MS and PhD Degrees in Biomedical Engineering and Biotechnology
The University offers MS and PhD degrees in Biomedical Engineering and Biotechnology. Students entering with a BS degree will spend two years taking courses and gaining laboratory experience before qualifying for the PhD program. Not all good students find they enjoy research as a different set of skills is important. Students who find themselves less comfortable in research or decide on a career path outside research or academia can take an MS degree at the end of 2 years. The program also welcomes applicants with an MS degree. They can take the qualifying examination at an early stage and become a PhD candidate.
Faculty and Fields of Interest
Listed are the currently appointed University of Massachusetts Dartmouth program faculty for Biomedical Engineering and Biotechnology (BMEBT) program. This interdisciplinary program invites participation of other faculty from across the UMass Dartmouth campus, and faculty also participate from the UMass Boston, Lowell, and Worcester campuses.
Balasubramanian, Ramprasad Professor of Computer and Information Science (2000), BSc 1989 University of Madras, India, MS 1991 University of Toledo, MSOperRes 1993 University of Kentucky, PhD 1999 University of South Florida. Specializations: Computer vision, image processing, pattern recognition, artificial intelligence. email@example.com
Bernal, Diego Associate Professor of Biology (2005), BS 1995 Universidad Autonoma de Baja California, PhD 2002 Scripps Institution of Oceanography, University of California San Diego. Specializations: Animal physiology, energetics, thermoregulation, stress-responses. firstname.lastname@example.org
Bhowmick, Sankha Associate Professor of Mechanical Engineering (2002), BE 1992 Jadavpur University, MS 1996 Villanova University, PhD 2000 University of Minnesota. Specializations: Heat and mass transfer, bioengineering. email@example.com
Bromage, Erin Assistant Professor of Biology (2007) BS 1999 James Cook University, PhD 2004 James Cook University.Specializations: Comparative Immunology, B cell Immunology, vaccine design, biosensors, monoclonal antibodies. firstname.lastname@example.org
Cai, Shuowei Associate Professor of Chemistry and Biochemistry (2005), BS 1990, MS 1993, Nankai University, China, MS 1998, University of Massachusetts Dartmouth, PhD 2001, University of Massachusetts Amherst. Specializations: Bioanalytical and biophysical chemistry, protein chemistry, drug formulation, and pharmaceutical biotechnology. email@example.com
Calvert, Paul Professor of Material and Textiles Sciences, BA 1967 Cambridge, UK, PhD 1970 Massachusetts Institute of Technology. Specialization: 3D fabrication, biomedical materials, biomimetic material, materials science, polymer science, soft electronics. firstname.lastname@example.org
Carreiro-Lewandowski, Eileen Professor of Medical Laboratory Science (1981), BS 1975 Rhode Island College, Certified 1975 Memorial Hospital of Rhode Island School of Medical Technology, MS 1979 University of Kentucky. Specializations: clinical chemistry, biochemistry, laboratory regulation. email@example.com
Chalivendra, Vijaya Associate Professor of Mechanical Engineering (2004), BS 1993 Sri Venkateswara University, MS 1997 Sri Venkateswara University, Ph.D. 2003 University of Rhode Island. Specializations: Nano-characterization of Scaffold materials, Hydro gels & Biological materials;Mechanical characterization of functionally graded bio-implants. firstname.lastname@example.org
Chen, Chi Hau Chancellor Professor of Electrical and Computer Engineering (1968), BS 1959 National Taiwan University, Taiwan, MS 1962 University of Tennessee, PhD 1965 Purdue University. Specializations: Pattern recognition, neural networks, image processing and machine vision, Time series analysis, ultrasonic NDT. email@example.com
Drew, Robert E Assistant Professor of Biology (2009), BS 1994, Indiana University-Purdue University at Fort Wayne, MS 1997, Washington State University, PhD 2006, Washington State University. Specializations: Genomics and quantitative genetics, domestication of fish. firstname.lastname@example.org
Fan, Qinguo Associate Professor of Materials and Textiles (1998), BS 1982, MS 1988, Dong Hua University, Shanghai, China, PhD 1995, University of Leeds, UK. Specializations: Material chemistry, Coloration, Chemical analysis, Polymers. email@example.com
Ferreira, Tracie Assistant Professor of Bioengineering (2005), BA 1990 Wheaton College, PhD 1996 Georgetown University. Specializations: Craniofacial development, developmental biology, tissue regeneration. firstname.lastname@example.org
Fowler, Alex J Professor of Mechanical Engineering (1994), BA 1987 Wesleyan University, PhD 1993 Duke University. Specializations: Fluid flow in porous media, heat transfer, thermodynamics, bioengineering/ biomaterials. email@example.com
Griffith, James T Chancellor Professor of Medical Laboratory Science (1974), BS 1970 Southeastern Massachusetts University (UMass Dartmouth), Certified 1970 The Memorial Hospital of Rhode Island School of Medical Technology, MS 1976 Southeastern Massachusetts University (UMass Dartmouth), PhD 1992 Walden University. Specializations: microbiology, antimicrobial agents, health legislation. firstname.lastname@example.org
Guo, Maolin Associate Professor of Chemistry and Biochemistry (2003), BSc 1989, MSc 1992 Shanxi University, PhD 2002 University of Edinburgh. Specializations: Biochemical processes, drug design. email@example.com
Hable, Whitney Associate Professor of Biology (2004), BA 1990 University of Virginia, PhD 1996 University of Arizona. Specializations: Molecular, cellular and developmental biology, marine biology. firstname.lastname@example.org
Heryudono, Alfa Assistant Professor of Mathematics, , BS 2000 University of Indonesia, 2002, MS Southern Illinois University, 2008, PhD in Applied Mathematics, University of Delaware. Specializations: Numerical Analysis, Scientific Computing, Tear Film Simulations. email@example.com
Kavanagh, Kathryn Assistant Professor of Biology (2009), PhD 1998 James Cook University, Postdoctoral studies: Harvard Museum of Comparative Zoology; University of Helsinki’s Institute of Biotechnology; Harvard Medical School, Department of Genetics. Specializations: Evolutionary developmental biology, organogenesis, comparative vertebrate embryology, larval fish biology, ecology, and evolution. firstname.lastname@example.org
Mello, Charlene Adjunct Professor of Materials and Textiles and Chemistry/ Biochemistry(2007), BS 1987 University of Massachusetts, Dartmouth, PhD 1991 University of Massachusetts, Lowell. Specializations: Protein/Peptide chemistry, interfacing biologicals with non-biological materials, fiber spinning of structural proteins, antimicrobial mechanisms, phage display, biosensing and SPR. email@example.com
Neto, Catherine C Associate Professor of Chemistry and Biochemistry (1995), BS 1983 Southeastern Massachusetts University (UMass Dartmouth), PhD 1987 Brown University. Specializations: Antioxidants, anticancer, and antimicrobial agents in cranberries and other plant sources, structure and mechanisms of bioactivity, purification and structure elucidation of natural products, effects of agricultural practices on phytochemical content in fruits, food science, chemical education in the organic laboratory. firstname.lastname@example.org
O’Connor, Nancy Professor of Biology (1993), BS Southern Massachusetts University, MS University of Delaware, PhD North Carolina State University. Specializations: Chemical and physical cues for molting of larval crustaceans, non-indigenous marine species, biofouling. email@example.com
Payton, Karen L Professor of Electrical and Computer Engineering (1989), BS 1977 Carnegie-Mellon University, MSEE 1981, PhD 1986 The Johns Hopkins University. Specializations: Digital signal processing, speech processing, speech acoustics, auditory perception. firstname.lastname@example.org
Rajaniemi, Tara Associate Professor of Biology (2004), BA 1995 Florida State University, PhD 2001 University of Michigan. Specializations: plant community ecology, coastal dunes and salt marshes. email@example.com
Rasapalli, Sivappa Assistant Professor of Chemistry (2008), PhD 2003 National Chemical Laboratory. Specializations: Total Synthesis, Green Chemistry, Medicinal Chemistry and Biomaterials for Bioengineering. firstname.lastname@example.org
Scarano, Frank Associate Professor of Medical Laboratory Science (1998), BA 1986 Alfred University, MS, PhD 1990, 1993 Albany Medical College. Specializations: Clinical microbiology, molecular epidemiology, molecular diagnostics, mechanisms of antimicrobial resistance, and microbiology education. email@example.com
Singh, Bal-Ram Professor of Chemistry and Biochemistry and Marine Science and Technology (1990), BSc 1977 Kamla Nehru Institute of Science and Technology, MSc 1979, MPhil 1982 Jawaharlal Nehru University, PhD 1987 Texas Tech University. Specializations: Physicalbiochemistry: structure-function relationship ofbiological macromolecules, spectroscopy of proteins and membranes, protein-membrane interactions, mode of action of botulinum andtetanus neurotoxins, enzymatic activity in non-aqueous solvents, light signal reception and signal transduction by a biosensor, phyto-chrome for anthocyanin biosynthesis, molecular mechanism of phytophthora root rot in cranberry plants, guatathione-s-tranferases of quahog xenobiotic metabolism. firstname.lastname@example.org
Tandon, Amit Professor of Physics and Marine Science and technology (1999),BTech 1987 Indian Institute of Technology, PhD 1992 Cornell University. Specializations: Fluid dynamics, physical oceanography, environmental and computational physics. email@example.com
Turner, Jeff Chancellor Professor of Biology (1995), BS 1969 Guilford College, MA 1972 University of South Florida, PhD 1977 Texas A&M University. Specializations: Biological Oceanography, Marin Plankton Ecology, Biogeography. firstname.lastname@example.org
Valova, Iren T Professor of Computer Information Science, PhD 1997 Tokyo Institute of Technology. Specializations: neural networks, data mining, brain functionality modeling. email@example.com
Wang, Jay (Jianyi) Associate Professor of Physics (1998), BSc 1983 Lanzhou University, China, PhD 1992 University of Tennessee, Knoxville. Specializations: Theory and simulations of electronic, atomic and optical processes, ion-solids and ion-surface interactions, computational physics. firstname.lastname@example.org
Warner, Steven Professor of Materials and Textile Sciences (1994), SB 1973, SM 1973, ScD 1976 Massachusetts Institute of Technology. Specializations: Materials science - fiber formation and properties (including micro and nano), composites, nonwovens, wicking and wetting, and biomaterials. email@example.com
Xu, Haiping Associate Professor of Computer and Information Science (2003), BS 1989 Zhejiang University, China, MS 1998 Wright State University, PhD 2003 University of Illinois at Chicago. Specializations: Distributed software engineering, formal methods, agent-based technology, artificial intelligence, service-oriented computing, information security. firstname.lastname@example.org
Yang, Chen-Lu Research Engineer and Adjunct Professor (2002), BS Chemical Engineering 1984 Fengchia University, Taiwan, MS Environmental Science 1990 New Jersey Institute of Technology, NJ; PhD Chemical Engineering (1994) New Jersey Institute of Technology, NJ. Specializations: Biochemical engineering, bioseparation, environmental engineering, electrochemical technology
Zuo, Yuegang Professor of Chemistry and Marine Science and Technology (1999), BS 1982 Wuhan University, China, MS 1984 Chinese Academy of Science, PhD 1992 Swiss Federal Institute of Technology. Specializations:Analytical chemistry: separation, identification, and utilization of naturally occuring antioxidants and biopolymers; environmental chemistry, endocrinology, marine chemistry and photochemistry. email@example.com
Dr Erin Bromage
Department of Biology
University of Massachusetts Dartmouth
508 999 8218
Dr Sankha Bhowmick
Department of Mechanical Engineering
University of Massachusetts Dartmouth
UMass Dartmouth Department Coordinators
College of Arts and Sciences
Department of Biology
Dr Mark Silby
Department of Chemistry and Biochemistry
Dr Maolin Guo
Department of Mathematics
Dr Yanlai Chen
Department of Medical Laboratory Science
Dr Eileen Carreiro-Lewandowski
College of Engineering
Department of Bioengineering
Dr Qinguo Fan
Department of Civil and Environmental Engineering
Dr Sukalyan Sengupta
Department of Computer and Information Science
Dr Iren Valova
Department of Electrical and Computer Engineering
Dr Karen Payton
Department of Mechanical Engineering
Dr Sankha Bhowmick
Department of Physics
Dr Gaurav Khanna
The Boston, Dartmouth, Lowell, and Worcester Campuses of the University of Massachusetts offer a joint PhD degree program in Biomedical Engineering and Biotechnology. The program’s purpose is to offer a nationally recognized PhD that is at the intersection of biology and engineering; that will be readily accessible to individuals with a wide range of science or engineering undergraduate degrees; that will address contemporary biomedical and health research problems; and that will contribute significantly to meeting the need of industry, government and education for biomedical and biotechnology researchers.
The program aims to provide its doctoral recipients with the following knowledge, skills, and abilities:
• The ability to formulate and test multiple, original scientific hypotheses related to their dissertation research based on careful observations and a comprehensive review of past and current literature in their field;
•The ability to design and carry out detailed experiments, to develop theoretical models and carry out numerical simulations;
•Competency in cutting-edge skills related to a wide range of instrumentation and procedures;
•The ability to apply their research in solving current biomedical/health problems especially in relationship to new discoveries in nanoscience and technology;
•The ability to function as independent researchers using critical thinking and inquiry-based analytical skills;
•The ability to work on complex problems in multidisciplinary research teams;
•Written and oral presentation skills resulting in publication of their findings and presentation of results at professional research conferences;
•Appreciation of contemporary biomedical ethical issues relating to conducting and publishing research;
•The ability to develop strong grant proposals that will allow them to obtain pre-doctoral and post-doctoral extramural private/federal research funding;
•Knowledge of intellectual property, patent and regulatory issues;
•Knowledge of how applied research is conducted in an industrial setting;
•Knowledge of how industry applies experimental research to equipment design, product development and manufacturing.
Program Structure and Administration
The following UMass Dartmouth departments are active in the BMEBT program:
College of Arts and Sciences
Chemistry and Biochemistry
Medical Laboratory Science
College of Engineering
Civil and Environmental Engineering
Computer and Information Science
Electrical and Computer Engineering
Two Graduate Program Co-Directors perform administrative coordinating tasks for the UMass Dartmouth campus, one from each participating College. Also, a BMEBT coordinator is identified in each participating department.
Campus policy implementation for the program is guided by the UMass Dartmouth Advising/Admissions/ Curriculum Committee (AACC), which provides advising, approves admissions, and otherwise gives campus-level oversight including campus curriculum development. The AACC reviews the credentials of new faculty members who wish to participate in the program.
At the university (system-wide) level, the Intercampus Academic Coordinating Committee (IACC) is charged with the responsibility of maintaining uniform academic standards across the four campuses, establishing academic policy, approving program faculty, and acting in roles analogous to those undertaken by a “program” or “curriculum” committee in an academic department.
Also at the university (system-wide) level, the Program Oversight Committee (POC) consists of graduate deans from the four campuses, who interact regularly with the respective Deans of colleges participating in the program to review campus compliance with systemwide academic standards and to resolve any administrative issues that may arise. The POC submits periodic status reports to the UMass President’s Office, chancellors, provosts, and college Deans.
Program Faculty are identified specifically for the Biomedical Engineering and Biotechnology Program. Program faculty have a research doctorate in a field relevant to biomedical engineering or biotechnology and an active research record in an aspect of biomedical engineering or biotechnology. Other faculty may be involved in the program, as members of a dissertation committee or in teaching courses that some program students take.
Participating faculty are members of academic departments, engaged in their academic disciplines as well as in making interdisciplinary connections.
Applicants from many different science and engineering undergraduate programs are invited to apply. Because the degree brings together biomedical engineering with biotechnology, it is designed equally for students with life sciences or engineering/ physical science backgrounds. One’s specific background will be of less interest in determining qualification for entrance than will be one’s personal and career goals, demonstrated academic ability and research potential, and commitment to an interdisciplinary, team-work approach. Applications will be accepted from individuals holding appropriate bachelor’s degrees or master’s degrees (or the US baccalaureate equivalents from a foreign institution). Applicants should have a background in life science, physical science, or engineering.
All applicants must have taken a full year (two semester or three quarter sequence) of calculus, and the successful applicants will normally have had undergraduate coursework in statistics/experimental design and in life science/biomedical science.
Applicants are strongly encouraged to contact participating faculty to explore how they might fit into a specific specialization option before submitting their application and to report on the results of those contacts in their Statement of Purpose (see below).
It is a principle of the intercampus BMEBT program that applicants apply to the graduate admissions office of the campus that they seek as their “home campus”. Those considering the UMass Dartmouth campus should learn about campus options by contacting the program co-directors. Generally, applicants will apply only to one campus.
Applicants submit the following and are expected to meet the standards indicated:
•In general students with an overall undergraduate grade point average of 3.0 or higher will be considered for admission. Applicants must present official undergraduate and graduate transcripts from all schools attended.
•Applicants accepted into the program should present a minimum Graduate Record Exam (GRE) combined verbal + quantitative score of 1100. Only official GRE scores from the Educational Testing Service will be considered acceptable. The GRE can be waived for applicants with a prior graduate degree from an accredited US institution; an application without the GRE must demonstrate exceptional potential.
•Applicants must have a minimum of two semesters of calculus and have strong quantitative skills.
•International applicants should present a minimum Test of English as a Foreign Language (TOEFL) score of 550 (paper version) or 213 (computer version). Only official TOEFL scores from the Educational Testing Service will be considered acceptable.
•Three letters of recommendation, from individuals familiar with the applicant’s academic ability and potential to conduct original research at the doctoral level, will be required.
•Applicants will also be required to submit a Statement of Purpose (personal essay). This statement is an important element in the application packet. It has two related roles:
(1) Indication of an applicant’s qualifications and motivation for the program. Applicants should indicate their qualifications for and motivation to undertake this program as well as their personal and career goals. Specifically, the statement should indicate the applicant’s background, research credentials, and career plans as they relate to the multidisciplinary nature of the doctorate, and discuss research experience (academic, industrial) and any publications, grants, or patents;
(2) Indication of how an applicant will fit into the program. Applicants should indicate their specific areas of interest within Biomedical Engineering and Biotechnology, so that a fit between their interests and qualifications and the specific specialization options that the program offers can be determined. If the applicant has a specific interest in working with one or more of the program’s faculty, s/he should describe that specific interest and identify those faculty members. The Statement of Purpose should also exemplify the applicant’s writing skills.
•We invite applicants also to submit a personal résumé.
Individual circumstances can be taken into account, and extraordinary qualifications in some areas can be used to outweigh weaknesses in others.
Transfer of Credits/Advanced Standing
Students who have previously completed graduate course work may transfer up to six credits, following the UMass Dartmouth graduate transfer policies. The transfer credit may replace core or specialization course requirements. The project/directed studies, seminar, and dissertation research credits will not be accepted for transfer from institutions outside of the UMass system.
Students may also have core courses waived without transfer of course credit. Students would still be responsible for the full credits required of each degree (31 credits for the MS and 63 credits for the PhD), but would not have to take the waived course.
Students who join the program with an earned master’s degree may receive Advanced Standing in the doctoral program. The number of credits required to complete the PhD will be determined in individual advisement, but at a minimum 9 course (core or specialization) credits, the capstone project course (3 credits), doctoral seminar (taken twice, 1 credit each) and 30 dissertation research credits will be required. Advanced Standing students will be required to pass the Qualifying Examination before progressing to the dissertation stage. Students who enter the program with advanced standing will not earn the MS degree.
Campus AACC’s are responsible for overseeing the advising components of the program, which are initiated while each student is still an applicant. Students will be assigned a faculty advisor when they are accepted into the program. The initial faculty advisor will either be a member of the AACC or a program faculty member appropriate to the applicant’s Statement of Purpose. After the student’s first year in the program, s/he may want to change to a new advisor who fits the student’s research interest and is likely to become the chair of the student’s dissertation committee. Occasionally, a student may ask to change to a new advisor on a different home campus. The AACC of the new campus must assent to the move and verify that an advisor is assigned and other appropriate arrangements are made. The transfer should then be presented to the IACC for its approval, and if it does approve, notification will go to the POC so that the administrators for the campuses affected can arrange for transfer of registration and academic records, and address other student status issues.
Registration across Campuses
UMass campuses collaborate to permit joint-program students, like those in the BMEBT, at one campus to take courses at another with a minimum of effort. In brief, UMass Dartmouth BMEBT students go to our Registrar’s Office to register and pay for a course offered at another campus (offered either on that campus or by distance learning). That campus provides evidence of course completion, and grades as well as credit are shown on the UMass Dartmouth transcript.
A limited number of assistantships are available on a competitive basis. Applicants desiring teaching or research assistantships should submit completed applications by April 15th. Other assistance, such as loans or work study, may be available to you. Please refer to the chapter in this catalog on “Expenses and Financial Assistance.” Much of the support in this program comes in the form of Research Assistantships. Applicants are invited to contact faculty about opportunities for Research Assistantships.
The curriculum of this UMass joint program is organized around common experiences, including core courses, a capstone project, and intercampus graduate research presentations. The program makes some use of distance learning/on-line/faculty exchange for delivery of courses and seminars, and the campuses are close enough to permit commuting between them. The program encourages a multidisciplinary team approach during the Instrumentation and Laboratory Experience, the capstone project, and in the selection of the dissertation committee. Industry representation occurs in an introductory core course, in the capstone project, in the doctoral seminar series, and from an outside advisory group. In addition, each student pursues a sequence of courses and then completes a focused research project leading to a doctoral dissertation in one of the program’s specialization options.
General Program Requirements
The program of courses includes a core requirement, a specialization requirement, and a capstone requirement. As students advance, they will have to meet requirements in addition to satisfactory completion of courses, including participation in seminars and symposiums, passing a qualifying examination, defending a dissertation proposal, completing a dissertation, and defending it. The PhD requires completion or transfer of at least 63 total credits (or a minimum of 44 credits for students with advanced standing due to an existing MS degree).
Students must meet the specific UMass Dartmouth requirements of for such matters as grade averages, documentation of completion of requirements, registration for program continuation, and submitting the final dissertation to the library:
·No course receiving a grade below C can receive credit; C- grades cannot receive credit.
·Grades earned below C are still calculated in the student’s grade point average.
·Students are limited in the number of Directed or Independent Study course credits that they can apply toward their program. No more than 6 credits of coursework below the level of dissertation registrations may be in the form of Directed or Independent Study.
·All courses must be conducted at the graduate level.
·Students must pursue and complete a program of study approved by their assigned advisor.
The interdisciplinary nature of this program makes close contact between each student and his or her advisor important.
The core courses provide a common foundation for all students, either from life science or physical science/engineering backgrounds.
Introduction to Biomedical Engineering & Biotechnology should be taken in a student’s first semester if possible. Instrumentation and Laboratory Experience (3 credits) is designed to give students exposure to cutting-edge research methodology in a number of different areas, with a balance between biomedical engineering and biotechnology areas. The core mathematics requirement offers a choice for those from a physical science, engineering, mathematics background or a life sciences background. Quantitative Physiology (3 credits) helps integrate the curriculum for individuals with life science and engineering undergraduate backgrounds, permitting engineers and physical scientists an appreciation of how organisms function from the organ/system perspective and giving life scientists a more rigorous quantitative approach to physiology than is usual in undergraduate courses. Bioethics (1 credit) and Advanced Cell and Molecular Biology (3 credits) fill out the core requirements.
Specialization Course Requirements
Specialization courses help the student attain depth in focused areas. The BMEBT program organizes specialization opportunities under various options:
Biomedical Engineering Specialization Options
•Biomaterials: Tissue Engineering, Polymers/ Plastics, Fibers/Textiles, Nanotechnology
•Biomedical Information Systems: Bioinformatics, Genomics, Proteomics
•Biomedical Instrumentation: Clinical Sciences, Signal Processing, Sensors, Microprocessing, Manufacturing/ Quality Control
•Biomechanics: Biotransport, Cell Mechanics, Tissue/Organ Mechanics, Joint/Muscle Mechanics
•Medical Imaging: Optics, NMR, MRI, Acoustics, Cell Imaging
•Medical Physics/Radiological Sciences: Dosimetry, Shielding/ Protection, Nuclear
Biotechnology Specialization Options
•Agricultural Biotechnology: Therapeutics, Pharmacology, Nutritional Biochemistry, Food Science Technology
•Bioprocessing/Applied Microbiology: Bioremediation, Fermentation, Biocatalysis, Applied Genetic Engineering
•Molecular Biotechnology: Clinical Sciences, Biochemical Applications, Diagnostics.
Faculty involved in each specialization will see to an appropriate combination of depth and breadth in the student’s selection of specialization courses. They may announce some structure to the course selections allowed within the area. With the approval of their advisor, students will select 12 credits of course work (minimum) from within one of the specializations. Any graduate course approved by the advisor may be used to satisfy this requirement. Some specialization options will require more than 12 credits.
Each campus participating in the BMEBT program offers its own emphases within this overall list of specializations. Not all of the specialization options or specific topics are available at the Dartmouth campus.
As students transition from coursework to dissertation research, they undertake a capstone project course. This is designed to be a culminating experience in which the student synthesizes his/her course knowledge and experimental skills into a brief but detailed experimental study, which also involves cross- field interdisciplinary cooperation. Although in some cases this project may be done individually under the supervision of one faculty member, it is expected that students will join in a team-based, collaborative effort involving students from a number of different disciplines or post-doctoral fellows and industry representatives; and with intercampus participation.
Annually in May, a Biomedical Engineering and Biotechnology Research Symposium will be held, rotating each year to a different campus, at which the students from all four campuses will present their projects in a poster session and/or orally. Participation in this non-credit activity is required.
Earning the MS Degree
Following successful presentation of the capstone project and with a minimum of 31 credits of completed or transferred in required and approved courses, the student will be awarded the Master of Science degree as a Biomedical Engineering/Biotechnology credential along the way toward the doctorate.
Students must have at least a cumulative B average to receive the MS degree and advance to the Qualifying Examination.
Selection of the Doctoral Dissertation Committee
As they move through this stage of their program, students will select their Doctoral Dissertation Committee, with one person as the major advisor. A committee must be formed in accordance with the guidelines for doctoral programs at UMass Dartmouth, as presented in this Catalogue. The advisor and at least one other dissertation committee member must be chosen from the approved Program Faculty of the Biomedical Engineering and Biotechnology program. Having one member of a dissertation committee be an outside industry scientist or engineer is encouraged. Also, strongly recommended is for one’s committee to have one faculty member from a campus other than the candidate’s home campus. It is expected that all three members will not represent the same academic departmental affiliation. Each student’s committee is approved by the campus AACC, which will also approve any changes to a previously-approved committee.
Qualifying (Written) Examination
Students must pass a written qualifying examination that will cover questions on course work as well as experimental procedures the student has utilized. The qualifying examination will be administered and evaluated by program faculty selected by the AACC. The examination must be taken within one year after completion of the MS Biomedical Engineering and Biotechnology requirements, or, for a student with advanced standing, within two years of entering the program. Doctoral students, in consultation with their advisor, will identify two topic areas in which to be examined. One of the topics must be primarily engineering/technological in nature (for example, solid mechanics), and another primarily biological in nature (for example, pathophysiology of musculoskeletal disorders). The examination will be in written form and given during two one-half days within a one- week period. Examinations for a given topic area will be designed to be completed within a three to four-hour period. The material covered by the exam may be designated as specific portions of courses, textbooks, and journal articles. Emphasis will be placed on the student’s ability to integrate information in the areas examined. Examinations for a given topic area will be graded Pass or Fail. Students who are unsuccessful in their first attempt in a given topic area may repeat it once. Failure to pass the examination on any topic area on the second attempt results in overall failure on the Qualifying Examination and dismissal from the PhD program.
Doctoral-level Credit Requirements
Doctoral Seminar (1 credit - required twice)
Doctoral students will present research in progress. The seminar will emphasize not only research but also communication and writing. Every active doctoral candidate will present her or his work in progress in the seminar, and in addition there will be at least two presentations from external speakers. Students will write summaries of each presentation. Course is graded pass-fail or satisfactory-unsatisfactory (depending on grading system in use on the campus). Students must complete this course in at least two different semesters.
Dissertation Research (variable credit each semester, 30 credits minimum)
Doctoral students will register for a minimum of 30 credits of doctoral research with their faculty advisor (dissertation chair). They will use these credits during preparation and defense of the dissertation proposal, carrying out their dissertation research and preparation and defense of the doctoral dissertation.
Dissertation Proposal (Oral Preliminary Examination)
Students must present for approval a written dissertation proposal and then defend it in an oral presentation to his or her dissertation committee. The dissertation proposal will follow the format established for NIH proposals, including the page limits, and will perform an extensive review of the literature on the student’s chosen topic, present original hypotheses, design experiments to test the hypotheses, document the appropriate methodology that will be used, project anticipated results, and indicate how such results might be interpreted. The proposal must show application to a current biomedical/ biotechnological problem. After successfully defending the dissertation proposal, the student attains the designation “doctoral candidate.” Failure to pass the defense of the dissertation proposal (oral examination) results in dismissal from the PhD program.
The doctoral candidate will defend his/her written dissertation before the doctoral dissertation committee, the university, and the outside community. The specific format of the defense is usually decided by the committee chair, but a typical format consists of the PhD candidate first presenting an overview of the thesis research, then answering specific questions asked by the committee members. Questions may test anything from knowledge of the existing literature, to scrutinizing of the material and methods or experimental design, to the assumptions in the research, to the interpretation of the results, to recommendations for future work. If the candidate has worked closely with his or her advisor, and committee, it is likely that there will be no surprises at this final stage of the process. It is common, however for the committee to ask that certain minor revisions be made to the written dissertation before final submission to the library. Successful defense of the dissertation and presentation of the finished work to the library will result in the awarding of the PhD in Biomedical Engineering and Biotechnology. Dissertations must be filed with Dissertation Abstracts International.
Dismissal and Continuation
Students must meet the UMass Dartmouth requirements for progression and quality. Faculty advisors monitor the progress of each Biomedical Engineering and Biotechnology student through his or her core and specialization courses. If requirements are not met, a recommendation for dismissal is made by the AACC of the student’s campus to the administrators on the Program Oversight Committee (POC), and if the POC approves the dismissal the appropriate member will carry that action through on the student’s campus. A student thus dismissed may appeal the dismissal to the IACC, which will similarly recommend to the POC.
Biomedical Engineering and Biotechnology Courses
Specialization courses are found among the many graduate course offerings in participating departments. Only specific courses are listed here.
BMB 510 three credits Introduction to Biomedical Engineering and Biotechnology
Prerequisite: BMEBT degree candidate or permission of a program co-director. Team-taught introductory course that emphasizes a multidisciplinary approach to current topics in the range of academic disciplines and gives students their first exposure to faculty research areas. The course, as much as possible, will involve faculty from all participating campuses, will involve outside industry speakers to present topics of contemporary importance, and will offer joint lectures from guest speakers.
BMB 520 three credits Quantitative Physiology
Physiology at the organ system level with a quantitative approach. The course helps integrate the curriculum for individuals with life science and engineering undergraduate backgrounds, permitting engineers and physical scientists an appreciation of how organisms function from the organ/system perspective and giving life scientists a more rigorous quantitative approach to physiology than is usual in undergraduate courses.
BMB 530 three credits Instrumentation and Laboratory Experience
Prerequisite: Permission of BMEBT advisor. A practical, hands-on lab course giving students exposure to cutting-edge research methodology in a number of different areas, with a balance between biomedical engineering and biotechnology areas. A team approach is encouraged as students employ various laboratory techniques to carry out short-term projects. Students will either rotate through a number of different experimental procedures within a single investigator’s laboratory or rotate through multiple faculty laboratories, learning a particular type of methodology for which the laboratory may be noted and uses frequently. The course may also provide laboratory experiences/demonstrations at sister campuses and industrial sites where faculty members have affiliations.
BMB 540 three credits Advanced Cell and Molecular Biology
Rigorous treatment of topics in advanced cell and molecular biology, illustrating applied research through examples and presenting biochemistry concepts at the cell/molecular level.
BMB 570 three credits Applied Math for Life Scientists
This course provides an intense treatment of the subject matter designed to achieve applied math literacy for students with life science and related backgrounds.
BMB571 one credit Bioethics
This course is offered online out of the UMass Lowell campus
BMB 573 three credits Graduate Directed Study
Prerequisites: Graduate standing; permission of instructor, graduate director, and college dean. Study under the supervision of a faculty member in an area covered in a regular course not currently being offered. Terms and hours to be arranged.
BMB 620 three credits Capstone Project
Prerequisites: Approval of instructor and student’s graduate committee. A culminating experience in which the student synthesizes his/her course knowledge and experimental skills into a brief but detailed experimental study, which also involves cross-field interdisciplinary cooperation. Although in some cases this project may be done individually under the supervision of one faculty member, it is expected that students will join in a team-based, collaborative effort involving students from a number of different disciplines, post-doctoral fellows, and industry representatives; and with intercampus participation.
BMB 630 variable credits Independent Research
Prerequisites: Approval of instructor and student’s graduate committee. Investigations of a fundamental and/or applied nature. Independent Research is often work on a future dissertation undertaken before the student has satisfied the qualification steps for BMB 720. With approval of student’s graduate committee, up to 15 credits of BMB 630 may be applied to the 30-credit requirement for dissertation research.
BMB 710 one credit Doctoral Seminar
Doctoral students’ research in progress, emphasizing not only research but also communication and writing. Every active doctoral candidate will present her or his work in progress in the seminar, and in addition there will be at least two presentations from external speakers. Students will write summaries of each presentation. Students must complete this course in at least two different semesters. Course is graded pass-fail.
BMB 720 variable credits Doctoral Dissertation Research
Prerequisites: Successful completion of PhD comprehensive examination and approval of doctoral dissertation proposal by the student’s graduate committee. Investigations of a fundamental and/or applied nature representing an original contribution to the scholarly research literature of the field. PhD dissertations are often published in refereed journals or presented at major conferences. A written dissertation must be completed in accordance with the rules of the Graduate School. Admission to the course is based on successful completion of the PhD comprehensive examination and submission of a formal proposal endorsed by the student’s graduate committee and submitted to the appropriate BMEBT Graduate Program Director.