrorheological Effect
and its Impact on
Application
Design”
M.E.
Barker, M.S.M.E. (1993) “A General-Coordinate Scheme for Simulation of
Hyperthermia at Bone
Tumor
Sites”
G.D.
Leece, M.S.E.M. (1993) “The Effects of Cycling Frequency and Temperature on the
Mechanical
Fatigue
Life of 60 Tin / 40 Lead Solder”
P. L.
Rynes, M.S.M.E. (1992) “Visualization of Electrically Induced Tube Flows”
M.M.
VanDamme, M.S.M.E. (1992) “Thermal Model of a Self-Heating Acrylic Implant in
Bone”
W.
Yang, M.S.M.E. (1991) “Computational Model of Electrical Resistance Welding for
Spark Plug
Manufacturing”
L.
Peng, M.S.M.E. (1990) “A Parametric Study of Thermal Effects of Acrylic
Cementation in Bone”
N.
Sharaf, M.S.M.E. (1990) “Electrohydrodynamic Enhancement of Convection and
Effects on Pressure
Drop
in a Double-Pipe Heat Exchanger”
S.
Zia, M.S.M.E. (1989) “Electrohydrodynamic Heat Transfer Enhancement of Forced
Convection in
Tubes”
O.A.
Kohr, M.S.M.E. (1988) “Design and Development of a Transducer to Determine the
Thermal
Diffusivity
of Cancellous Bone”
D.M.
O'Donnell, M.S.M.E. (1987) “Pressure Distributions Around Axially Symmetric
Bluff Bodies with
Application
to Liquid Droplet Breakup”
Daniel
C. Clupper, Ph.D.
Department
of Biomedical Engineering
Phone:
906-487-2261
Email:
dclupper@mtu.edu
Education
Dissertation topic: Tape cast bioactive glass-ceramic
composites for structural application
Thesis topic: Surface modification of absorbable phosphate
glasses and composites thereof
Assistant Professor February 2004 to present
Research interests in bioactive materials and tissue
engineering. Teaching duties include
Biomaterials and Materials Characterization courses.
Poly-Med, Inc.,
Project Engineer June 2003 to December 2003
Research Engineer February 2003 to May 2003
Involved with experimental design,
synthesis, processing, surface modification, and analysis of novel absorbable
polymers and other biomaterials.
Research Associate April 2000 to
February 2003
Tissue Engineering Centre research
involved collaboration with biologists at
·
Research: Glass and ceramic
materials development and characterization for DARPA biosensors project. Development of anti-bacterial bioactive
glass-ceramics; crystallization kinetics of bioactive glass; bioactive foam
mechanical properties. Densification of bioactive sol-gel foams. Raman analysis
of bone mineralization in developing murine femur. Densification of sol-gel glasses doped with
transition metals.
·
Characterization: FTIR,
UV-Vis, Raman spectroscopy, DTA/TGA, SEM, EDX, XRD, ICP, nitrogen adsorption,
mercury porosimetry, dilatometry, and fractography.
·
Management: Interviewed
and supervised summer researchers.
Assisted graduate students with
experimental design and data interpretation. Reviewed scientific writings of
students.
Post-Doctoral Associate January
2000 to March 2000
Graduate Research Assistant January
1995 to December 1999
Dissertation topic: Tape cast bioactive metal-ceramic
laminates for structural application.
·
Industrial Collaboration: Developed
bioactive ceramic-stainless steel and bioactive ceramic-titanium laminate
composites in conjunction with USBiomaterials Corp. Researched alternative
processing routes for BioglassÒ
products.
·
Clinical Shadowing:
Observed live hip, knee, and ossicle replacement surgeries. Discussed clinical challenges with
surgeons. Wrote engineering proposals
detailing possible solutions.
·
Management: Designed
and supervised undergraduate research for the
Biomet, Inc.,
Materials
Engineer, Paid Internship Twelve Weeks, Summer 1997
Worked in a variety of areas within
resorbable polymer technology.
·
Research:
Experimentally addressed question posed by cranio-facial surgeon concerning
LactoSorb® (PLLA-PGA) resorbable polymer bone plates and screws.
·
Manufacturing: Helped identify source
of production problem. Suggestion for laboratory improvement implemented by
management.
·
Product Development:
Involved in brainstorming sessions with various engineers. Designed experiments and trained technician
to carry them out.
Graduate Research Assistant January
1993 to November 1994
Thesis topic:
Formation and surface modification of absorbable glasses. Researched processing routes for the
development of fiber reinforced absorbable fracture fixation plates with
long-term strength retention.
·
Experimental Design:
Designed experiments using statistical methods to systematically investigate
the effect of chemical composition on the aqueous durability and density of
phosphate glass. Statistical software
used to analyze data.
·
Surface Modification:
Successfully grafted an absorbable polymer (PCL) compatible with PLLA and PGA
to the surface of absorbable phosphate glass.
·
Biomaterials Implantology Class:
Performed surgery on rat, rabbit, and goat with strict adherence to sterile
technique and to proper administering of anesthesia.
Undergraduate Research Intern Ten
Weeks, Summer 1992
Worked toward the controlled
positioning of fluorescent molecules on PEO chains used in polymer adsorption
studies.
Helped conduct novel in vitro tensile
testing of goat medial collateral ligament and patellar tendon specimens.
D. C. Clupper, J.E. Gough, P.M. Embanga, I. Notingher, M.M. Hall, L.L. Hench, "Bioactive evaluation of 45S5 bioactive glass fibres and preliminary study of human osteoblast attachment," Journal of Materials Science: Materials in Medicine 15 (2004) 803-808.
J.E. Gough, D.C. Clupper, L.L. Hench, "Osteoblast responses to sintered and tapecast bioactive glass,” Journal of Biomedical Materials Research 69A (2004) 621-628.
D.C. Clupper, L.L. Hench, and J.J. Mecholsky, Jr, "Strength and toughness of tape cast bioactive glass 45S5 following heat treatment," Journal of the European Ceramic Society 24 (2004) 2929-2934.
J.E. Gough, D.C. Clupper, L.L. Hench, "Osteoblast responses to sintered and tapecast bioactive glass,” Key Engineering Materials 254-256 (2004) 813-816.
D.C. Clupper, J.E. Gough, M.M. Hall, A.G. Clare, W.C. LaCourse, L.L. Hench, "In vitro bioactivity of S520 glass fibres and initial assessment of osteoblast attachment," Journal of Biomedical Materials Research 67A (2003) 285-294.
D.C. Clupper and L.L. Hench, “Crystallization kinetics of tape cast bioactive glass 45S5,” Journal of Non-Crystalline Solids 318 (2003) 43-48.
D.C. Clupper, J.J. Mecholsky, Jr., G.P. LaTorre, and D.C. Greenspan, “Bioactivity of tape cast and sintered bioactive glass-ceramic in simulated body fluid,” Biomaterials 23 (2002) 2599-2606.
D.C.
Clupper and L.L. Hench, “Bioactive response of Ag-doped tape cast Bioglass®
45S5 following heat treatment,” Journal
of Materials Science: Materials in Medicine 12 (2001) 917-921.
D.C.
Clupper and J.J. Mecholsky, Jr., “Toughening of tape cast Bioglass®
by lamination with stainless steel 316L,”
Journal of Materials Science Letters 20 (2001)
1885-1888.
D.C.
Clupper, J.J. Mecholsky, Jr., G.P. LaTorre, and D.C. Greenspan, “Sintering
temperature effects on the in vitro
bioactive response of tape cast and sintered bioactive glass-ceramic in Tris
buffer,” Journal of Biomedical Materials
Research 57 (2001) 532-540.
D.C.
Clupper and J.J. Mecholsky, Jr., G.P. LaTorre, and D.C. Greenspan, “Bioactivity
of Bioglass®-steel and Bioglass®-titanium laminate
composites,” Journal of Materials
Science Letters 20 (2001) 959-960.
D.C.
Clupper and J. J. Mecholsky, Jr., “Multilayer bioactive composite for
structural applications,” In: Surface-Active Processes in Materials. D.E. Clark, D.C. Folz, and J.H. Simmons,
editors. Ceramic Transactions Vol. 101,
The American Ceramic Society,
J.J. Mecholsky, Jr., D. C. Clupper, B. Sankar, and M. Gundepudi, “Fracture mechanics, fractals and failure analysis as tools for understanding attrition and comminution of particles,” In: World Congress on Particle Technology, Paper 127, Institute of Chemical Engineers, Rugby, England (1998).
M.
K. Gundepudi, B. V. Sankar, J. J. Mecholsky, Jr., and D. C. Clupper, “Stress
analysis of brittle spheres under multiaxial loading,” Powder Technology 94 (1997) 153-161.
D.
C. Clupper, B. V. Sankar, Z. Chen, M. K. Gundepudi, and J. J. Mecholsky,
Jr., “A mechanistic model for attrition
of particles in flow systems,” In: Mechanics of Granular and Porous Materials.
N. A. Fleck and A. C. F. Cocks, editors. IUTAM 325 (1997).
Podium
Presentations
D.C. Clupper and L.L.
Hench. "Bioactive response of
Ag-doped tape cast BioglassÒ
45S5 following heat treatment," European Society for Biomaterials,
D.C. Clupper and L.L.
Hench. "Transition metal doping of silica gels," Quantachrome
Conference, Imperial College of Science, Technology and Medicine,
D.C. Clupper and J.J.
Mecholsky, Jr., “Bioglass-stainless
steel laminate composites,” American Ceramic Society,
D.C. Clupper and J.J.
Mecholsky, Jr., “Bioactive laminate composites for orthopaedic application,”
Departmental Seminar, Department of Materials Science and Engineering,
September 1998,
D.C. Clupper, J.J.
Mecholsky, Jr., G.P. LaTorre, and D.C. Greenspan, “Bioactivity and strength of
BioglassÒ
laminate composites,” 24th Annual Meeting of the Society For
Biomaterials, April 22 – 26, 1998, San Diego, California.
D.C. Clupper, J.J.
Mecholsky, Jr., G.P. LaTorre, and D.C. Greenspan, “Fractographic analysis of
tape cast BioglassÒ,”
American Ceramic Society, May, 1998,
D.C. Clupper, T.D.
Taylor, and S.W. Shalaby, “Surface activation of glass for composite
formation,” 23rd Annual Meeting of the Society For Biomaterials,
April 30 – May 4, 1997, New Orleans, Louisiana.
D.C. Clupper, T.D.
Taylor, and S.W. Shalaby, “Effect of composition on fiber formation of
phosphate glasses,” 23rd Annual Meeting of the Society For
Biomaterials, April 30 – May 4, 1997, New Orleans, Louisiana.
D.C. Clupper, M.M.
Hall, J.E. Gough, and L.L. Hench, "S520 and 45S5 glass fibers:
bioactivity, mechanical properties, and osteoblast attachment," 28th
Annual Meeting of the Society For Biomaterials,
D.C. Clupper and J.J.
Mecholsky, Jr., “Multilayer bioactive composite for structural applications,”
American Ceramic Society,
D.C. Clupper, J.J.
Mecholsky, Jr., Y.L. Tsai, B.V. Sankar, and M. Gundepudi, “A mechanistic model
for attrition of particles in flow systems,” American Ceramic Society, May
1997,
D.C. Clupper, T.D.
Taylor, and S.W. Shalaby, “Absorbable phosphosilicate glasses with modulated
absorption profiles,” 23rd Annual Meeting of the Society For
Biomaterials, April 30 – May 4, 1997, New Orleans, Louisiana.
D.C. Clupper, Z. Chen,
J.J. Mecholsky, Jr., and B.V. Sankar, “Attrition and fracture of particles
during single particle, multiple particle, and impact testing,” American
Ceramic Society, April 14-17, 1996, Indianapolis, Indiana.
D.C. Clupper and J.J.
Mecholsky, Jr., “A mechanistic model for attrition of particles in flow
systems,” University of
6,743,513. J.J. Mecholsky, Jr., and Z. Chen, and D.C.
Clupper. “Tape cast multi-layer
ceramic/metal composites.”
6,306,925. D.C. Clupper, J.J. Mecholsky, Jr., and Z.
Chen. “Tape cast multi-layer
ceramic/metal composites.” Assignee: USBiomaterials Corp. (
5,874,509. S.W. Shalaby, D.C. Clupper, and T.D.
Taylor. “Surface modified glasses and
composites thereof.” Assignee:
Certification
Engineer In Training,
State of
Society For Biomaterials Award
Student Travel, 1997
Annual Meeting
Surface activation of
phosphate glass for composite formation
Alpha Sigma Mu
(Materials Engineering)
Keramos (Ceramics
Engineering).
Scientific Manuscript Reviewer
Journal of Materials
Science: Materials in Medicine
Journal of
Non-Crystalline Solids (2002)
Journal of Materials
Research (2002)
Volunteer Service
Math & Science
Tutor
Pimlico Homework Club,
Earl's Court,
Lead Tutor, Autumn
2001 - Spring 2002
Habitat for Humanity -
International
Children's Advocacy Network
[1]In the Fall Semester of 1997, there were 38 students enrolled in MTU’s BME undergraduate program. There are presently, in 2003-2004, 165 students enrolled in MTU’s BME undergraduate program. In the spring of 2000, 9 B.S. degrees in BME were awarded. In the spring of 2003, 38 degrees were awarded. These BME undergraduates also provide MTU with a pool of potential BME graduate school candidates.