The invention provides a chaperone/usher family polymer comprising at least one chaperone/usher family polypeptide monomer, wherein said at least one chaperone/usher family polypeptide monomer comprises an exogenous bioactive sequence.

A system and a method of preventing or reducing stenosis in a subject is provided. The method includes implanting a passivated graft comprising vein into an artery. The implanting of the graft replaces and/or bypasses a diseased segment of the artery. The passivated graft including vein is prepared by exposing the exterior surface of the passivated graft comprising vein to a tissue structure stabilizing agent (TSSA) under conditions, including irradiation with light, sufficient to promote cross-linking of proteins within the vein.

The purpose of this invention is to provide an anti-adhesion material having a high anti-adhesion effect, pertaining to an anti-adhesion material comprising a biocompatible sponge-like layered body having a sponge-like first layer and a sponge-like second layer both being at least partially crosslinked with a curing agent and comprising a low endotoxin monovalent metal salt of alginic acid. The monovalent metal salt of alginic acid in the first layer has a weight average molecular weight of 30000 to 300000. The monovalent metal salt of alginic acid in the second layer has a weight average molecular weight of 1000 to 200000. The weight average molecular weights are determined by GPC-MALS after a de-crosslinking treatment. The weight average molecular weight of the monovalent metal salt of alginic acid in the first layer is higher than the weight average molecular weight of the monovalent metal salt of alginic acid in the second layer.

Provided are a temperature sensitive adhesion prevention composition and a method for producing the same, the composition comprising a polyethylene oxide (PEO) containing copolymer, a carboxy polysaccharide, and a monovalent cation.

Intraperitoneal administration of glutamine to reduce adhesions in the peritoneum of a patient.

Compositions and methods are provided for preparing an adhesion barrier in the form of a foldable or flexible biodegradable polymer matrix that effectively reduces, prevents or treats adhesions in a patient in need thereof. In one embodiment, the matrix comprises a first porous layer comprising collagen and a second porous layer comprising collagen and dextran, wherein the dextran is loaded in the second layer in an amount of from about 5% to about 90% by weight based on a total weight of the matrix. In some embodiments, the matrix prevents or reduces cell growth into the matrix so as to reduce or prevent adhesions. In some embodiments, the matrix is in a sheet or strip form that can be folded into a tube form.

A method for preparing a chitosan complex film comprises: (1) reacting polyvinyl alcohol-124 with butanedioic anhydride to obtain a modified polyvinyl alcohol; (2) formulating the modified polyvinyl alcohol-124 into a 0.4 wt % aqueous solution, then adding the aqueous solution containing 0.4 wt % of modified polyvinyl alcohol-124 dropwise into an acetic acid solution at a concentration of 0.4 wt % chitosan to obtain a mixed solution; (3) adjusting the pH value of the mixed solution with a 0.01 wt % NaOH solution to pH 5.5, and removing surface bubbles after standing for one hour to obtain a casting solution; (4) pouring the casting solution into a culture dish, placing the culture dish into an oven at 60 C. and drying to a constant weight to obtain the chitosan complex film. The materials used in the method are inexpensive, and the reaction is not complicated, so the cost of the product is not high.

This invention provides a kit for making an adhesive and/or a sealant which includes: a first composition of alginate and a multivalent cation salt at a concentration ratio (mg/ml) of 30:1 to 1:60, and a second composition of alginate and a buffer, wherein the buffer has a pH value of between 2 to 7. The invention also provides a method for making a sealant or an adhesive, by contacting the first composition and the second composition.

Compositions and methods are provided for preparing an adhesion barrier in the form of a foldable or flexible biodegradable polymer matrix that effectively reduces, prevents or treats adhesions in a patient in need thereof. In one embodiment, the matrix comprises a first porous layer comprising collagen and a second porous layer comprising collagen and dextran, wherein the dextran is loaded in the second layer in an amount of from about 5% to about 90% by weight based on a total weight of the matrix. In some embodiments, the matrix prevents or reduces cell growth into the matrix so as to reduce or prevent adhesions. In some embodiments, the matrix is in a sheet or strip form that can be folded into a tube form.

The present invention provides single sheet and compound para-xylene films for therapeutic uses. For example, the present invention provides single sheet para-xylene films useful as tissue separators and/or adhesion barriers in a subject, where the top and/or bottom surfaces of such films have a water contact angle between 75 and 95 degrees (e.g., to prevent adhesion formation). The present invention also provides compound films composed of at least two para-xylene polymer films with a therapeutic molecule layer in between. Such compound films, when used in vivo (e.g., as a tissue separator and to treat inflammation or atrial fibrillation) allow either therapeutic molecule elution through one of the para-xylene layers, or therapeutic molecule release when the compound film is pierced, such as when it is sutured in place.