Project Overview

The purpose of this project is to design a bioreactor for whole organ tissue engineering of the human larynx, as well as comparable large animal models such as the pig or dog larynx. This tissue engineering approach involves two main processes: perfusion-decellularization of the larynx to create an acellular scaffold, and perfusion-recelluarization of the acellular scaffold using vocal fold fibroblasts and other cell sources.

The basic design elements for the bioreactor will include:

1. Provision of the flow/circulation of perfusion medium, such as decellularization solution, nutrient medium, cell suspension, etc. through the vasculature (i.e., the two common carotid arteries) of the dissected larynx; and possibly through the airway lumen as well. 2. Possible provision of humidifed air through trachea for appropriate hydrodynamic stimuli. 3. A sterile (autoclavable) chamber as the main chamber of the bioreactor to culture the dissected larynx and allowing medium exchange. 4. Regulation of perfusion rate and air flow rate by pumps

Team Picture

Files

• Poster for Final Presentation (December 12, 2012)
• Midsemester Presentation (October 24, 2012)
• Midsemester Paper (October 24, 2012)
• PDS Revised (December 12, 2012)
• Final Paper (December 12, 2012)

Contact Information

Team Members

• Brett Napiwocki - Co-Team Leader
• Sara Schmitz - Co-Team Leader
• Taylor Milne - Communicator
• Benjamin Smith - BSAC
• Armand Grabowski - BWIG

Advisor and Client

• Dr. Tom Yen - Advisor
• Prof. Nathan Welham - Client
• Zhen Chang - Alternate Contact

Related Projects

• Spring 2014: Perfusion De/Recellularization Bioreactor for Laryngeal Tissue
• Fall 2013: Perfusion De/Re-cellularization bioreactor for Laryngeal Tissue
• Spring 2013: Perfusion decellularization-recellularization bioreactor for laryngeal tissue engineering
• Fall 2012: Perfusion decellularization-recellularization bioreactor for laryngeal tissue engineering