Abstract: The present disclosure provides copolymers useful in medical devices. For example, the disclosure provides copolymers comprising the polymerization product ester block, ether blocks and diisocyanates. In certain embodiments, the disclosure provides a medical copolymer for implantation comprising ester blocks and ether blocks, wherein: the ester blocks comprise a negative free energy transfer and the ether blocks comprise a positive free energy transfer, the ether and ester blocks are less than 1/10 the length of said copolymer, and, the blocks are distributed such that no domain of contiguous blocks possessing the same polarity of free energy transfer are less than ? of the molecular weight of the copolymer. The disclosure further provides methods of making the aforementioned polymers, and medical devices comprising the polymers.

Abstract: The present disclosure provides a medical assembly comprising a surgical barrier aspect comprising polylactic acid, and a hydrophilic mucoadhesive aspect, wherein the surgical barrier aspect is provided on a first side of the assembly and the mucoadhesive aspect is provided on a second side of the assembly. The disclosure also relates to a medical assembly comprising a surgical barrier aspect, a short term mucoadhesive aspect, an intermediate term protein polymerization adhesive aspect, and a long term tissue ingrowth implant localization aspect. The aforementioned medical assemblies may be provided as layered sheet structures. Also provided are methods for preparing a medical assembly.

Abstract: Described are mono- and bi-layer alginate post-surgical anti-adhesion barriers with tailored absorption profiles and non-migrating characteristics. Muco-adhesive properties of alginates in their solid state are used to localize the device, and lubricious properties of alginates in their liquid state are used to mitigate adhesion formation during wound healing. In addition, the design of the implant can be selected such that the crosslinking agent is released from the device under specific conditions and the absorbance profile modified. A medicinal agent may optionally be incorporated.

Abstract: Precut, user-shapeable, resorbable polymer micro-membranes are disclosed. The micro-membranes are constructed of resorbable polymers, which are engineered to attenuate adhesions and to be absorbed into the body relatively slowly over time. The membranes can formed to have very thin thicknesses, for example, thicknesses between about 0.010 mm and about 0.300 mm, while maintaining adequate strength. The membranes can be extruded from polylactide polymers having a relatively high viscosity property, can be stored in sterile packages, and can be preshaped with relatively high reproducibility during implantation procedures.

Abstract: A block copolymer containing a) a hydrophobic biodegradable polymer, b) a hydrophilic polymer and c) at least one reactive group for covalent binding of a surface-modifying substance d) to the hydrophilic polymer b) is disclosed. Shaped bodies are formed to consist of the block copolymer and are utilized as carriers for tissue culture and active substances and for controlled release and targeted administration of active substances.