Recber
Ali Recber, Piscataway, NJ US
Patent application number | Description | Published |
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20090198237 | METHOD FOR AUGMENTING, REDUCING, AND REPAIRING BONE WITH THERMOPLASTIC MATERIALS - The present invention is directed to an improved nail and an associated method for implanting the nail into a patient's bone. The nail preferably includes a proximal end, a distal end, a plurality of spiral blades (e.g., vanes) and a cannulated bore extending from the proximal end to the distal end so that in use an injectable material such as, for example PCL material, can be injected into the patient's bone through the cannulated bore formed in the nail. The nail also preferably includes a cutout portion at the distal end thereof in order to direct the outflow of injectable material through the cannulated bore. The cutout portion preferably is configured to facilitate the injectable material outflowing past the distal end of the nail and superiorly of the nail when the nail is properly implanted and positioned in situ. | 08-06-2009 |
20110045087 | POROUS BIOCOMPATIBLE POLYMER MATERIAL AND METHODS - Embodiments described include devices and methods for forming a porous polymer material. Devices disclosed and formed using the methods described include a spacer for spinal fusion, craniomaxillofacial (CMF) structures, and other structures for tissue implants. | 02-24-2011 |
20140207237 | Porous Biocompatible Polymer Material and Methods - Embodiments described include devices and methods for forming a porous polymer material. Devices disclosed and formed using the methods described a spacer for spinal fusion, craniomaxillofacial (CMF) structures, and other structures for tissue implants. | 07-24-2014 |
Ali Cem Recber, Piscataway, NJ US
Patent application number | Description | Published |
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20130023879 | METHOD FOR AUGMENTING, REDUCING, AND REPAIRING BONE WITH THERMOPLASTIC MATERIALS (AS AMENDED) - A method for augmenting a tissue including introducing into the tissue a first thermoplastic material at a first condition; treating the first thermoplastic material to achieve a second condition that includes an at least partially crystalline skin; and introducing a second material into the tissue whereby the first thermoplastic material and the second material are contained by the at least partially crystalline skin. Also a method of fracture reduction in a tissue including exposing to gamma radiation a mass of polycaprolactone characterized by a first shape; heating the mass of irradiated polycaprolactone above its melting temperature; introducing the heated mass of polycaprolactone into the tissue annulus to deform it from the first shape; allowing the material to return to the first shape. | 01-24-2013 |
Ali Cem Recber, West Chester, PA US
Patent application number | Description | Published |
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20130304217 | Cutting/Bending Tool For Polymer Implant - A first tool is configured to cut a polymer implant, and includes a handle, a cutting portion, and a bending portion. A second tool is configured to cut a polymer implant, and includes a handle, a first cutting portion, and a second cutting portion. The cutting portions contain a cutter that is preferably a blade. In the second tool, the blades are preferably angled with respect to each other between about 45°. The tools can be used to reshape an implant that is to be used to replace a portion of a skull. | 11-14-2013 |
Ali Cem Recber, Coatesville, PA US
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20160128823 | POROUS IMPLANT MATERIALS AND RELATED METHODS - Provided are porous, biocompatible implant bodies and materials. These materials suitably comprise a population of randomly arranged and entangled thermoplastic constituents, with at least some of the constituents being bonded to one another The implant bodies are capable of being manipulated at room temperature from a first shape to a second shape, and of maintaining the second shape at about internal body temperature. Also provided are related methods of fabricating such implants and installing the implants into a subject. | 05-12-2016 |
Ali Cern Recber, West Chester, PA US
Patent application number | Description | Published |
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20130211541 | Porous Implant Materials and Related Methods - Provided are porous, biocompatible implant bodies and materials. These materials suitably comprise a population of randomly arranged thermoplastic constituents, with at least some of the constituents being bonded to one another The implant bodies are capable of being manipulated at room temperature from a first shape to a second shape, and of maintaining the second shape at about internal body temperature. Also provided are related methods of fabricating such implants and installing the implants into a subject. | 08-15-2013 |