The invention relates to a method of reducing or preventing the adsorption of a polypeptide on a surface, or the aggregation of a polypeptide in a liquid composition in contact with a surface comprising the steps of a) providing a composition comprising the polypeptide and at least two different amino acids; b) contacting the composition with the surface. Furthermore, the invention relates to medical devices comprising a composition comprising the polypeptide and at least two different amino acids.

An anti-aggregation agent of the present invention contains, as an anti-aggregation ingredient, at least one selected from the group consisting of polyoxyethylene cetyl ether, polyoxyethylene sorbitan fatty acid esters, polyoxyethylene polyoxypropylene glycols having an average molecular weight of 3000 to 13000 and combinations thereof. According to the present invention, in a container whose inner wall is treated with silicone oil, aggregation of a poorly water-soluble drug caused by the silicone oil can be prevented.

An anti-aggregation agent of the present invention contains, as an anti-aggregation ingredient, at least one selected from the group consisting of polyoxyethylene cetyl ether, polyoxyethylene sorbitan fatty acid esters, polyoxyethylene polyoxypropylene glycols having an average molecular weight of 3000 to 13000 and combinations thereof. According to the present invention, in a container whose inner wall is treated with silicone oil, aggregation of a poorly water-soluble drug caused by the silicone oil can be prevented.

An intraluminal endoprosthesis such as a stent has a metallic supporting structure and a sleeve surrounding the supporting structure. The sleeve can include fibres which are applied to an outer side of the supporting structure. The fibres each have a polymer core and a hydrogel casing connected thereto. The sleeve can also be formed from a fibre mixture of polymer and hydrogel fibres.

An intraluminal endoprosthesis such as a stent has a metallic supporting structure and a sleeve surrounding the supporting structure. The sleeve can include fibres which are applied to an outer side of the supporting structure. The fibres each have a polymer core and a hydrogel casing connected thereto. The sleeve can also be formed from a fibre mixture of polymer and hydrogel fibres.

An intraluminal endoprosthesis such as a stent has a metallic supporting structure and a sleeve surrounding the supporting structure. The sleeve can include fibres which are applied to an outer side of the supporting structure. The fibres each have a polymer core and a hydrogel casing connected thereto. The sleeve can also be formed from a fibre mixture of polymer and hydrogel fibres.

A method for preparing a laminate coronary stent comprising: providing a stent framework; and depositing a plurality of layers on said stent framework to form said laminate coronary stent; wherein at least one of said layers comprises a bioabsorbable polymer.

A method for preparing a laminate coronary stent comprising: providing a stent framework; and depositing a plurality of layers on said stent framework to form said laminate coronary stent; wherein at least one of said layers comprises a bioabsorbable polymer.

A barrier layer and corresponding method of making provide anti-inflammatory, non-inflammatory, and anti-adhesion functionality for a medical device implantable in a patient. The barrier layer can be combined with a medical device structure to provide anti-adhesion characteristics, in addition to improved healing, non-inflammatory, and anti-inflammatory response. The barrier layer is generally formed of a naturally occurring oil, or an oil composition formed in part of a naturally occurring oil, that is at least partially cured forming a cross-linked gel. In addition, the oil composition can include a therapeutic agent component, such as a drug or other bioactive agent.

A barrier layer and corresponding method of making provide anti-inflammatory, non-inflammatory, and anti-adhesion functionality for a medical device implantable in a patient. The barrier layer can be combined with a medical device structure to provide anti-adhesion characteristics, in addition to improved healing, non-inflammatory, and anti-inflammatory response. The barrier layer is generally formed of a naturally occurring oil, or an oil composition formed in part of a naturally occurring oil, that is at least partially cured forming a cross-linked gel. In addition, the oil composition can include a therapeutic agent component, such as a drug or other bioactive agent.