Patent application number | Description | Published |
20090060969 | Porous biodegradable polymeric materials for cell transplantation - Polymeric materials are used to make a pliable, non-toxic, injectable porous template for vascular ingrowth. The pore size, usually between approximately 100 and 300 microns, allows vascular and connective tissue ingrowth throughout approximately 10 to 90% of the matrix following implantation, and the injection of cells uniformly throughout the implanted matrix without damage to the cells or patient. The introduced cells attach to the connective tissue within the matrix and are fed by the blood vessels. The preferred material for forming the matrix or support structure is a biocompatible synthetic polymer which degrades in a controlled manner by hydrolysis into harmless metabolites, for example, polyglycolic acid, polylactic acid, polyorthoester, polyanhydride, or copolymers thereof. The rate of tissue ingrowth increases as the porosity and/or the pore size of the implanted devices increases. The time required for the tissue to fill the device depends on the polymer crystallinity and is less for amorphous polymers versus semicrystalline polymers. The vascularity of the advancing tissue is consistent with time and independent of the biomaterial composition and morphology. | 03-05-2009 |
20090111928 | Novel Macromonomers and Hydrogels - Macromonomers capable of both physical crosslinking and chemical crosslinking. The combination of chemical crosslinking and physical crosslinking provides the ability to generate rapidly gelling hydrogels for many different applications. Moreover, the macromonomers may incorporate functional groups that allow for two different gelation mechanisms—thermal gelation and ionic gelation—further improving mechanical stability of hydrogels formed from the disclosed macromonomers. | 04-30-2009 |
20100075420 | Novel Gene Delivery Vectors for Human Mesenchymal Stem Cells - Novel gene delivery vector compositions that interact with human mesenchymal stem cells are provided, as well as methods of synthesizing and using such compositions. Such compositions may comprise a plurality of hyaluronic acid hexamers covalently attached to a branched polyethylenimine. Such methods of synthesis may comprise providing a plurality of hyaluronic acid hexamers and a branched polyethylenimine, and allowing a hexamer of hyaluronic acid to covalently attach to a branched polyethylenimine to form a conjugate. Such methods of use may comprise providing a conjugate comprising a plurality of hyaluronic acid hexamers covalently attached to a branched polyethylenimine, and administering the conjugate to a cell. | 03-25-2010 |
20120141543 | Carbon Nanotube Based Nanocomposites - Novel methods and compositions of nanocomposites are provided. One exemplary composition comprises a biocompatible polymer, such as polypropylene fumarate, and a carbon nanotube, such as a single walled carbon nanotube, an ultra-short carbon nanotube, or a substituted ultra-short carbon nanotube. An exemplary method comprises providing a biocompatible polymer and a carbon nanotube and combining a biocompatible polymer and a carbon nanotube to form a nanocomposite. Another exemplary method comprises providing a nanocomposite comprising a biocompatible polymer and a carbon nanotube and administering the composition to a subject. | 06-07-2012 |
20130173014 | Combined Space Maintenance and Bone Regeneration System for the Reconstruction of Large Osseous Defects - Systems, methods and compositions useful for treatment of traumatic bone injuries are provided. In one embodiment, a bone reconstruction system comprising a space maintaining composition comprising porous polymethylmethacrylate; and an osseous generating construct comprising a polymethylmethacrylate chamber that comprises one or more osseous generating materials is provided. Associated compositions and methods are also provided. | 07-04-2013 |
20130304233 | CONTINUOUS DIGITAL LIGHT PROCESSING ADDITIVE MANUFACTURING OF IMPLANTS - A process for additive manufacturing of a resorbable implant to be implanted into a patient includes providing a biocompatible resin including a liquid light-polymerizable material that is resorbable after polymerization and an initiator. The process further includes actuating an additive manufacturing apparatus to expose an amount of the biocompatible resin to light to at least partially cure the exposed amount of biocompatible resin to form a layer of the resorbable implant and actuating the additive manufacturing apparatus to expose at least some additional amount of biocompatible resin to light to at least partially cure the exposed additional amount of biocompatible resin to form an additional layer of the resorbable implant and to at least partially overcure previously cured layers to cause at least some interlayer binding between the previously cured layers and the additional layer. | 11-14-2013 |
20150079020 | INJECTABLE HYDROGELS - The present disclosure generally relates to injectable compositions. More particularly, the present disclosure relates to injectable, thermogelling hydrogels and associated methods. In one embodiment, the present disclosure provides for a composition comprising a poly(N-isopropylacrylamide)-based macromer and a polyamidoamine-based macromer. | 03-19-2015 |
20150081034 | COMBINED SPACE MAINTENANCE AND BONE REGENERATION SYSTEM FOR THE RECONSTRUCTION OF LARGE OSSEOUS DEFECTS - Systems, methods and compositions useful for treatment of traumatic bone injuries are provided. In one embodiment, a bone reconstruction system comprising a space maintaining composition comprising porous polymethylmethacrylate; and an osseous generating construct comprising a polymethylmethacrylate chamber that comprises one or more osseous generating materials is provided. Associated compositions and methods are also provided. | 03-19-2015 |