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2008 Program
Over a period of nine weeks, from May 29 to July 26, 2008, these unique interdisciplinary programs integrated education and research in the field of biomaterials and medical device design from concept to clinical applications. The goal of these programs was to offer a unique didactic experience where students learn the basic principles necessary for the understanding of medical device development, clinical applications, and failure assessment, and to apply these principles in state-of-the-art research projects. Download the 2008 Program Flyer here ...

BBSI Participants
This multidisciplinary Institute targets undergraduate students, who have completed their sophomore year, and graduate students at the master’s level, within the first two years of entry into their graduate education program, majoring in the life and applied sciences, and engineering, excluding bioengineering and biomedical engineering.

SSBR Participants
REU stands for: Research Experience for Undergraduates
Therefore, this program is targeted only to undergraute students. The SSBR program is open to all science and engineering majors , including bioengineering/biomedical engineering majors. To be eligible students must be enrolled in a South Carolina institution or be residents of the state of South Carolina.

Participant Benefits:
  • Unique career planning program
  • Free on-campus housing & meal plan
  • $300/week stipend for undergraduates
  • $500/week stipend for graduate students
  • Travel support, up to $500, for out of state students
  • a total of 3 transferable academic credits - only applicable to BBSI program participants
The Specific Goals of this Training Program are to:
  • Introduce students to the common types of materials and implanted devices used in medicine,
  • Acquaint students with key fundamental principles of chemistry, physics, and biology, as well as engineering and processing parameters which predetermine the performance of biomedical devices,
  • Present an analysis of common features as well as differences between materials used for the production of medical devices,
  • Illustrate how typical biomaterials are processed to useful constructs and evaluated to predict and/or determine their performance in different biological environments (case studies depicting the interactions between implants and different biological environments will be presented),
  • Develop an appreciation of the interdisciplinary nature of biomaterials science and engineering and how one uses knowledge from vastly different technologies to assemble useful biomedical devices,
  • Understand the clinical needs and limitations that stimulate the medical device industry,
  • Train students to adequately use basic technical and experimental protocols commonly performed in biomaterials research,
  • Provide students with an understanding of research principles at the foundation of state-of-the-art biomaterials research,
  • Increase the awareness of students about challenges and opportunities to be encountered by the biomaterials industry in the 21st century, and
  • Prepare and motivate students to successfully complete graduate programs in bioengineering, and enter the bioengineering profession.
Program Activities:
  • Students participate in an intensive education program consisting of workshops designed to bridge engineering, biology, and clinical sciences.
  • Participants will conduct hands-on laboratory research related to NASA missions and other areas of bioengineering.
  • Expenses paid trip (3 nights, 4days) to the NASA Kennedy Space Center (KSC) in Cape Canaveral, FL, including the Space Life Science Laboratories and launch complexes for the Mercury, Gemini, Space Shuttle, and future Aries programs.
  • Students attend the weekly Institute Colloquium, a professional development lecture series highlighting internationally known researchers in the field of biomaterials.
  • Students participate in weekly hands-on Mini-Workshops focusing on experimental techniques used in biomaterials research.
  • Communications skills are fostered through weekly research presentations given by the students, and a final research symposium which highlights the research conducted by the students.
  • Courses are team taught by expert faculty. Technical workshops are conducted by staff and technical personnel at Clemson University who commonly participate in biomaterials research and supervise the research facilities involved.
  • Professional development and entrepreneurship lectures are provided by representatives from leading implant device manufacturers, and other professional experts in this field.
  • Participating students will be invited to return the following summer.
  • Mini-grants will be offered to returning students on a competitive basis to pursue, or complement, their research at their home institution during the academic year.
Mentoring and Research Themes:
Each student is paired with a mentoring team before the beginning of the summer program.
  • Each student is advised by two faculty members: a bioengineering faculty and a faculty from life and applied sciences or clinical sciences.
  • The other members of the mentoring team are a research associate or post-doctoral fellow from the laboratory hosting the student, and a senior doctoral candidate.
  • All projects integrate biology, physical sciences, and engineering.
  • Selection of the projects is conducted before the beginning of the program.
  • Mentoring teams will contact and prepare the students before the beginning of the summer program.
Research mentoring is provided by the following research programs at Clemson University:
  • Laboratory of Vascular Research
  • Cardiovascular Implant Research Laboratory
  • Tissue Engineering Laboratory
  • Laboratory of Polymeric Bearing Modeling
  • Nanoscale Biointerfaces Laboratory
  • Laboratory of Biomedical Optical Imaging and Spectroscopy
  • Genetics and Breast cancer
Faculty Mentors:
Clemson Bioengineering