Poly (vinyl alcohol) hydrogel
a technology of polyvinyl alcohol and hydrogel, which is applied in the direction of prosthesis, blood vessels, aerosol delivery, etc., can solve the problems of reducing the biocompatibility of hydrogel biomaterials, affecting the mechanical strength of the hydrogel, and affecting the biocompatibility of the hydrogel
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example 2
[0049] A 25.9% by weight poly(vinyl alcohol) solution was prepared by mixing poly(vinyl alcohol) polymer (124,000-186,000 Av. MW), 99+% saponification, in deionized, sterile water. As with Example 1, the mixture was placed in a loosely capped container, heated, sealed removed from the autoclave, placed under a sterile ventilation hood, stirred to ensure a homogenous solution, poured into sterile syringes, and injected into the molds according to the process of Example 1. In this example, however, the tube was then subjected to ten (10) cycles of freezing and thawing. The freeze / thaw cycles were similar to that of Example 1, except that the sample was allowed to cool for about 24 hours for each freeze / thaw cycle. The tube was then thawed by removing the tube from the freezer and setting it upright under ambient conditions. The tube was allowed to thaw for about 12 hours before being returned to the freezer for another cycle. The resulting PVA biomaterial was stiff and strong with a b...
example 3
[0050] A 15% by weight poly(vinyl alcohol) solution was prepared by mixing poly(vinyl alcohol) polymer (89,000-98,000 Av. MW), 99+% saponification, in deionized, sterile water in a manner substantially identical with Example 1 except for the following differences. As with Example 1, the mixture was placed in a loosely capped container, heated, sealed removed from the autoclave, placed under a sterile ventilation hood, stirred to ensure a homogenous solution, poured into sterile syringes, and injected into the molds according to the process of Example 1. In this example, however, the tube was then subjected to five (5) cycles of freezing and thawing. The freeze / thaw cycles were similar to that of Example 1, in that each sample was allowed to cool for about 12 hours for each freeze / thaw cycle. The resulting PVA biomaterial was soft with a burst pressure of approximately 98 mm Hg.
example 4
[0051] A 25-30% by weight poly (vinyl alcohol) solution was prepared by mixing poly (vinyl alcohol) polymer (124,000-186,000 Av. MW) in sterile water or saline (0.9% Na Cl) in a manner substantially identical with Example 1 except for the following differences. The mixture is heated at 95-100.degree. C. under atmospheric pressure to bring the mixture to a uniform fluid. This fluid is then poured into molds and frozen to -20.degree. C. for four hours. Next, the material is thawed to 20.degree. C. This freeze-thaw cycle is repeated until six cycles have been achieved. The material is, at least partially, removed from the mold, immersed, at least in part, and the freeze-thaw cycle is repeated until four additional cycles have been achieved. As an alternative to at least partially removing the material from the mold, the mold may be partially filled with fluid mixture, thereby allowing for expansion. The resultant PVA hydrogel construct is then ready for packaging and sterilization. Thi...
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