Polyimide-polyethylene glycol block copolymers: Synthesis, characterization, and initial evaluation as a biomaterial

Chandrashekhar P. Pathak; Amarpreet S. Sawhney; Christopher P. Quinn; Jeffrey A. Hubbell

doi:10.1163/156856295X00021

Polyimide-polyethylene glycol block copolymers: Synthesis, characterization, and initial evaluation as a biomaterial

Chandrashekhar P. Pathak, Amarpreet S. Sawhney, Christopher P. Quinn, Jeffrey A. Hubbell

Chemical and Biomolecular Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Block copolyimides with varying amounts of polyethylene glycol (PEG) were synthesized and characterized by copolymerization of diaminodiphenyl ether (DDE), amino terminated PEG, and ben- zophenone tetracarboxylic acid dianhydride (BTDA). Strong materials were obtained, with enhanced flexibility as compared to the parent DDE-BTDA polyimide homopolymer. Incorporation of PEG led to an increase in water absorption by these copolymers, and hydrophilicity was increased as reflected by a decrease in air-water-polymer contact angle. These materials supported less cell adhesion in vitro than the parent polyimide homopolymer. Short term in vivo evaluation of these copolymers showed reduced fibrous encapsulation than was observed in the absence of PEG.

Original language	English (US)
Pages (from-to)	313-323
Number of pages	11
Journal	Journal of Biomaterials Science, Polymer Edition
Volume	6
Issue number	4
DOIs	https://doi.org/10.1163/156856295X00021
State	Published - 1995

Keywords

biocompatibility
copolymer
poly(ethylene glycol)
Polyimide

ASJC Scopus subject areas

Biophysics
Bioengineering
Biomaterials
Biomedical Engineering

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10.1163/156856295X00021

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abstract = "Block copolyimides with varying amounts of polyethylene glycol (PEG) were synthesized and characterized by copolymerization of diaminodiphenyl ether (DDE), amino terminated PEG, and ben- zophenone tetracarboxylic acid dianhydride (BTDA). Strong materials were obtained, with enhanced flexibility as compared to the parent DDE-BTDA polyimide homopolymer. Incorporation of PEG led to an increase in water absorption by these copolymers, and hydrophilicity was increased as reflected by a decrease in air-water-polymer contact angle. These materials supported less cell adhesion in vitro than the parent polyimide homopolymer. Short term in vivo evaluation of these copolymers showed reduced fibrous encapsulation than was observed in the absence of PEG.",

keywords = "biocompatibility, copolymer, poly(ethylene glycol), Polyimide",

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T2 - Synthesis, characterization, and initial evaluation as a biomaterial

AU - Pathak, Chandrashekhar P.

AU - Sawhney, Amarpreet S.

AU - Quinn, Christopher P.

AU - Hubbell, Jeffrey A.

PY - 1995

Y1 - 1995

N2 - Block copolyimides with varying amounts of polyethylene glycol (PEG) were synthesized and characterized by copolymerization of diaminodiphenyl ether (DDE), amino terminated PEG, and ben- zophenone tetracarboxylic acid dianhydride (BTDA). Strong materials were obtained, with enhanced flexibility as compared to the parent DDE-BTDA polyimide homopolymer. Incorporation of PEG led to an increase in water absorption by these copolymers, and hydrophilicity was increased as reflected by a decrease in air-water-polymer contact angle. These materials supported less cell adhesion in vitro than the parent polyimide homopolymer. Short term in vivo evaluation of these copolymers showed reduced fibrous encapsulation than was observed in the absence of PEG.

AB - Block copolyimides with varying amounts of polyethylene glycol (PEG) were synthesized and characterized by copolymerization of diaminodiphenyl ether (DDE), amino terminated PEG, and ben- zophenone tetracarboxylic acid dianhydride (BTDA). Strong materials were obtained, with enhanced flexibility as compared to the parent DDE-BTDA polyimide homopolymer. Incorporation of PEG led to an increase in water absorption by these copolymers, and hydrophilicity was increased as reflected by a decrease in air-water-polymer contact angle. These materials supported less cell adhesion in vitro than the parent polyimide homopolymer. Short term in vivo evaluation of these copolymers showed reduced fibrous encapsulation than was observed in the absence of PEG.

KW - biocompatibility

KW - copolymer

KW - poly(ethylene glycol)

KW - Polyimide

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Polyimide-polyethylene glycol block copolymers: Synthesis, characterization, and initial evaluation as a biomaterial

Abstract

Keywords

ASJC Scopus subject areas

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