摘要:
The present invention relates to a prosthetic fabric (5) comprising an arrangement (2) of yarns that define at least first and second opposite faces (2a, 2b) for said fabric, said fabric comprising on at least said first face, one or more barbs (3) that protrude outwards relative to said first face, said fabric being covered, at least partly, on said second face with a microporous layer made of a bioresorbable material, said barbs being covered with a coating made of a water-soluble material. The invention also relates to a process for obtaining such a fabric and to prostheses obtained from such a fabric.
摘要:
In embodiments, medical devices, such as balloon catheters, can deliver a biologically active material to body tissue of a patient. The medical device includes a sponge delivery layer which can deliver multiple doses of one or more therapeutic agents to the body tissue. The medical device can further include a drug reservoir, which can supply the delivery layer with one or more therapeutic agents.
摘要:
The core-sheath implant device allows for a bioactive agent release profile that can be tailored to a particular therapy. The device features one or more lobes extending from an inner core at least partially through the outer sheath. Depending on the particular design of such an implant device, a variety of release profiles can be achieved.
摘要:
This invention is directed to a coating for a medical device, such as an intravascular stent, in which the coating, which comprises a first coating region comprising an adhesion promoter and a therapeutic agent. The coating can also include a second coating region which is substantially free of the adhesion promoter or any adhesion promoter. The invention is also directed to a method for manufacturing such a coated medical device.
摘要:
An endoprosthesis such as a coronary stent includes a luminal surface, at least a portion of which is covered with a first coating including a first drug, and an abluminal surface, at least a portion of which is covered with a second coating including a second drug. The first drug has a first eluting profile based on the first coating, and the second drug has a second eluting profile based on the second coating, the first eluting profile being different from the second eluting profile. Methods of making the same are also provided.
摘要:
A method of manufacturing a coated medical device, includes applying a first low-friction coating to a surface of the medical device. The first low-friction coating includes a first colored pigment, such as a relatively light colored pigment. After applying the first low-friction coating, a suitable laser and laser energy is selectively applied to different areas of the coated medical device. The laser ablates or removes the first low-friction coating (at the different areas of the medical device) to leave the bare metal substrate of the medical device exposed. After selectively removing one or more portions of the first low-friction coating, a second low-friction coating is applied to the exposed bare metal substrate of the medical device and suitably cured. The second low-friction coating includes a second colored pigment, such as a relatively dark colored pigment, wherein the second colored pigment contrasts the first colored pigment of the first low-friction coating.
摘要:
This invention relates to a method for coating a medical device comprising the steps of applying to at least a portion of the surface of said medical device, an antimicrobial coating layer and a non-pathogenic bacterial coating layer, wherein the antimicrobial and non-pathogenic bacterial coating layers inhibit the growth of pathogenic bacterial and fungal organisms. The non-pathogenic bacterium used in the bacterial coating layer is resistant to the antimicrobial agent. Furthermore, the non-pathogenic bacterium layer includes at least one of the following: viable whole cells, non-viable whole cells, or cellular structures or extracts. The antimicrobial agent and non-pathogenic bacterium are used to develop a kit comprising these compositions in one container or in separate containers. The kit is used to coat a catheter prior to implantation in a mammal.
摘要:
This invention relates to a method for preparing a drug-eluting stent using a chemical vapor deposition, the method comprising modifying the surface of a biodegradable polymer with nanostructures through a plasma-assisted chemical vapor deposition so as to improve drug-loading capability and drug elution rate.
摘要:
The medical articles which including the following: (a) a ceramic or metallic region whose surface includes a plurality of depressions, (b) a multilayer coating region including multiple polyelectrolyte layers deposited over the surface of the ceramic or metallic region; and (c) a therapeutic agent disposed beneath or within the multilayer coating region. According to another aspect of the present invention, medical articles are provided, which include: (a) a ceramic or metallic region, (b) a multilayer coating region including multiple polyelectrolyte layers deposited over a surface of the ceramic or metallic region, the multilayer coating region including a plurality of protuberances; and (c) a therapeutic agent disposed within regions beneath the protuberances. Also described herein are methods of making such medical articles, and methods of administering a therapeutic agent to a patent using such medical articles.
摘要:
A method for depositing a coating comprising a polymer and at least two pharmaceutical agents on a substrate, comprising the following steps: providing a stent framework; depositing on said stent framework a first layer comprising a first pharmaceutical agent; depositing a second layer comprising a second pharmaceutical agent; Wherein said first and second pharmaceutical agents are selected from two different classes of pharmaceutical agents.