Abstract: A method of treating or preventing infection at a surgical site comprising a bony defect and an implanted metal device is disclosed. Biodegradable microspheres are placed at the site and are capable of near-linear controlled release of an antibiotic agent for a predetermined period of time. The microspheres are configured to be large enough to avoid being phagocytosed and removed from the body, and small enough in diameter to not physically inhibit bone growth at said bony defect site. The microspheres are formed of polylactic-co-glycolic acid (PLGA), with or without polyethylene glycol (PEG), and sufficient antibiotic agent to produce bactericidal levels in body tissues. The microspheres exhibit near-linear delivery of the antibiotic agent for at least 4 weeks at levels exceeding the minimum inhibitory concentration (MIC) for organisms commonly found to be the cause of infections, and facilitate bone ingrowth or regrowth at the site.

Abstract: An abuse resistant oral pharmaceutical composition, comprising: a barrier layer, comprising a first polymer; a diffusion layer, comprising a second polymer, substantially covering the barrier layer, wherein the diffusion layer is bonded to the barrier layer and comprises a drug that is substantially homogeneously distributed within the second polymer and diffuses from the diffusion layer within the gastrointestinal (GI) tract; and optionally an expansion layer comprising an expandable polymer, wherein the expansion layer is substantially covered by the barrier layer. Methods of making the same and methods of using the same are also provided.

Abstract: A particle includes a ferromagnetic material, a radiopaque material, and/or an MRI-visible material.

Abstract: Elastogenic nanoparticles including a polymeric core having a surface that is functionalized with a cationic amphiphilic compound, and comprising an active agent having pro-elastogenic and/or anti-proteolytic activity, are described herein. The elastogenic nanoparticles can be used in method of stimulating elastogenesis in a subject by administering to the subject a therapeutically effective amount of elastogenic nanoparticles.

Abstract: A control release and abuse-resistant opiate drug delivery oral wafer or edible oral film dosage to treat pain and substance abuse is provided. The drug delivery oral wafer or edible oral film dosage includes a controlled release layer containing enteric-release beads dispersed in a polymer matrix. The enteric-release beads are formed from a therapeutic amount of an opioid agonist and/or pharmaceutically acceptable salt thereof and a sub-therapeutic amount of opioid antagonist and/or pharmaceutically acceptable salt thereof coated or encapsulated in an enteric-release polymer. The controlled release polymer matrix dissolves or disintegrates following administration or consumption of the oral wafer or edible oral film, releasing the enteric-release beads to be swallowed, with subsequent absorption of the active ingredients within the patient's intestines.

Abstract: The present invention is directed to formulations of genistein and methods for making and using the same. In particular embodiments, the formulations described herein include suspension formulations of nanoparticulate genistein.

Abstract: Effective treatments of pain and/or inflammation from tendonitis, carpal tunnel syndrome, tarsal tunnel syndrome, osteoarthritis, bursitis and/or an oral-facial disease are provided. Through the administration of an effective amount of at least one alpha adrenergic agonist at or near a target site, one can reduce, prevent or treat pain and/or inflammation from tendonitis, carpal tunnel syndrome, tarsal tunnel syndrome, osteoarthritis, bursitis and/or an oral-facial disease.

Abstract: The present invention is directed to kit, drug combinations and methods for promoting endogenous bone marrow (BM)-derived vasculogenic progenitor cell (PC) mobilization, sensitization of such cells and chemotaxis to sites of joint injury or disease. One embodiment of the present invention, directed to a method of promoting joint complex healing, comprises the step of administering an effective amount of a bone marrow (BM) derived vasculogenic progenitor cell mobilization factor to an animal or human exhibiting joint injury or joint disease. The method further comprises the step of administering, concurrently to the mobilization factor, an effective amount of a progenitor cell sensitizing factor to mobilize progenitor cells and sensitize the progenitor cells to one or more chemotactic agents present at the site of joint injury or joint disease.

Abstract: Provided are polymer vesicles comprising polymersomes, a radiofrequency absorbing moiety, a protein or a polysaccharide associated with the inner leaflet of the membrane and a therapeutic or diagnostic cargo. The invention also concerns the use of these polymer vesicles for selective electromagnetic energy-induced delivery of therapeutic or diagnostic agents.

Abstract: A microcapsule, a structure including a microcapsule, an article including a microcapsule and a method of preparing microcapsules provided, the microcapsule includes at least one material selected from the group consisting of a magnetic substance, a dielectric substance and a combination thereof. The microcapsule also includes a volatile material.

Abstract: Disclosed herein are geometrically engineered particles having varied shapes and sizes and surface charge which can incorporate drugs and/or other biomaterials for targeted delivery, such as pulmonary delivery. The size, shape, etc. of a particle can be designed and corresponding particles can be prepared that target or de-target immunological responses to the particles themselves, for example, the response of alveolar macrophages. Methods of modulating immune responses by utilizing the particles are also disclosed. The particles can be composed substantially of therapeutic, drug and polymer or can comprise polymers and proteins. The particles may also be composed of diagnostic agents and additional biomaterials to confer aerosolization and cellular uptake properties. The particles also may have a range of physical features such as fenestrations, angled arms, asymmetry and surface roughness, charge which alter the interactions with cells and tissues.

Abstract: Formulations for controlled, sustained release of biologically active agents for the treatment of ocular disorders have been developed. These formulations are based on solid microparticles formed of the combination of biodegradable, synthetic polymers such as poly(lactic acid) (PLA), poly(glycolic acid) (PGA), and copolymers thereof. The microparticles are characterized by low burst levels and efficient drug loading and sustained release.

Abstract: Toroidal-spiral shaped particles, their method of manufacture, and uses thereof are disclosed. The toroidal-spiral particles can contain at least one active agent, such as a drug, and provide a controlled, sustained release of the active agent.

Abstract: A transparent polymeric nanocomposite hydrogel is provided, wherein the polymeric nanocomposite hydrogel is made from a water insoluble polymer, i.e. poly(2-hydroxyethyl methacrylate) (PHEMA) or/and crosslinked PHEMA and a water insoluble nanofiber, i.e., bacterial cellulose (BC). Disclosed is a synthetic route for polymeric nanocomposites hydrogels. The preferred polymeric nanocompositions are produced through free radical polymerization of HEMA monomer in the presence of bacterial cellulose with an assistance of ultrasound to enhance the mixing of bacterial cellulose, initiator, and the monomers. The polymeric nanocomposite hydrogel is then formed by immersion of the dry polymeric nanocomposite in water. Disclosed is a high transmittance polymer nanocomposite hydrogel with a preferred BC loading less than 0.1%, water content of about 40% in weight, good mechanical integrity and strength.

Abstract: A composition comprising an alloplastic injectable suspension for use as a dermal filler comprising a biocompatible and pliable material and a physiologically acceptable suspending agent is provided. A method of making a composition comprising an alloplastic injectable suspension for use as a dermal filler comprising a biocompatible and pliable material and a physiologically acceptable suspending agent, said method comprising admixing a biocompatible and pliable material with a physiologically acceptable suspending agent, is also provided. A method of augmenting soft tissue to provide long-term reduction of a skin defect, said method comprising stimulating collagen beneath the skin defect is further provided.

Abstract: Immunogenic compositions are disclosed which comprise microparticles that comprise a biodegradable polymer, an immunological adjuvant and a tocol-family compound. Methods of making and using such microparticle compositions are also disclosed.

Abstract: The invention relates to a tamper-resistant, oral pharmaceutical dosage form comprising a pharmacologically active ingredient having psychotropic action and an ethylene-vinyl acetate (EVA) polymer which provides resistance against solvent extraction, resistance against grinding, and resistance against dose-dumping in aqueous ethanol.

Abstract: Disclosed herein are a kit and a method for forming a tissue coating that prevents undesired tissue-to-tissue adhesions resulting from trauma, surgery, infection, or other stimulus. The tissue coating is a hydrogel formed by reacting an aminocarboxymethyldextran containing primary amine groups with an oxidized carboxymethylcellulose containing aldehyde groups.

Abstract: The present invention relates to injectable compositions comprising biocompatible, swellable, hydrophilic, non-toxic and substantially spherical microspheres useful for tissue bulking. The invention also relates to methods of tissue bulking, particularly for the treatment of Gastro-esophageal reflux disease, urinary incontinence, or urinary reflux disease, using the injectable compositions.

Abstract: The invention relates to a biocompatible, non-biodegradable, and non-toxic polymer of formula (I), comprising of three monomeric units, selected from 1-Vinylpyrrolidne (VP), N-Isopropylactylamide (NIPAM), and ester of Maleic anhydride and Polyethylene glycol (MPEG), cross-linked with a bi-functional vinyl derivative, of high purity and substantially free of respective toxic monomeric contaminants, and a process for preparation thereof. The invention further relates to nanoparticulate pharmaceutical compositions of poorly water-soluble drugs or compounds comprising the polymer of the invention, which are safe, less-toxic and convenient for bedside administration to patients in need thereof. Furthermore, the invention relates to a highly selective method for preparation of nanoparticulate pharmaceutical compositions of poorly water-soluble drugs or compounds.

Abstract: Biocompatible microparticles include an ophthalmically active cyclic lipid component and a biodegradable polymer that is effective, when placed into the subconjunctival space, in facilitating release of the cyclic lipid component into the anterior and posterior segments of an eye for an extended period of time. The cyclic lipid component can be associated with a biodegradable polymer matrix, such as a matrix of a two biodegradable polymers. Or, the cyclic lipid component can be encapsulated by the polymeric component. The present microparticles include oil-in-water emulsified microparticles. The subconjunctivally administered microparticles can be used to treat or to reduce at least one symptom of an ocular condition, such as glaucoma or age related macular degeneration.

Abstract: The disclosure relates to a composition comprising rotigotine or a pharmaceutically acceptable salt thereof; at least one poly(lactide-co-glycolide) (PLGA); and at least one fatty acid, wherein the at least one fatty acid is at least 0.5% in weight relative to the total weight of the composition. The composition as disclosed herein has significantly reduced burse release effect. The disclosure also provides a method of treating Parkinson's disease comprising administering an effective amount of the composition as disclosed to a subject in need thereof.

Abstract: Drug-containing nanoparticles are provided that enable effective targeting and sustained-release of a water-soluble, non-peptide, low-molecular weight drug and cause reduced accumulation of the drug in the liver. The nanoparticles containing a water-soluble, non-peptide, low-molecular weight drug are obtained by hydrophobicizing the water-soluble, non-peptide, low-molecular weight drug by a metal ion, and reacting the hydrophobicized drug with a poly(lactic acid)-polyethylene glycol block copolymer or a poly(lactic-co-glycolic acid)-polyethylene glycol block copolymer. The nanoparticles have favorable targeting and sustained-release properties and cause reduced accumulation of the drug in the liver.

Abstract: Disclosed herein is a preparation method of homopolymer nanoparticles without using a surfactant. The homopolymer nanoparticles prepared thereby are expected to be widely used not only as a template of a semiconductor metal oxide, a drug delivery system (DDS), an electron transport layer (ETL), and a seed having vertical structural shape, but also in a high precision field such as replacement of an organic device polystyrene bead film.

Abstract: The present disclosure generally relates to methods of making nanoparticles having about 0.2 to about 35 weight percent of a therapeutic agent; and about 10 to about 99 weight percent of biocompatible polymer such as a diblock poly(lactic) acid-poly(ethylene)glycol.

Abstract: The present invention contemplates induction of immunological tolerance thereby providing permanent allograft acceptance. This method obviates the need for a lifelong regimen of immunosuppressive agents which can increase the risk of infection, autoimmunity, and cancer. Immunological tolerance is thought to be mediated by regulatory T lymphocytes (Treg cells) with immunosuppressive capabilities. A therapeutically relevant platform comprising artificial constructs are contemplated comprising numerous soluble and surface bound Treg cell stimulating factors that may induce tolerance following allograft transplantation. Such artificial constructs, being the size of a cell, have surface bound monoclonal antibodies specific to regulatory T-cell surface moieties and encapsulated soluble regulatory T-cell modulating factors.

Abstract: The present invention relates to the field of methods for providing pharmaceutical compositions comprising poorly water-soluble drugs. In particular the present invention relates to compositions comprising stable, amorphous hybrid nanoparticles, comprising at least one protein kinase inhibitor and at least one polymeric stabilizing and matrix-forming component, useful in pharmaceutical compositions and in therapy.

Abstract: Gastroretentive controlled release vehicles may, in some embodiments, (1) comprise a polymeric matrix and agents for the treatment, prevention, and/or mitigation of a disease and/or side effect thereof and (2) have both gastroretentive properties and controlled release properties. Preferrably, the polymeric matrix may comprise ethylene copolymers, ethyl celluloses, and/or thermoplastic polyurethanes that may optionally be partially crosslinked.

Abstract: A composition is provided, comprising microcapsules, wherein said microcapsules comprise a core and an outer shell, wherein said core comprises one or more water-insoluble compound having melting point above 15° C., wherein said outer shell comprises one or more amino resin that is a reaction product of reactants comprising one or more polyamine and formaldehyde, and wherein said composition further comprises one or more formaldehyde scavenger, one or more reaction product of said amino resin with a formaldehyde scavenger, or a mixture thereof. Also provided is a method of making such a composition.

Abstract: Poly(amine-co-ester) polymers, methods of forming active agent-load nanoparticles therefrom, and methods of using the nanoparticles for drug delivery are disclosed. The nanoparticles can be coated with an agent that reduces surface charge, an agent that increases cell-specific targeting, or a combination thereof. Typically, the loaded nanoparticles are less toxic, more efficient at drug delivery, or a combination thereof compared to a control other transfection reagents. In some embodiments, the nanoparticles are suitable for in vivo delivery, and can be administered systemically to a subject to treat a disease or condition.

Abstract: Effective treatments of pain and/or inflammation are provided. Through the administration of an effective amount of at least one alpha adrenergic agonist at or near a target site, one can reduce, prevent or treat pain and/or inflammation.

Abstract: Disclosed are a polymeric drug carrier-containing pharmaceutical composition with enhanced stability in its solution state and a method for stabilizing the same. More particularly, disclosed are a pharmaceutical aqueous solution composition for storage under refrigeration containing a polymeric drug carrier comprising an amphiphilic block copolymer comprised of a hydrophilic block and a hydrophobic block, and a polylactic acid derivative fixed with a di- or tri-valent metal ion at its terminal carboxyl group and having preservation stability for at least 6 months, preferably at least 12 months when stored under refrigeration, and a method for stabilizing the same.

Abstract: The invention relates to a controlled-release injectable microparticle comprising a polyvinyl alcohol polymer and one or more hormones, in particular progesterone. Said microparticle induces estrus in female mammals after a single application. The invention also relates to a method for obtaining the microparticle.

Abstract: The invention provides a microsphere formulation for the sustained delivery of an aptamer, for example, an anti-Vascular Endothelial Growth Factor aptamer, to a preselected locus in a mammal, such as the eye. In addition, the invention provides methods for making such formulations, and methods of using such formulations to deliver an aptamer to a preselected locus in a mammal. In particular, the invention provides a method for delivering the aptamer to an eye for the treatment of an ocular disorder, for example, age-related macular degeneration.

Abstract: The present invention provides for a composition, for augmentation and regeneration of living tissue in a subject, comprising a population of porous microparticles of a biodegradable polymer, one or more mammalian cell populations, and optionally, a biocompatible adhesive.

Abstract: The present invention provides compositions for extended release of an active ingredient, comprising a lipid-saturated matrix formed from a biodegradable polymer. The present invention also provides methods of producing the matrix compositions and methods for using the matrix compositions to provide controlled release of an active ingredient in the body of a subject in need thereof.

Abstract: Provided, among other things, are compositions and methods for making sustained-release microspheres, as well as a microsphere delivery system for the sustained release of an active agent. The microsphere delivery system comprises a homogenous mixture of biodegradable polymer, active agent, and a so-called release-modifying agent (including a pH-stabilizing agent), and provides protected and sustained release of active agents from the microsphere delivery system. According to the invention, the microspheres preferably are produced by an oil-in-water emulsion method that involves the production of a homogeneous oil phase prepared by mixing active agent and a release-modifying agent, such as arginine, with biodegradable polymer, each dissolved in organic solvent.

Abstract: A process for forming a layered nanoparticle includes providing a suspension including a core particle in a first liquid, adding a second liquid to the suspension, and adding a reagent or a precursor for the reagent, to the suspension. The second liquid is immiscible with the first liquid. If the reagent is added to the suspension, the reagent reacts to form a layer on the core particle to form the layered nanoparticle. If a precursor for the reagent is added to the suspension, the precursor is converted to the reagent, and the reagent reacts to form a layer on the core particle to form the layered nanoparticle.

Abstract: The present invention provides nanoparticle-coupled tolerogenic Treg cell therapy for treatment of immune and/or autoimmune disorders. In certain specific embodiments, the present invention can be used in the prevention and/or treatment of autoimmune diseases including, but not limited to, type 1 diabetes, lupus erythematosus (SLE), multiple sclerosis (MS), inflammatory bowel disease (IBD), rheumatoid arthritis, oophoritis, and autoimmune pathology associated with Graft versus Host Disease (GvHD) following hematopoietic stem cell transplantation.

Abstract: A vitamin K2 microsphere. The microsphere includes a poly(lactide-co-glycolide) acid (PLGA) particle, in which the Mw of PLGA is between 1000 and 300000, and the molar ratio between the lactide repeat units and the glycolide repeate unit is 1-9:9-1; and one or more vitamin K2 molecules are embedded in the PLGA particle, wherein the vitamin K2 is present in an amount of 0.005-75 wt %, based on the weight of the microsphere. Also disclosed are a method of preparing the vitamin K2 microsphere, a method of treating osteoporosis using this microsphere, and a pharmaceutical composition containing the microsphere.

Abstract: Biocompatible, bioerodible implants and microspheres include latanoprost and a biodegradable polymer effective, when placed intraocular (such as into the subtenon space) to treat glaucoma.

Abstract: The present invention provides compositions and systems for delivery of nanocarriers to cells of the immune system. The invention provides vaccine nanocarriers capable of stimulating an immune response in T cells and/or B cells, in some embodiments, comprising at least one immunomodulatory agent, and optionally comprising at last one targeting moiety and optionally at least one immunostimulatory agent. The invention provides pharmaceutical compositions comprising inventive vaccine nanocarriers. The present invention provides methods of designing, manufacturing, and using inventive vaccine nanocarriers and pharmaceutical compositions thereof. The invention provides methods of prophylaxis and/or treatment of diseases, disorders, and conditions comprising administering at least one inventive vaccine nanocarrier to a subject in need thereof.

Abstract: Surface-modified polymeric nanoparticles (NPs), compositions for making them, and their use in drug delivery are disclosed.

Abstract: The present disclosure generally relates to nanoparticles having about 0.2 to about 35 weight percent of a therapeutic agent; and about 10 to about 99 weight percent of biocompatible polymer such as a diblock poly(lactic) acid-poly(ethylene)glycol. Other aspects of the invention include methods of making such nanoparticles.

Abstract: The composition for management of periodontal diseases includes a gel matrix having a polymer system and a plurality of microspheres dispersed in the polymer system. The polymer system contains about one-half a dose of medicament, while the micro spheres contain the remainder. Upon administration of the composition into the periodontal cavity, the medicament in the polymer system provides an initial therapeutic benefit, while the remainder of the medication is released over time via degradation of the microspheres. This biphasic pattern of medicament delivery provides increased efficacy of the medicament through sustained delivery of the same.

Abstract: Formulations have been developed for pulmonary delivery to treat or reduce the infectivity of diseases such as vital infections, especially tuberculosis, SARS, influenza and respiratory synticial virus in humans and hoof and mouth disease in animals. Formulations for pulmonary administration include a material that significantly alters physical properties such as surface tension and surface elasticity of lung mucus lining fluid, which may be a surfactant and, optionally, a carrier. The formulation may be administered as a powder where the particles consist basically of the material altering surface tension. The carrier may be a solution, such as an alcohol, although an aqueous solution may be utilized, or a material mixed with the material altering surface tension to form particles.

Abstract: The present invention relates to a composition for topical application, comprising at least one aqueous phase, at least one superabsorbent polymer and at least one lamellar or platelet-shaped matting mineral filler. A subject of the invention is also a cosmetic treatment process for keratin materials, which consists in applying to the keratin materials a composition as defined above, and also the use of this composition in the cosmetic or dermatological field, and in particular for caring for, protecting and/or making up bodily or facial skin, or for haircare. The composition according to the invention has both a matt appearance throughout all the steps of its use, from the appearance of the product up to the finished skin, and a comfortable sensation throughout its use, from the application to the total penetration of the product.

Abstract: Implantable materials may be used in an iatrogenic site. Applications include radioopaque materials for fiducial marking. Applications include a method of treating a patient with a pharmaceutically acceptable implant system comprising implanting a collection of pharmaceutically acceptable, covalently-crosslinked hydrogel particles, wherein the collection comprises a plurality of sets of the particles, with the sets having different rates of biodegradation.

Abstract: The present invention relates to a liquid, cleaning and/or cleansing composition comprising biodegradable abrasive cleaning particles.

Abstract: Toroidal-spiral shaped particles, their method of manufacture, and uses thereof are disclosed. The toroidal-spiral particles can contain at least one active agent, such as a drug, and provide a controlled, sustained release of the active agent.