Patent application number | Description | Published |
20090011486 | Biodegradable Elastomers - The present inventions in various aspects provide elastic polymers compositions for encapsulation of cells. In various embodiments, the polymers are formed by the reaction of a multifunctional alcohol or ether and a difunctional or higher order acid to form a pre-polymer, which is cross-linked in the presence of glycerol and a population of cells to form elastic porous polymer scaffolds suitable for cell encapsulation and/or proliferation. | 01-08-2009 |
20090047256 | Biodegradable Elastomers - The present inventions in various aspects provide elastic biodegradable polymers. In various embodiments, the polymers are formed by the reaction of a multifunctional alcohol or ether and a difunctional or higher order acid to form a pre-polymer, which is cross-linked to form the elastic biodegradable polymer. In preferred embodiments, the cross-linking is performed by functionalization of one or more OR groups on the pre-polymer backbone with vinyl, followed by photopolymerization to form the elastic biodegradable polymer composition or material. Preferably, acrylate is used to add one or more vinyls to the backbone of the pre-polymer to form an acrylated pre-polymer. In various embodiments, acrylated pre-polymers are co-polymerized with one or more acrylated co-polymers. | 02-19-2009 |
20100015068 | Methods and Compositions For Altering Biological Surfaces - Compositions, methods and kits are provided for altering the properties of a biological surface using particles such as, for instance, calcium based particles in combination with an agent that binds to the biological surface. Properties such as color, sheen, texture, strength, and odor of biological surfaces such as teeth and bone are alterable. | 01-21-2010 |
20100112026 | SURFACES, METHODS AND DEVICES EMPLOYING CELL ROLLING - In various aspects, the present invention provides surfaces and materials for cell rolling applications, methods of making such surfaces and materials, and devices having such surfaces and materials. In some embodiments, the present invention provides surfaces with at least partial coatings of an ordered layer of cell adhesion molecules, or fragments, analogs, or modifications thereof, covalently bound to the surface of the substrate through an immobilization moiety. In some embodiments, the layer of a cell adhesion molecules further comprises a cell modifying ligand that can be targeted, e.g., to one or more specific cell types. | 05-06-2010 |
20110125107 | METHODS AND DEVICES FOR SENSING TISSUES AND TISSUE COMPARTMENTS - An apparatus provides feedback regarding the material in which tip of the apparatus is located as the tip is advance into matter of varying resistances. The apparatus responds to a change in pressure, force, or other parameter such that when the tip reaches matter of a certain resistance, a change in the parameter is sensed. The apparatus provides a driving force to a penetrating medical device, such as a needle, when the apparatus tip encounters material of high resistance. When the apparatus tip encounters a low resistance material, no further driving force is applied to the apparatus. An inner core may be advanced into the low resistance material for deployment of a gas or a liquid as desired. | 05-26-2011 |
20110206740 | Cell Membrane Engineering - The present invention is directed to methods and compositions for engineering the surface of a cell, wherein a targeting moiety and/or a particle are attached to the cell membrane. The particle can further comprise a therapeutic agent for drug delivery. The compositions disclosed herein are useful in the treatment of diseased or damaged tissue by targeting cells for the purpose of tissue regeneration, drug delivery or a combination of both. | 08-25-2011 |
20110229565 | Drug Delivery Composition Comprising a Self-Assembled Gelator - This invention discloses drug-delivery compositions, methods of making prodrugs, and methods of drug delivery using a self-assembled gelator. The backbone of the gelator can contain a drug or prodrug, such as acetaminophen or salicin. Additional drugs or agents can be encapsulated in the gelator. Enzymatic or hydrolytic cleavage can be used to release the drugs. | 09-22-2011 |
20120251443 | IMPLANTABLE CONTRAST AGENTS AND METHODS - The present disclosure provides compositions and methods based on implantable contrast agents that are useful for imaging tissue and organs. | 10-04-2012 |
20120263765 | AGENTS FROM CELLS - A composition includes an isolated cell; at least one particle within said cell; and at least one active agent associated with the particle, wherein the active agent is capable of being released from the cell. A method includes administration of such a cell to a subject. | 10-18-2012 |
20120321573 | COMPOSITIONS AND METHODS OF PROPHYLAXIS FOR CONTACT DERMATITIS - The present invention relates to compositions and methods for inhibiting metal exposure to tissues. | 12-20-2012 |
20130040837 | APTAMER CELL COMPOSITIONS - A composition includes an isolated cell, wherein a surface of the cell is attached to a nucleic acid that specifically binds to a non-nucleic target. | 02-14-2013 |
20130231412 | URETHANE-CROSSLINKED BIODEGRADABLE ELASTOMERS - Among other things, the present disclosure provides compositions and methods for an elastomeric cross-linked polyester material. Such an elastomeric cross-linked polyester material, in some embodiments, comprises a plurality of polymeric units of the general formula (-A-B—) | 09-05-2013 |
20130280334 | Nanostructured Gels Capable of Controlled Release of Encapsulated Agents - Self-assembled gel compositions including a gelator, e.g., an enzyme-cleavable gelator, e.g., having a molecular weight of 2500 or less, are described. The self-assembled gel compositions can encapsulate one or more agents. Methods of making the self-assembled gel compositions, and methods of drug delivery using the self-assembled gel compositions are also described. | 10-24-2013 |
20130331792 | DEVICE AND USES THEREOF - The present disclosure provides devices and uses thereof. A devices disclosed herein comprises one or more tips, wherein the one or more tips are designed and constructed to initiate penetration by the device; and one or more protrusions in a region adjacent to each tip. In some embodiments, one or more protrusions can be constructed and arranged so that the required penetration force is reduced as compared with that observed for an otherwise identical device lacking the one or more protrusions. Additionally or alternatively, one or more protrusions can be constructed and arranged such that the required pull-out force is increased as compared with that observed for an otherwise identical device lacking the one or more protrusions. | 12-12-2013 |
20140148846 | Adhesive Articles Containing a Combination of Surface Micropatterning and Reactive Chemistry and Methods of Making and Using Thereof - Adhesive articles containing microtopography, such as microprotrusions, and a coating of adhesive glue, such an adhesive having known toxicity and/or tissue reactive functional groups are described herein. The articles described herein contain a substrate, a plurality of microfeatures, and an adhesive, such as an adhesive glue. The articles described herein exhibit a 90° pull off adhesion of at least about 1.5 N/cm | 05-29-2014 |
20140186312 | Method Comprising Contacting Tissue With a Cross-Linkable Polyester Prepolymer - The present inventions in various aspects provide elastic biodegradable polymers. In various embodiments, the polymers are formed by the reaction of a multifunctional alcohol or ether and a difunctional or higher order acid to form a pre-polymer, which is cross-linked to form the elastic biodegradable polymer. In preferred embodiments, the cross-linking is performed by functionalization of one or more OR groups on the pre-polymer backbone with vinyl, followed by photopolymerization to form the elastic biodegradable polymer composition or material. Preferably, acrylate is used to add one or more vinyls to the backbone of the pre-polymer to form an acrylated pre-polymer. In various embodiments, acrylated pre-polymers are co-polymerized with one or more acrylated co-polymers. | 07-03-2014 |
20140348896 | Hydrophobic Tissue Adhesives - Pre-polymers for use as tissue sealants and adhesives, and methods of making and using thereof are provided. The pre-polymers have flow characteristics such that they can be applied through a syringe or catheter but are sufficiently viscous to remain in place at the site of application and not run off the tissue. The pre-polymers are also sufficiently hydrophobic to resist washout by bodily fluids. The pre-polymers are stable in bodily fluids; that is the pre-polymer does not spontaneously crosslink in bodily fluids absent the presence of an intentionally applied stimulus to initiate crosslinking. Upon crosslinking, the adhesive exhibits significant adhesive strength in the presence of blood and other bodily fluids. The adhesive is sufficiently elastic that it is able to resist movement of the underlying tissue. The adhesive can provide a hemostatic seal. The adhesive is biodegradable and biocompatible, causing minimal inflammatory response. | 11-27-2014 |
20150112261 | METHODS AND DEVICES FOR SENSING TISSUES AND TISSUE COMPARTMENTS - An apparatus provides feedback regarding the material in which tip of the apparatus is located as the tip is advanced into matter of varying resistances. The apparatus responds to a change in pressure, force, or other parameter such that when the tip reaches matter of a certain resistance, a change in the parameter is sensed. The apparatus provides a driving force to a penetrating medical device, such as a needle, when the apparatus tip encounters material of high resistance. When the apparatus tip encounters a low resistance material, no further driving force is applied to the apparatus. An inner core may be advanced into the low resistance material for deployment of a gas or a liquid as desired. | 04-23-2015 |
20150125540 | RELEASE OF AGENTS FROM CELLS - A composition includes an isolated cell; at least one particle within said cell; and at least one active agent associated with the particle, wherein the active agent is capable of being released from the cell. A method includes administration of such a cell to a subject. | 05-07-2015 |