Title :
High-Throughput, Laser-based Alginate Microbead Fabrication and Patterning
Author :
Kingsley, David M. ; Dias, Andrew D. ; Corr, David T.
Author_Institution :
Biomed. Eng. Dept., Rensselaer Polytech. Inst., Troy, NY, USA
Abstract :
Laser direct-write (LDW) is a biofabrication technique that was developed to produce cell patterns of high spatial resolution. We present an adaptation to this technique to rapidly create alginate microbeads in large, precise arrays, with and without encapsulated cells. It is further demonstrated that we maintain a high degree of spatial control in these large fabricated patterns. Rapid and precisely alginate microbead deposition on a planar surface, enabled by LDW, cannot be accomplished by other techniques. The spatial precision of this LDW will enable bottom-up tissue engineering fabrication and large biological studies based on the placement of cell-encapsulated microbeads.
Keywords :
biomedical materials; cellular effects of radiation; encapsulation; laser materials processing; microfabrication; pulsed laser deposition; tissue engineering; LDW; alginate microbead deposition; biofabrication technique; biological study; bottom-up tissue engineering fabrication; cell pattern; cell-encapsulated microbead; high spatial resolution; high-throughput laser; laser direct-writing; laser patterning; laser-based alginate microbead fabrication; planar surface; precise arrays; spatial precision; Biology; Calcium; Fabrication; Lasers; Substrates; Tissue engineering; Microbead; Laser Direct-write; High-Throughput;
Conference_Titel :
Bioengineering Conference (NEBEC), 2013 39th Annual Northeast
Conference_Location :
Syracuse, NY
Print_ISBN :
978-1-4673-4928-4
DOI :
10.1109/NEBEC.2013.156
