A porous photocurable elastomer for cell encapsulation and culture.

A porous photocurable elastomer for cell encapsulation and culture. Research Abstract Details 

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A porous photocurable elastomer for cell encapsulation and culture. Abstract Text:

Sharon Gerecht,Seth A Townsend,Heather Pressler,Han Zhu,Christiaan L E Nijst,Joost P Bruggeman,Jason W Nichol,Robert Langer,Sharon Gerecht,Seth A Townsend,Heather Pressler,Han Zhu,Christiaan L E Nijst,Joost P Bruggeman,Jason W Nichol,Robert Langer,

Encapsulating cells within a polymer matrix creates a three-dimensional (3D) scaffold that may more accurately represent the native microenvironment and cell organization. Here we report a porous scaffold prepared from a photocurable elastomer, poly(glycerolco-sebacate)-acrylate (PGSA). The scaffold porosity, swelling, mass loss, toxicity and mechanical properties, suggest that porous PGSA could be used to support the growth and differentiation of encapsulated cells. Neuroblastoma (NB) and human embryonic stem cells (hESCs) were encapsulated into the matrix and found to adhere to the material and interact with each other within 24h. After 7 days, encapsulated NB cells were found to grow, and form matrix fibrils and tissue. Undifferentiated hESCs proliferated and differentiated in the PGSA scaffold. In vivo experiments showed that both porous scaffolds have similar biocompatibility profiles as non-porous PGSA, but porous PGSA promotes tissue ingrowth, as compared to non-porous PGSA. We therefore propose that porous PGSA scaffolds can provide a logistical template for 3D growth of cells and tissue engineering.

A porous photocurable elastomer for cell encapsulation and culture. Publishing Authors By Initials

S Gerecht,SA Townsend,H Pressler,H Zhu,CL Nijst,JP Bruggeman,JW Nichol,R Langer,S Gerecht,SA Townsend,H Pressler,H Zhu,CL Nijst,JP Bruggeman,JW Nichol,R Langer,

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A porous photocurable elastomer for cell encapsulation and culture. Journal Published:

PUBLICATION TYPE: Research Support, U.S. Gov't,

Journal: Biomaterials

VOLUME: 28

Page Numbers: 4826-35

Journal Abbreviation: Biomaterials

ISSN: 0142-9612

DAY: 9

MONTH: 08

YEAR: 2007

A porous photocurable elastomer for cell encapsulation and culture. Information

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LANGUAGE: eng

NlmUniqueID: 8100316

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Grant and Affiliation Information for A porous photocurable elastomer for cell encapsulation and culture.

AFFILIATION: Division of Health Sciences and Technology, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, MA 02139, USA.

Country: England

AGENCY: United States NIDCR

GRANT: R01-DE13023

ACRONYM: DE

MEDLINETA: Biomaterials

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