Poly(ethylene glycol)-albumin hydrogels were implanted in mice in subcutaneous position to study their biocompatibility. After one month of implantation, the fibrous capsule formed around the implant was thin and the inflammatory tissue was limited. Acid phosphatase (AP) was selected to evaluate the hydrogel as matrix for enzyme immobilization. AP-hydrogels were prepared using activated PEG (PEGa) of different molecular weights (M.W. 4,600 to 20,000) to evaluate the effect of the matrix composition on the activity of AP. The apparent Km of the immobilized AP was 16 to 20 times higher than the Km of the soluble enzyme. The apparent Km value decreases with the increase of the chain length of the PEGa used. This can be correlated to an increase in the hydrogel porosity. The operational stability of the AP was markedly improved after immobilization by 110 to 160 times according to the PEGa molecular weight involved. Also, asparaginase (ASNase) was immobilized in PEGa (M.W. 10,000)-albumin-hydrogel as a model for in vivo bioreactor. ASNase hydrogels were implanted in the peritoneal cavity of rats; 7 days later, 75% of the initial enzyme activity were retrieved.
A new family of translucide hydrogels obtained by cross-linking of bifunctionalized poly(ethylene glycol) (PEG) of various molecular masses (M, 2,000 to 35,000) with an albumin protein, namely bovine serum albumin (BSA), is described. The composition and the structure of these hydrogels have been investigated on the basis of the molar ratio of reagents, and through measurements of PEG and BSA released during washing and swelling steps. It appears that an excess of activated PEG is required in the reaction mixture to allow the gel formation with PEG of molecular mass ranging from 3,350 to 10,000. Above these M r of PEG, smaller amounts of PEG are needed to carry out the gel formation. Experimental results suggest that the cross-link density decreases when the molecular mass of PEG increases. These hydrogels are characterized by a very high swelling ability with equilibrium water contents (EWC) ranging from 96.6 to 97.5% in distilled water containing NaN 3 at 0.02% (w/v). The swelling factors (SF) ranged from 14 to 40 according to the incubation medium and to the PEG molecular mass involved. The swelling rates increased with increasing PEG molecular mass used to synthesize the hydrogel. This family of hydrogels possesses a good porosity since diffusion of bovine serum albumin out of the hydrogel network was observed in a long-term period.
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