Super Sparger Microcarrier Beads and Precision Extrusion Deposited Poly-Epsilon-Caprolactone Structures for Biological Applications
作者: Selcuk Guceri , Lauren Shor , Andrew Darling , Wei Sun
DOI:
关键词:
摘要: In on aspect, the invention includes a microcarrier bead having porous three-dimensional core (a) polymeric body porosity of about 15 to 90% such that at least 99% pores are interconnected and have diameters most 200 microns, (b) an outer protective layer optionally (c) filler. another method making artificial scaffold wherein scaffolding material is extruded into coolant thereby creating between 15-90% microns.
lens.org 参考文章(29)
Dietmar Werner Hutmacher, Kock Fye Tam, Swee Hin Teoh, Iwan Zein, Kim Cheng Tan, Methods for fabricating a filament for use in tissue engineering ,(2001)
Jonathan Noel Mansbridge, Linette J. Edison, Lee K. Landeen, Emmett Pinney, Anthony Ratcliffe, Cultured three-dimensional tissues and uses thereof ,(2008)
L. Perry Fleming, David W. Armstrong, Deborah G. Grenzowski, Cell culture bioreactor ,(1988)
Kwan-Min Jem, Pierre-Francois Cevey, Method and apparatus for growing biomass particles ,(1993)
Augustinus Bader, Method and device for culturing cells ,(2003)
William G. Thilly, Jason S. Wong, Daniel I. C. Wang, David W. Levine, Cell culture microcarriers ,(1979)
Douglas B. Seifert, Bioactive cells immobilized in alginate beads containing voids formed with polyethylene glycol ,(1989)
Dieter Schwengers, Ingrid Keller, Cell culture microcarrier, method for preparing same and use thereof for cultivating anchorage-dependent cells ,(1985)
Mark S. Roby, Ying Jiang, Chitosan/alginate anti-adhesion barrier ,(1995)
David A. Wolf, Ray P. Schwarz, Tinh T. Trinh, Method for culturing mammalian cells in a horizontally rotated bioreactor ,(1991)