Bioreactor for Human Vocal Fold Tissue Engineering
Project Overview
The aim of this project is to re-design and improve upon a previous version of a bioreactor that will be used for the culturing of human vocal fold fibroblasts. The previous design was able to vibrate two pairs of cell-seeded strips under tensile stress, but had design flaws that needed improvement, including keeping the bioreactor leak-proof, subjecting the cells to more stimuli, and allowing the equipment providing the stimuli to be controlled by a computer. Our goals are to finish the design and fabrication of this new model, to obtain a substitute for the cellular substrate, Tecoflex, and to test the bioreactor and cellular substrate for optimal design and operating conditions. The bioreactor will be made from two T-flasks, two moving magnet linear voice coil actuators, two rotary stepper motors, and two linear stepper motors. A total of four pairs of cells will be immersed in a buffer in two T-flasks, and subjected to vibration, tensile stress, and angular changes between each pair of strips. This device needs to be easily replaced with disposable and/or sterilizable parts, fit inside a standard incubator, and have a capacity to generate vibrations within the frequency range of 50-400 Hz.
Files
- PDS (October 10, 2007)
- Mid-Semester Presentation (October 18, 2007)
- Mid-Semester Report (October 24, 2007)
- Final Poster (December 7, 2007)
- Final Report (December 13, 2007)
Contact Information
Team Members
- Rachel Mosher - Team Leader
- Kara Barnhart - Communicator & BSAC
- Joel Gaston - BWIG
Advisor and Client
- Prof. Brenda Ogle - Advisor
- Susan Thibeault - Client
Related Projects
- Fall 2007: Bioreactor for Human Vocal Fold Tissue Engineering
- Spring 2007: Bioreactor for tissue engineering