| MIV THERAPEUTICS, INC. Patent applications |
| Patent application number | Title | Published |
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| 20110054595 | METHOD OF COATING MEDICAL DEVICES - Disclosed herein are medical devices, such as stents, comprising a porous substrate, such as a porous ceramic. Also disclosed herein are methods for impregnating the porous substrate with a composition comprising at least one lipid and at least one pharmaceutically active agent, where the porous substrate is microporous and/or nanoporous. | 03-03-2011 |
| 20100217377 | CALCIUM PHOSPHATE COATED STENTS COMPRISING COBALT CHROMIUM ALLOY - Disclosed herein are medical devices, such as stents, coated with calcium phosphate and processes for making the same. The stent can comprise a cobalt chromium alloy that has been treated to improve surface adhesion to the calcium phosphate and/or improve surface finish properties. A pharmaceutically active agent can be present in the calcium phosphate coating. | 08-26-2010 |
| 20100018865 | ELECTROLYTE SOLUTION AND METHOD FOR ELECTROLYTIC CO-DEPOSITION OF THIN FILM CALCIUM PHOSPHATE AND DRUG COMPOSITES - Disclosed herein are electrolyte solutions and methods for electrolytic co-deposition of calcium phosphate and drug composites. The electrolyte solution may be formed by mixing solutions comprising calcium and phosphate precursors together to form an electrolyte solution. The electrolyte solution can have a water content less than 30 weight percent. The electrolyte solution may comprise a water-soluble non-aqueous solvent. A therapeutic agent, such as water-insoluble drug, is also present in the solution. The electrolyte solution thus formed may be used to co-deposit a calcium phosphate coating and the therapeutic agent on a substrate. One method includes the steps of immersing the substrate in the electrolyte solution and applying an electrical potential to the substrate to thereby cause (i) the calcium and phosphate precursors to electrochemically react with hydroxyl groups on the surface of the substrate and deposit the calcium phosphate coating thereon; and (ii) the therapeutic agent to electrophoretically migrate to the substrate and become co-deposited thereon together with the calcium phosphate coating. The method thus provides a convenient and easily controllable means for depositing thin film calcium phosphate and drug composites on substrates such as implantable medical devices. | 01-28-2010 |
| 20090197975 | COMPOSITIONS FORMULATED FOR SOLVENT-REGULATED DRUG RELEASE - This application relates to a composition comprising a mixture of different organic solvents formulated for controlled drug release. The release profile of the drug can be regulated by adjusting the compositional ratios of the solvents. In one embodiment of the invention a first solvent is water-soluble and a second solvent is water-insoluble. The first and second solvents are miscible and together form a solution containing the drug. The hydrophobicity of the composition can be adjusted by altering the relative amount of the second solvent. The composition also includes a solid lipid dissolved in the drug-containing solution. In aqueous environments the lipid may precipitate to form a thin membrane in an outer surface portion of the composition, thereby further regulating the release of the drug. The membrane is preferably renewable. That is, as the outermost portion of the lipid is biodegraded at a target location in vivo, additional outer portions of the lipid precipitate to renew the thin membrane. The composition may be formulated, for example, as a suspension, nanoparticle, microparticle, paste or thin film coating. In one particular embodiment, the composition may be applied to an implantable medical device, such as a cardiovascular stent. | 08-06-2009 |
| 20090132030 | Method Of Modifying A Metal Substrate To Improve Surface Coverage Of A Coating - This application relates to a method of modifying the surface of a metal substrate to improve the surface coverage of a coating applied to the substrate. The method comprises heating at least the surface of the substrate to a temperature within the range of approximately 175-400° C.; and applying at least one layer of the coating to the substrate. In one particular embodiment the substrate is heated to a temperature within the range of 200-350° C. The low temperature heating enhances the hydrophilicity of the metal substrate while avoiding the disadvantages of high temperature thermal oxidation. | 05-21-2009 |
| 20090099651 | LIPID COATINGS FOR IMPLANTABLE MEDICAL DEVICES - Disclosed herein are medical devices, such as stents, comprising a porous substrate, and a composition coating and/or impregnating the porous substrate where the composition comprises a bioresorbable carrier (e.g., at least one lipid) and at least one pharmaceutically active agent. | 04-16-2009 |
