Title :
An InkJet Printing Station for Neuroregenerative Tissue Engineering
Author :
Silva, David S. ; Wallace, David B. ; Cooley, Patrick W. ; Radulescu, Delia ; Hayes, Donald J.
Author_Institution :
MicroFab Technol. Inc., Piano
Abstract :
Although many protocols exist for peripheral nerve regeneration flj, there has yet to be a single, uniformly applied method that insures a result comparable to autologous nerve grafting - the current gold standard in peripheral nerve repair. For these experiments, MicroFab used its ink-jet dispensing technology to print biocompatible polymers to form nerve regeneration conduits. These proof of concept experiments ultimately show, that ink-jet dispensing technology can form a conduit with the aid of a mandrel. This prospect leaves great potential for future development of digitally driven, direct-write nerve regeneration constructs.
Keywords :
bioelectric potentials; biomedical materials; ink jet printers; neurophysiology; polymers; printing; tissue engineering; MicroFab; biocompatible polymer printing; ink-jet dispensing technology; inkjet printing station; nerve regeneration conduits; neuroregenerative tissue engineering; Aluminum; Cameras; Fabrication; Gold; Manufacturing; Molecular biophysics; Printing; Protocols; Regeneration engineering; Tissue engineering;
Conference_Titel :
Engineering in Medicine and Biology Workshop, 2007 IEEE Dallas
Conference_Location :
Dallas, TX
Print_ISBN :
978-1-4244-1626-4
DOI :
10.1109/EMBSW.2007.4454176
