Third‐generation amphiphilic conetworks. III. Permeabilities and mechanical properties |
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Authors: | Jungmee Kang Gabor Erdodi Joseph P. Kennedy |
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Affiliation: | 1. Institute of Polymer Science, The University of Akron, Akron, Ohio 44325‐3909;2. Institute of Polymer Science, The University of Akron, Akron, Ohio 44325‐3909Institute of Polymer Science, The University of Akron, Akron, Ohio 44325‐3909 |
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Abstract: | While two of our earlier papers on poly(dimethyl acryl amide)/polymethylhydrosiloxane/polydimethylsiloxane (PDMAAm/PMHS/PDMS) amphiphilic conetworks concerned synthesis and biological properties, respectively, the present contribution focuses on oxygen and insulin permeabilities, and select mechanical properties. We show that by increasing the PDMAAm content from 20 to 60% (i.e., by decreasing the hydrophobic content from 80 to 40%), oxygen permeabilities decrease from ~240 to ~130 barrers. Evidently, oxygen permeability is a function of the sum of the oxyphilic components, PDMS + PMHS, in the conetworks. In contrast, insulin permeability is a function of the hydrophilic component, and reaches a desirable 1.5 × 10?7 cm2/s at 61% PDMAAm. We also studied the permeabilities of glucose, dextran, and albumin through a PDMAAm61/PMHS6/PDMS33 membrane and found, unsurprisingly, that the permeability of these molecules follows their hydrodynamic radii, and we project that the permeability of IgG is infinitesimally low. Tensile strengths and ultimate elongations of water‐swollen membranes are also a function of conetwork composition: by increasing the PDMAAm content from 30 to 60%, strengths decrease from 1.6 to 1.2 MPa, and elongations from ~60 to ~40%. Overall, the permeabilities and the mechanical properties of these membranes are appropriate for implantation and, specifically, for immunoisolation of living tissue. © 2007 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 45: 4276–4283, 2007 |
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Keywords: | amphiphilic conetworks diffusion immunoisolation mechanical properties membranes permeability |
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