Patent application number | Description | Published |
20080200434 | Chemical Target-Binding Compositions - Herein is described compositions and methods for modulating and regulating the concentration of a chemical target in an organism or in an ecosystem. In one embodiment, the concentration is regulated such that it is maintained below or above a certain threshold, thus avoiding toxic or harmful effects of the chemical target. The described compositions may, for example, be implanted in a human body or placed in the ecosystem. The compositions comprise binding moieties that reversibly bind to a chemical target in the organism or ecosystem. The binding capacity and the binding constants for a chemical target are designed such that the composition maintains the concentration of the chemical target substantially within a beneficial range of concentrations. | 08-21-2008 |
20080312315 | Multifunctional Compounds for Forming Crosslinked Biomaterials and Methods of Preparation and Use - Multifunctional compounds are provided that readily crosslink in situ to provide crosslinked biomaterials. The multifunctional compounds contain a single component having at least three reactive functional groups thereon, with the functional groups selected so as to be non-reactive in an initial environment and inter-reactive in a modified environment. Reaction of a plurality of the multifunctional compounds results in a three-dimensional crosslinked matrix. In one embodiment, a first functional group is nucleophilic, a second functional group is electrophilic, and at least one additional functional group is nucleophilic or electrophilic. Methods for preparing and using the multifunctional compounds, and kits including the multifunctional compounds are also provided. Exemplary uses for the multifunctional compounds include tissue augmentation, biologically active agent delivery, bioadhesion, and prevention of adhesions following surgery or injury. | 12-18-2008 |
20090028957 | Implantable Tissue-Reactive Biomaterial Compositions and Systems, and Methods of Us Thereof - The invention pertains to biomaterial compositions and implantable systems for application to a tissue site in a living mammalian body. The compositions and systems react with tissue surfaces and components present in physiological fluids at the region of implantation, obviating the need to remove such fluids and improving the adhesion and resorption rate of the resulting bioimplant. Delivery devices and methods of use are also provided. | 01-29-2009 |
20090117070 | Methods and Crosslinked Polymer Compositions for Cartilage Repair - A method of repairing damaged cartilage and soft tissue in a patient is provided using a biocompatible, non-immunogenic composition. The composition comprises a hydrophilic polymer and a plurality of crosslinkable components having reactive functional groups. The composition used in the method may be loaded with biologically active agents for delivery to the damaged tissues. Kits for use in carrying out the method of the invention are also provided. | 05-07-2009 |
20110150821 | METHODS AND CROSSLINKED POLYMER COMPOSITIONS FOR CARTILAGE REPAIR - A method of repairing damaged cartilage and soft tissue in a patient is provided using a biocompatible, non-immunogenic composition. The composition comprises a hydrophilic polymer and a plurality of crosslinkable components having reactive functional groups. The composition used in the method may be loaded with biologically active agents for delivery to the damaged tissues. Kits for use in carrying out the method of the invention are also provided. | 06-23-2011 |
20120039980 | COMPOSITIONS AND SYSTEMS FOR FORMING CROSSLINKED BIOMATERIALS AND ASSOCIATED METHODS OF PREPARATION AND USE - Methods of preventing adhesion between issues are provided that utilizes in situ crosslinked biomaterials. The biomaterial contains at least the crosslinked product of two biocompatible, non-immunogenic components having reactive groups thereon, with the functional groups selected so as to enable inter-reaction between the components, i.e., crosslinking. Exemplary uses for the crosslinked compositions include preventing adhesions following surgery or injury, and preventing scar tissue formation. | 02-16-2012 |
20120041481 | COMPOSITIONS AND SYSTEMS FOR FORMING CROSSLINKED BIOMATERIALS AND ASSOCIATED METHODS OF PREPARATION AND USE - Kits comprising dry power compositions are provided that readily crosslink in situ to provide crosslinked biomaterials. The dry powder composition contains at least two biocompatible, non-immunogenic components having reactive groups thereon, with the functional groups selected so as to enable inter-reaction between the components, i.e., crosslinking. Exemplary uses for the crosslinked biomaterials include tissue augmentation, biologically active agent delivery, bioadhesion, and prevention of adhesions following surgery or injury. | 02-16-2012 |
20130012683 | MULTIFUNCTIONAL COMPOUNDS FOR FORMING CROSSLINKED BIOMATERIALS AND METHODS OF PREPARATION AND USE - Multifunctional compounds are provided that readily crosslink in situ to provide crosslinked biomaterials. The multifunctional compounds contain a single component having at least three reactive functional groups thereon, with the functional groups selected so as to be non-reactive in an initial environment and inter-reactive in a modified environment. Reaction of a plurality of the multifunctional compounds results in a three-dimensional crosslinked matrix. In one embodiment, a first functional group is nucleophilic, a second functional group is electrophilic, and at least one additional functional group is nucleophilic or electrophilic. Methods for preparing and using the multifunctional compounds, and kits including the multifunctional compounds are also provided. Exemplary uses for the multifunctional compounds include tissue augmentation, biologically active agent delivery, bioadhesion, and prevention of adhesions following surgery or injury. | 01-10-2013 |
20130289235 | MULTIFUNCTIONAL COMPOUNDS FOR FORMING CROSSLINKED BIOMATERIALS AND METHODS OF PREPARATION AND USE - Multifunctional compounds are provided that readily crosslink in situ to provide crosslinked biomaterials. The multifunctional compounds contain a single component having at least three reactive functional groups thereon, with the functional groups selected so as to be non-reactive in an initial environment and inter-reactive in a modified environment. Reaction of a plurality of the multifunctional compounds results in a three-dimensional crosslinked matrix. In one embodiment, a first functional group is nucleophilic, a second functional group is electrophilic, and at least one additional functional group is nucleophilic or electrophilic. Methods for preparing and using the multifunctional compounds, and kits including the multifunctional compounds are also provided. Exemplary uses for the multifunctional compounds include tissue augmentation, biologically active agent delivery, bioadhesion, and prevention of adhesions following surgery or injury. | 10-31-2013 |