3D Printing of Regenerated Silk Fibroin and Antibody-Containing Microstructures via Multiphoton Lithography — Matthew B. Dickerson (2017) | RDL Network
3D Printing of Regenerated Silk Fibroin and Antibody-Containing Microstructures via Multiphoton Lithography
Article 2017 en
Authors
MD
Matthew B. Dickerson
PD
Patrick B. Dennis
VT
Vincent P. Tondiglia
Abstract
1 min read
Regenerated silk fibroin, a biopolymer derived from silkworm cocoons, is a versatile material that has been widely explored for a number of applications (e.g., drug delivery, tissue repair, biocompatible electronics substrates, and optics) due to its attractive biochemical properties and processability. Here, we report on the free-form printing of silk-based, 3D microstructures through multiphoton lithography. Utilizing multiphoton lithography in conjunction with specific photoinitiator chemistry and postprint cross-linking, a number of microarchitectures were achieved including self-supporting fibroin arches. Further, the straightforward production of high fidelity and biofunctional protein architectures was enabled through the printing of aqueous fibroin/immunoglobulin solutions.
Matthew B. Dickerson, Scott P. Fillery, Hilmar Koerner, Kristi M. Singh, Katie Martinick, Lawrence F. Drummy, Michael F. Durstock, Richard A. Vaia, Fiorenzo G. Omenetto, David Kaplan, Rajesh R. Naik
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