Patent application number | Description | Published |
20140105957 | BIS-(ALPHA-AMINO-DIOL-DIESTER) CONTAINING POLYESTERAMIDE FOR OPHTAMOLOGY - The present invention relates to an ocular polymer delivery composition comprising at least one ophthalmologic agent dispersed in at least one biodegradable polymer, wherein the polymer comprises at least one of a poly (ester amide) (PEA) having a chemical formula described by structural formula (I). | 04-17-2014 |
20140120170 | PARTICLES COMPRISING POLYESTERAMIDE COPOLYMERS FOR DRUG DELIVERY - The present invention relates to micro- or nanoparticles comprising a polyesteramide (PEA) having a chemical formula described by structural formula (IV), Formula (IV) wherein —m+p varies from 0.9-0.1 and q varies from 0.1 to 0.9 —m+p+q=1 whereby m or p could be 0-n is about 5 to about 300; (pref 50-200) —R | 05-01-2014 |
20140179802 | FIBER COMPRISING A BIODEGRADABLE POLYMER - The present invention relates to a fiber comprising a biodegradable polymer which undergoes dimensional change upon injection in the human or animal body wherein the dimensional change is a reduction of the surface area to volume ratio of a factor 2 to 10. The fiber is sized for injection via a pharmaceutical syringe needle having a bore of at least 25 Gauge. The biodegradable polymer is an amorphous biodegradable polymer selected from the group of poly-hexamethylene carbonates or polyesteramides. The amorphous biodegradable polymer is a preferably a polyesteramide comprising alpha-amino acids, diols and dicarboxylic acids as building blocks. The invention further relates to the use of the fiber for the manufacturing of a medicament for the treatment of ophthalmic diseases. The invention also relates to a process for the manufacturing of the fiber comprising the following process steps; a. extruding a biodegradable polymer into a fiber fitting in a needle of at least 25 Gauge b. which while under tension is cooled below its glass transition temperature such that the resultant fiber is amorphous. | 06-26-2014 |
20140220099 | BIODEGRADABLE POLYESTERAMIDE COPOLYMERS FOR DRUG DELIVERY - The present invention relates to a poly (ester amide) (PEA) having a chemical formula described by structural formula (IV), wherein m+p varies from 0.9-0.1 and q varies from 0.1 to 0.9 m+p+q=1 whereby m or p could be 0 n is about 5 to about 300; (pref. 50-200) R | 08-07-2014 |
20150216987 | DRUG DELIVERY COMPOSITION COMPRISING PROTEINS AND BIODEGRADABLE POLYESTERAMIDES - The present invention relates to a drug delivery composition comprising proteins and biodegradable polymers. The present invention further relates to a drug delivery system for controlled and long term release of proteins into a biological environment. The drug delivery composition comprises at least a protein and a biodegradable polymer possessing at least two different functional groups selected from the group of chosen among carboxyl-, ester-, amine-, amide-, thiol-, thioester- or hydroxyl groups pendant to the main polymer chain whereby the composition absorbs between 5-10% w/w water when exposed to physiological conditions for at least 20 days. The present invention further relates to a drug delivery system for controlled protein release comprising the composition. The drug delivery system may be chosen from microparticles, films, coatings, fibers, pellets, cylinders, discs, implants, microcapsules, microspheres, nanospheres, wafers, micelles, liposomes or woven or non-woven fabrics. | 08-06-2015 |
20150240387 | FIBERS COMPRISING POLYESTERAMIDE COPOLYMERS FOR DRUG DELIVERY - The present invention relates to fibers comprising a polyesteramide (PEA) having a chemical formula described by structural formula (IV), wherein m+p varies from 0.9-0.1 and q varies from 0.1 to 0.9, m+p+q=1 whereby m or p could be 0, n is about 5 to about 300; (pref. 50-200), —R | 08-27-2015 |
20150328374 | COATING COMPRISING POLYESTERAMIDE COPOLYMERS FOR DRUG DELIVERY - The invention relates to a coating comprising a biodegradable polymer comprising at least two different functional groups pendant to the polymer backbone, which functional groups are selected from the group of carboxyl-, amine, hydroxyl, ester, amide-, thiol- or thioester groups. The two different functional groups comprise at least an unprotected hydrophilic functional group chosen from a carboxyl-, amine, thiol or hydroxyl group and at least a protected hydrophobic functional group chosen from an ester, amide- or thioester group. The invention further relates to an implantable device comprising the coating composition. The implantable device is includes cardiac pacemakers and defibrillators; leads and electrodes for the preceding, organ stimulators such as nerve, bladder, sphincter and diaphragm stimulators, prostheses, rods, vascular grafts, self-expandable stents, balloon-expandable stents, stent-grafts, grafts, catheters, artificial heart valves and cerebrospinal fluid shunts. | 11-19-2015 |
20160102176 | FIBER COMPRISING A BIODEGRADABLE POLYMER - The present invention relates to a fiber comprising a biodegradable polymer which undergoes dimensional change upon injection in the human or animal body wherein the dimensional change is a reduction of the surface area to volume ratio of a factor 2 to 10. The fiber is sized for injection via a pharmaceutical syringe needle having a bore of at least 25 Gauge. The biodegradable polymer is an amorphous biodegradable polymer selected from the group of poly-hex am ethylene carbonates or polyesteramides. The amorphous biodegradable polymer is a preferably a polyesteramide comprising alpha-amino acids, diols and dicarboxylic acids as building blocks. The invention further relates to the use of the fiber for the manufacturing of a medicament for the treatment of ophthalmic diseases. The invention also relates to a process for the manufacturing of the fiber comprising the following process steps; a. extruding a biodegradable polymer into a fiber fitting in a needle of at least 25 Gauge b. which while under tension is cooled below its glass transition temperature such that the resultant fiber is amorphous. | 04-14-2016 |