摘要:
In accordance with one aspect, the invention relates to medical devices which comprise at least one reservoir, a therapeutic-agent-containing region disposed within the reservoir and an electrode comprising a conductive polymer. The devices of the invention are configured such that a rate of release of the therapeutic agent from the reservoir changes upon a change in the oxidation state of the conductive polymer.
摘要:
In accordance with one aspect, the invention relates to medical devices which comprise at least one reservoir, a therapeutic-agent-containing region disposed within the reservoir and an electrode comprising a conductive polymer. The devices of the invention are configured such that a rate of release of the therapeutic agent from the reservoir changes upon a change in the oxidation state of the conductive polymer.
摘要:
A medical implant includes a bioerodible portion that includes a bioerodible polymer and a bioerodible metal. The bioerodible polymer matrix degrades under physiological conditions to form acidic degradation products. The bioerodible metal degrades under physiological conditions to form basic degradation products. The acidic degradation products and the basic degradation products buffer at least a portion of the medical implant. In one aspect, the bioerodible portion includes a bioerodible polymer matrix and a bioerodible metal within the bioerodible polymer matrix. In another aspect, the medical implant can include a body, a plurality of discrete deposits of the bioerodible polymer on the body, and a plurality of discrete deposits of the bioerodible metal on the body.
摘要:
Among other things, a bio-erodible implantable endoprosthesis comprises a member that includes (a) a core having a surface, and (b) a bio-erodible metal on a least a portion of the surface of the core, wherein the bio-erodible metal erodes more slowly than the core and includes openings through which physiological fluids can access the core upon implantation.
摘要:
Medical devices, such as endoprostheses, and methods of making the devices are described. In some embodiments, a medical device includes a body of interconnected bands and connectors forming an elongated tubular structure having an inner luminal wall surface and an outer abluminal wall surface and defining a central lumen or passageway. The inner luminal wall surface and side wall surface of the bands and connectors forming transverse passageways through the elongated tubular structure can bear a coating of hydrophilic material and the outer abluminal wall surface of the tubular structure can bear a coating of hydrophobic material.
摘要:
According to an aspect of the present invention, medical devices are provided, which are adapted for implantation or insertion into a subject and which include at least one multilayer region that contains multiple charged layers of alternating charge. The multiple charged layers, in turn, include the following: (i) at least one charged block copolymer (e.g., a charged block copolymer that contains one or more polyelectrolyte blocks) and (ii) at least one charged therapeutic agent (e.g., a charged therapeutic agent that contains one or more polyelectrolyte blocks).
摘要:
A medical implant includes a bioerodible portion that includes a bioerodible polymer and a bioerodible metal. The bioerodible polymer matrix degrades under physiological conditions to form acidic degradation products. The bioerodible metal degrades under physiological conditions to form basic degradation products. The acidic degradation products and the basic degradation products buffer at least a portion of the medical implant. In one aspect, the bioerodible portion includes a bioerodible polymer matrix and a bioerodible metal within the bioerodible polymer matrix. In another aspect, the medical implant can include a body, a plurality of discrete deposits of the bioerodible polymer on the body, and a plurality of discrete deposits of the bioerodible metal on the body.
摘要:
Among other things, a bio-erodible implantable endoprosthesis comprises a member that includes (a) a core having a surface, and (b) a bio-erodible metal on a least a portion of the surface of the core, wherein the bio-erodible metal erodes more slowly than the core and includes openings through which physiological fluids can access the core upon implantation.