2022-2023 UMass Dartmouth Undergraduate Catalog [Archived Catalog]
Department of Bioengineering
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Faculty and Fields of Interest
Qinguo Fan biopolymers, drug delivery, biosensors, color chemistry
Tracie Ferreira (chairperson) biotechnology, tissue engineering, embryonic development, zebrafish
Laura Hanzly protein and metabolic engineering, biomaterials, engineering education
Lamya Karim biomechanics, mechanobiology, orthopedics, skeletal aging and osteoporosis, diabetes and obesity
Yong Kim biosystems analysis, biostatistics, biosoft materials and fluids, fibrous biomaterials and composites
Jean VanderGheynst industrial biotechnology for the production of food, biofuels and bioproducts
Milana Vasudev bioinspired nanomaterials fabrication, nanobiotechnology, molecular and cell biology
Steven Zanganeh immunoengineering, immunotherapy, regerative medicine, cell therapy, molecular imaging
Bioengineering is a subject of study where engineering and biology work together. Many areas of modern engineering exemplify this, such as the development of biofuels and naturally-derived plastics. At the same time the role of engineering in medicine continues to increase rapidly. Sophisticated medical equipment enhances the skill of surgeons, better diagnostics supplement the experience of family practitioners, and we will count more and more on medicine and devices to keep us in good repair as well as free from disease.
Bioengineers can work in hospitals, bioresearch centers, pharmaceutical laboratories, prostheses and medical devices manufacturers, biomaterial developers, patent offices, government regulatory agencies, health management services, and care delivery system supports, etc.
The Bioengineering department at UMass Dartmouth has deep roots in soft materials and composites. Faculty members are active researchers as well as excellent teachers in their specialty areas. Latest laboratory and research facilities are available. Advanced software and computing equipment are updated regularly. Currently we are the fastest growing department regarding the number of the enrolled undergraduate students.
The department offers degrees of Bachelor of Science in Bioengineering, as well as a Master of Science and PhD in Biomedical Engineering & Biotechnology.
The undergraduate Bioengineering program is accredited by the Engineering Accreditation Commission of ABET, www.abet.org.
Mission
The mission of the Bioengineering Department is to prepare graduates to pursue excellence in learning, discovery, and innovation at the intersection of engineering and life science for the benefit of human health and well-being.
Vision
To be an internationally recognized Bioengineering Department that offers inspiring educational opportunities for students, conducts interdisciplinary research with global impact on improving human health, and serves the bioengineering profession and the community with distinction.
Goals
The purpose of the Bioengineering program at UMass Dartmouth is to provide students with rigorous, multi-disciplinary training that enable graduates to be leaders and innovators in bioengineering and biomedical professions. This is accomplished by developing and offering curricula that integrate engineering sciences, life sciences, clinical medicine, research and engineering design in collaboration with local biomedical device and biotechnology companies.
The Bioengineering academic program goals are the following:
1) To provide educational opportunities that are at the interface of engineering, life sciences, and medicine that provide a foundation for:
a) Advanced study in engineering, medicine, or the sciences.
b) Professional practice as a bioengineer in industry, research, and government agencies.
c) Entrepreneurial endeavors in the biomedical/biotechnology industry.
2) To provide highly-trained professionals at the baccalaureate level and above who excel in the field of bioengineering and who are prepared to be future leaders in improving human health and quality of life;
3) To increase the presence of women and underrepresented minorities in science and engineering careers;
4) To support and enhance University-partnerships in the area of biomedical engineering with the UMass Medical School;
5) To revitalize/broaden the biomaterials discipline within the bioengineering degree program to increase enrollment and degree production;
6) To support economic/workforce development in biotechnology industries in Massachusetts.
Program Educational Objectives
The Bioengineering undergraduate program has the following educational objectives:
- Graduates employed will contribute to the development or application of new products or processes in their field of development in an ethical and professional manner
- Graduates will communicate and perform effectively as members or leaders of multi-disciplinary teams
- Graduates will continue to enhance their skills and knowledge to further their professional development
Student Outcomes
Graduates of the Bachelor’s degree program in Bioengineering will demonstrate:
(1) An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
(2) An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety and welfare, as well as global, cultural, social, environmental, and economic factors
(3) An ability to communicate effectively with a range of audiences
(4) An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgements, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
(5) An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
(6) An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgement to draw conclusions
(7) An ability to acquire and apply new knowledge as needed, using appropriate learning strategies
(8) An ability to understand biology and physiology
(9) An ability to understand the problems associated with interaction between living and non-living things
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