In vivo degradation and biocompatability study of in vitro pre-degraded as-polymerized polylactide particles

## Abstract Segmented poly(urethane urea)s (PUUs) with hard segments derived only from methyl 2,6‐diisocyantohexanoate (LDI) without the use of a chain extender have previously been described. These materials, which contain hard segments with multiple urea linkages, show exceptionally high strain c

## Abstract Aliphatic segmented poly(ester amide)s, comprising a crystallizable amide phase and a flexible amorphous ester phase, were investigated for potential use in biomedical applications. By varying the amide content and the type of crystallizable amide segments, the polymer's thermal and mec

## Abstract The biological safety of degradation products from degradable biomaterials is very important. In this study a new method is proposed to test the cytotoxicity of these degradation products with the aim to save time, laboratory animals, and research funds. A biodegradable polyurethane (PU

## Abstract This study was aimed at evaluating the __in vitro__ degradation, the __in vivo__ biocompatibility and at comparing the effects of two methods of sterilization on poly(L‐lactic acid) (PLA~94~) resorbable mesh. The mesh was manufactured to be used as surgical soft tissue reinforcement in