The present invention provides compositions for extended release of an active ingredient, comprising a lipid-saturated matrix formed from a biodegradable polymer. The present invention also provides methods of producing the matrix compositions and methods for using the matrix compositions to provide controlled release of an active ingredient in the body of a subject in need thereof.

A method of forming a silicone coating on an electrode carrier for use in cochlear implant systems includes dissolving silicone and dexamethasone in a solvent to form a solution, adding a non-solvent to the solvent, the non-solvent miscible with the silicone and the dexamethasone having a solubility in the non-solvent of below about 5 mg/ml, and curing the solution to form the silicone coating on the electrode carrier.

Provided is a lyophilized implant configured to fit at or near a bone defect to promote bone growth, the lyophilized implant containing a biodegradable polymer in an amount of about 0.1 wt. % to about 20 wt. % of the implant, mineral particles in an amount from about 0.1 wt. % to about 75 wt. % of the implant, and an oxysterol in an amount of about 5 wt. % to about 90 wt. % of the implant. Methods of making and using the implant are further provided.

A percutaneous access device (PAD) is provided with a reduced likelihood of dislodgment that requires a reduced implantation incision so as to increase the rate of healing and reducing related infection. The PAD has a transdermal anchor in the form of flanged wings that are deployed following the implantation of the device in a patient. A deployment tool is provided to insert the PAD into the subject, and to actuate the flanges. The deployment tool protects the surface of the PAD with an outer cylindrical wall during insertion. The deployment tool has a stabilizer handle that is keyed with a key for insertion into the body or channel of the PAD. The stabilizer key stabilizes the PAD and prevents the PAD from rotating when the outer cylinder is rotated to turn an intermediate disc ring to actuate the flanges outward.

The present invention relates to a coating system for medical devices comprising at least one cellulose compound or derivative thereof alone or in combination with other substances. The coating system may further comprise at least one active ingredient intended to treat a disease and the coating has favorable drug eluting properties. The present invention has applications in implantable or non-implantable medical devices such as balloons, stents, grafts, patches and implants of all kinds.

Provided is a compression resistant implant configured to fit at or near a bone defect to promote bone growth. The compression resistant implant comprises a biodegradable polymer in an amount of about 0.1 wt % to about 20 wt % of the implant and a freeze-dried oxysterol in an amount of about 5 wt % to about 90 wt % of the implant. Methods of making and use are further provided.

Provided is an implant configured to fit at or near a bone defect to promote bone growth, the implant comprising: a biodegradable polymer in an amount of about 0.1 wt % to about 20 wt % of the implant and an oxysterol in an amount of about 20 wt % to about 90 wt % of the implant. The implant has a high oxysterol load. Methods of making and use are further provided.

Provided is a slow release composition to promote bone growth, the slow release composition comprising: an oxysterol encapsulated in a biodegradable polymer to control the release of the oxysterol. Methods of making and use are further provided.

An implantable medical instrument is made of an iron-based alloy, comprising an iron-based alloy substrate and a drug-loaded coating. The drug-loaded coating comprises a polymer and an active drug; the weight average molecular weight of the polymer is greater than or equal to 50,000 and less than or equal to 1,000,000; micro-pores having a diameter of less than or equal to 10 micrometers are formed in the drug-loaded coating; the percentage of the active drug released on the implantable medical instrument made of an iron-based alloy is greater than or equal to 4t.sup.1/21 and less than or equal to 6.9t.sup.1/2+63, wherein t (0, 28], and t represents sampling time/days.

Provided is a compression resistant implant configured to fit at or near a bone defect to promote bone growth, the compression resistant implant comprising porous ceramic particles in a biodegradable polymer, and an oxysterol disposed in or on the compression resistant implant. Methods of making and use are further provided.