Abstract: Described herein are block copolymer conjugates that form double-network hydrogels under appropriate conditions. The conjugates comprise a block of polymer end-group, a block of self-associating peptide or protein, and flexible linkers between the two. Hydrogels comprising the conjugates have the mechanical properties, including elastic modulus and fracture toughness, required for load-bearing applications, while maintaining desirable shear-thinning properties, for example, for injectability.

Abstract: The invention provides methods for predicting or determining the response of a mammalian tumor to a chemotherapeutic agent and for treating a mammalian tumor comprising detecting and quantifying the SPARC protein or RNA in a sample isolated from the mammal. The invention further provides kit for predicting the response of a mammalian tumor to a chemotherapeutic agent, comprising a means for the isolation of protein or RNA from the tumor, a SPARC protein or RNA detection and quantification means, control RNAs, and rules for predicting the response of the tumor based on the level of SPARC protein or RNA in tumor.

Abstract: The present disclosure provides injectable synthetic and biodegradable polymeric biomaterials that effectively prevent seroma, a common postoperative complication following ablative and reconstructive surgeries. Provided biomaterials include physically crosslinked hydrogels that are thixotropic, display rapid chain relaxation, are easily extruded through narrow gauge needles, biodegrade into inert products, are well tolerated by soft tissues, and effectively prevent seroma in a radical breast mastectomy animal model.

Abstract: The present invention provides among other things methods for preparing polymeric reagents, wherein the method comprises (a) providing an aromatic moiety bearing a hydroxy group, a first amino group and a second amino group; (b) reacting a functional group reagent with the hydroxy group to result in a hydroxy group bearing a functional group capable of reacting with an amino group of an active agent and resulting in a hydrolyzable carbamate; and (c) reacting a plurality of poly(alkylene glycol) water-soluble polymers bearing a reactive group with the first amino group and second amino group to result in (i) a first amino group bearing a water-soluble polymer through a spacer moiety, and (ii) a second amino group bearing a second water-soluble polymer through a spacer moiety.

Abstract: One aspect of the present invention relates to bronchoscopic lung volume reduction using solutions of biopolymers that can be polymerized in situ with a crosslinker and a polymeric additive which accelerates the cross-linking reaction. In certain embodiments, the biopolymer solutions can be in the form of a foam or gel. The biopolymer compositions disclosed herein may also be used for indications other than lung volume reduction, such as sealing fistulas or performing emergency tamponade of vessels.

Abstract: A drug delivery system for delivering a drug payload to a specific tissue or cell type is disclosed. The system includes a polymalic acid molecular scaffold which can be used for attaching a plurality of molecular modules. Molecular modules include targeting antibodies for promoting cellular uptake by a target cell, and pro-drugs for altering cellular metabolism, for example, a pro-drug that alters expression of protein kinase CK2.

Abstract: The present invention is directed to a novel biocompatible polymer that may be used in tissue engineering. More specifically, the specification describes methods and compositions for making and using a citric acid copolymers.

Abstract: The present invention provides amphiphilic telodendrimers that aggregate to form nanocarriers characterized by a hydrophobic core and a hydrophilic exterior. The nanocarrier core may include amphiphilic functionality such as cholic acid or cholic acid derivatives, and the exterior may include branched or linear poly(ethylene glycol) segments. Nanocarrier cargo such as hydrophobic drugs and other materials may be sequester in the core via non-covalent means or may be covalently bound to the telodendrimer building blocks. Telodendrimer structure may be tailored to alter loading properties, interactions with materials such as biological membranes, and other characteristics.

Abstract: Nanocells allow the sequential delivery of two different therapeutic agents with different modes of action or different pharmacokinetics. A nanocell is formed by encapsulating a nanocore with a first agent inside a lipid vesicle containing a second agent. The agent in the outer lipid compartment is released first and may exert its effect before the agent in the nanocore is released. The nanocell delivery system may be formulated in pharmaceutical composition for delivery to patients suffering from diseases such as cancer, inflammatory diseases such as asthma, autoimmune diseases such as rheumatoid arthritis, infectious diseases, and neurological diseases such as epilepsy. In treating cancer, a traditional antineoplastic agent is contained in the outer lipid vesicle of the nanocell, and an antiangiogenic agent is loaded into the nanocore. This arrangement allows the antineoplastic agent to be released first and delivered to the tumor before the tumor's blood supply is cut off by the antianiogenic agent.

Abstract: The present invention relates to the novel compound classes of dendritic polyglycerol sulfates and sulfonates as well as to their production and use for the treatment of diseases, particularly inflammatory diseases, and to their use as selectin inhibitors and selectin indicators. The dendritic polyglycerol sulfates and sulfonates are also suitable for imaging diagnostics, particularly with respect to inflammatory diseases.

Abstract: This invention discloses ligand-targeted multi-stereoisomer peptide-polymer conjugate compounds comprising a plurality of different synthetic and chemically modified stereoisomer peptides that have been conjugated to a biocompatible polymer carrying a peptide ligand for targeted delivery or encapsulated in ligand targeted polymer nanoparticles. The unique physicochemical properties of the stereoisomer peptides provide therapeutic compounds with ideal biopharmaceutical properties. The stereoisomer peptides carried by the polymer are delivered to cells or tissues to inhibit, suppress, block, or disrupt, simultaneously and independently, the functional domain of a different disease causing protein.

Abstract: Provided herein are compounds and methods for achieving a sustained therapeutic effect of small molecule anti-cancer agents when administered in vivo.

Abstract: The present invention relates to a loaded particle comprising at least one fluorescent dye, and in particular, a fluorescent dye with a large Stokes shift. The invention further relates to a method for producing an loaded latex particle, loaded with a fluorescent dye having a large stokes shift. In addition, the present invention relates to latex particles loaded with fluorescent dyes that are organic solvent soluble and insoluble in water. In a preferred embodiment, when the dyes are loaded into the water soluble latex particle, an increase is observed in quantum yield of fluorescence as compared to the quantum yield of the dye in aqueous solvent.

Abstract: Provided are a contrast agent for contrast imaging lymph node, which includes iron oxide nanoparticles dispersed and stabilized in an aqueous medium by a mussel adhesive protein-mimetic copolymer, a method for contrast enhanced lymphography using the foregoing contrast agent, and a method for diagnosis of lymph node cancers using the foregoing contrast agent. Using such a mussel adhesive protein-mimetic copolymer, the surface of iron oxide is modified and dispersed well in water to prepare a colloidal solution, which in turn forms the contrast agent containing the colloidal solution. The inventive contrast agent does not have toxicity and is easily taken up to the lymph node to exhibit excellent contrast imaging effects. The contrast agent of the present invention is useful for diagnosis of metastatic cancers.

Abstract: The present invention provides conjugates having a degradable linkage and polymeric reagents useful in preparing such conjugates. Methods of making polymeric reagents and conjugates, as well as methods for administering conjugates and compositions, are also provided.

Abstract: The invention is based on the recognition that known antimicrobial compounds, such as nisin or other lantibiotics, can be made to form a long lasting antimicrobial surface coating by linking the peptide with a block polymer, such as PLURONIC® F108 or an end group activated polymer (EGAP) in a manner to form a flexible tether and/or entrap the peptide. The entrapped peptide provides antimicrobial action by early release from entrapment while the tethered peptide provides longer lasting antimicrobial protection. Antimicrobial gels and foams may be prepared using the antimicrobial peptide containing block copolymers.

Abstract: The present invention provides semi-fluorinated block copolymers and related methods of synthesizing and using semi-fluorinated block copolymers for drug delivery and drug formulation applications. Semi-fluorinated block copolymers of this aspect of the invention include block copolymers having discrete hydrophilic, fluorophilic and hydrophobic structural domains that are capable of forming supramolecular structures in aqueous solutions, such as micelles, for encapsulating hydrophobic and/or fluorophilic therapeutic agents. Encapsulation by semi-fluorinated block copolymers of the present invention allows for enhanced solubilization and stabilization of hydrophobic and/or fluorophilic therapeutic agents relative to conventional drug delivery compositions and methods.

Abstract: Described herein are methods of delivering a nanoparticle to the brain of a subject by administering to the subject a nanoparticle having a nanoparticle core and a targeting agent. A variety of targeting agents may serve to promote delivery of the described nanoparticle. For example, the targeting agent may include a ligand specific for a receptor expressed by brain endothelial cells and a linker that connects the ligand to the external surface of the nanoparticle core. Additionally, the linker can promote disassociation of the ligand from the nanoparticle when inside a cell.

Abstract: Methods are disclosed herein for increasing survival of transplanted cells, either in vitro or in vivo. In additional embodiments, methods are disclosed for treating a subject with a spinal cord injury or a neurodegenerative disorder. The methods include administering to a subject a therapeutically effective amount of cells, such as bone marrow stromal cells, and a therapeutically effective amount of a reverse thermal gel composition. The reverse thermal gel compositing includes a triblock copolymer, or pharmaceutically acceptable salt thereof, having the structure B-A-B in which A is one of a polyurethane or poly(ester urethane) group that comprises one or more pendant active groups, blocked active groups or active agents and B is a hydrophilic block, wherein the composition is a gel at 25° C.-40° C. and a liquid solution at a lower temperature.

Abstract: 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.

Abstract: The present invention relates to a biodegradable polysorbitol-based osmotically active transporter (PSOAT) and gene therapy using the same as a gene carrier. The biodegradable polysorbitol-based osmotically active transporter (PSOAT) of the present invention includes a sorbitol skeleton, which imparts an osmotic pressure to the cell membrane to improve membrane permeability, thereby exhibiting remarkably improved transfection efficiency. Further, the polysorbitol-based osmotically active transporter of the present invention exhibits high DNA binding ability, effectively protects DNA from nuclease, exhibits physicochemical properties suitable for use as a gene carrier, and has very low cytotoxicity in vitro and in vivo, thereby capable of being used as a gene carrier for gene therapy.

Abstract: A liquid composition containing a polymer micelle and having a pH values of 3.0 to 7.0 is provided. The micelle is constituted of a coordination compound having a block copolymer of polyethylene glycol and polyglutamic acid and cisplatin that is coordinate-bonded to the block copolymer.

Abstract: Nanoengineering of inert polymers to develop functionalized sulfonated polymers to harness the power of Alternate complement system to stimulate and amplify cytotoxic potentials of classical and lectin based complement system Manufacturing functionalized sulfonated polymer to better penetrate tumor microenvironment, actively target various cancer antigens in conjunction with monoclonal antibodies in a safe way to inhibit host inflammatory reactions while maximizing cytotoxic potentials. The methods provide nanopolymers to safely maximize the cytotoxic potential of existing and evolving cancer therapies. Combining nanopolymers with existing and evolving cancer drugs to provide personalized cancer therapies.

Abstract: Nanoparticles comprising VIP and their use in treating, e.g. pulmonary hypertension. Such nanoparticles provide improved delivery of VIP and allow for acute treatment and optionally for sustained release of VIP in a patient.

Abstract: The present invention relates to nanoparticle compositions and treatment of cardiovascular disease using nanoparticles to target Class A and B scavenger receptors. This invention further relates to methods of detecting cells that express scavenger receptors, detecting atherosclerotic lesions, and targeting bioactive amphiphilic macromolecules to cells that express scavenger receptors.

Abstract: Described herein are methods for treating a subject with combinations of polymer-agent particles and cyclodextrin polymer agent conjugates. The methods herein may be used to treat subjects identified with cancer, cardiovascular disorders, autoimmune disorders, or inflammatory disorders. Also described herein are compositions, dosage forms, and kits comprising polymer-agent particles and cyclodextrin polymer agent conjugates.

Abstract: The present invention relates generally to methods and compositions for targeting of intracellular molecules involved in proliferation and protein synthesis of activated cells using polyanionic multivalent macromolecules. In particular aspect, multiple sulfate groups linked to polyol are specifically targeted to the cytoplasm and nucleus of proliferating and activated cells. The invention further comprises novel polyanionic macromolecular compounds and formulations.

Abstract: The present disclosure relates to implantable medical devices having a non-bioabsorbable substrate and an amphiphilic coating covalently bonded to the substrate for reducing the inflammatory response to the device after implantation.

Abstract: Antimicrobial and antithrombogenic polymer or polymeric blend, compounds, coatings, and materials containing the same, as well as articles made with, or coated with the same, and methods of making the same exhibiting improved antimicrobial properties and reduced platelet adhesion. Embodiments include polymers with antimicrobial and antithrombogenic groups bound to a single polymer backbone, an antimicrobial polymer blended with an antithrombogenic polymer, and medical devices coated with the antimicrobial and antithrombogenic polymer or polymeric blend.

Abstract: The present invention provides targeted delivery compositions and methods of using the compositions for treating and diagnosing a disease state in a subject.

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 therapeutic agent delivery system formed of a specific type of poly(ester amide) (PEA), a therapeutic agent, and a water miscible solvent is described herein. A method of delivering the therapeutic agent delivery system by delivering the therapeutic agent delivery system formed of a PEA polymer, a therapeutic agent, and a water miscible solvent to a physiological environment and separating the phase of the therapeutic agent delivery system to form a membrane from the polymer to contain the therapeutic agent within the physiological environment is also described. Additionally disclosed is a kit including a syringe and a therapeutic agent delivery system within the syringe.

Abstract: Provided herein are NDGA polymers and metal complexes of such polymers, preferably those metal complexes of the polymers that are insoluble or substantially insoluble in an aqueous solvent, and processes for making the same.

Abstract: Conjugates are provided herein which comprise a protein attached to at least two polymeric moieties, at least one of which exhibits reverse thermal gelation. The conjugates are suitable for being cross-linked by non-covalent and/or covalent cross-linking. Compositions-of-matter comprising cross-linked conjugates are provided herein, as well as processes for producing same. Methods of controlling a physical property of compositions-of-matter are also provided herein. The conjugates and compositions-of-matter may be used for various applications, such as cell growth, tissue formation, and treatment of disorders characterized by tissue damage or loss, as described herein.

Abstract: Described herein are polymer-agent conjugates and particles, which can be used, for example, in the treatment of cancer. Also described herein are mixtures, compositions and dosage forms containing the particles, methods of using the particles (e.g., to treat a disorder), kits including the polymer-agent conjugates and particles, methods of making the polymer-agent conjugates and particles, methods of storing the particles and methods of analyzing the particles.

Abstract: A cyclic carbonate monomer has the formula (2): wherein i) t and t? are integers independently having a value from 0 to 6 wherein t? and t cannot both be zero, ii) each Q1 is a monovalent radical independently selected from the group consisting of hydrogen, halides, alkyl groups comprising 1 to 30 carbons, and aryl groups comprising 6 to 30 carbon atoms, iii) L? is a divalent linking group comprising one or more carbons, and iv) S? is a steroidal group.

Abstract: A composition article, which may be applied to human, includes a non-oil thermoplastic gelatinous elastomer composition, which is formed into a composite by heating with a substrate material. The gelatinous elastomer includes a hydrogenated styrene/isoprene/butadiene block copolymer, at least one polymer or copolymer of the group poly(styrene-butadiene-styrene), poly(styrene-isoprene), poly(styrene-isoprene-styrene), poly(styrene-isoprene), poly(styrene-ethylene-propylene), poly(styrene-ethylene-propylene-styrene), poly(styrene-ethylene-butylene-styrene) or poly(styrene-ethylene-butylene), and a non-oil plasticizer.

Abstract: The present invention is directed to conjugates of hydrolytically stabilized maleimide-functionalized water soluble polymers and to methods for making and utilizing such polymers and their precursors.

Abstract: The invention relates to materials comprising siloxanes, preferably the materials have thermal-responsive properties. In some embodiments, the invention relates to silsesquioxane groups functionalized with polymers. In another embodiment, silsequioxane-polymer conjugates comprise polylactone segments. The silsequioxane-polymer conjugates may be crosslinked together to form a material, and these materials may be functionalized with bioactive compounds so that the materials have desirable biocompatibility or bioactivity when used in medical devices. In further embodiments, the invention relates to composite materials that contain a polymer matrix and aggregates, and in some embodiments, methods of making, and methods of using these materials. Preferably, the aggregates are calcium phosphate aggregates. Preferably, the material is resistant to fracture. In further embodiments, the materials are used in surgical procedures of bone replacement.

Abstract: A method of forming an implantable article includes providing a biodegradable polymer including anti-thrombogenic groups along the length of the biodegradable polymer, biodegradable groups in the backbone of the biodegradable polymer and a plurality of functional groups adapted to react with reactive functional groups on a surface of the implantable article, and reacting at least a portion of the plurality of functional groups with the reactive functional groups on the surface of the implantable article.

Abstract: A drug conjugate is provided herein. The conjugate comprises a protein based recognition-molecule (PBRM) and a polymeric carrier substituted with one or more -LD-D, the protein based recognition-molecule being connected to the polymeric carrier by LP. Each occurrence of D is independently a therapeutic agent having a molecular weight ?5 kDa. LD and LP are linkers connecting the therapeutic agent and PBRM to the polymeric carrier respectively. Also disclosed are polymeric scaffolds useful for conjugating with a PBRM to form a polymer-drug-PBRM conjugate described herein, compositions comprising the conjugates, methods of their preparation, and methods of treating various disorders with the conjugates or their compositions.

Abstract: The present invention relates to aqueous skin or hair cosmetic preparations which comprise at least one polymer A which comprises, in copolymerized form, at least one ester of (meth)acrylic acid, at least one olefinically unsaturated, free-radically polymerizable anionogenic or anionic compound, at least one free-radically polymerizable olefinically unsaturated urethane-group-containing compound which comprises no silicone groups and, if appropriate, further free-radically polymerizable compounds.

Abstract: A temperature stable nanoparticle is provided comprising a core, a water soluble polymer and a peptide, the water soluble polymer attached to the core at a first terminus of the water soluble polymer, the peptide attached to a second terminus of the water soluble polymer, the peptide comprising an RGD amino acid sequence, the water soluble polymer of having sufficient length to allow binding of the peptide to glycoprotein lib/Ilia (GPIIb/llla). In one aspect, the nanoparticle has a melting temperature over 35° C. In various aspects, the nanoparticle has a spheroid shape and a diameter of less than 1 micron.

Abstract: A drug conjugate is provided herein. The conjugate comprises a protein based recognition-molecule (PBRM) and a polymeric carrier substituted with one or more -LD-D, the protein based recognition-molecule being connected to the polymeric carrier by LP. Each occurrence of D is independently a therapeutic agent having a molecular weight ?5 kDa. LD and LP are linkers connecting the therapeutic agent and PBRM to the polymeric carrier respectively. Also disclosed are polymeric scaffolds useful for conjugating with a PBRM to form a polymer-drug-PBRM conjugate described herein, compositions comprising the conjugates, methods of their preparation, and methods of treating various disorders with the conjugates or their compositions.

Abstract: Auristatin compounds and conjugates thereof are provided herein. The conjugate comprises a protein based recognition-molecule (PBRM) and a polymeric carrier substituted with one or more -LD-D, the protein based recognition-molecule being connected to the polymeric carrier by LP. Each occurrence of D is independently an Auristatin compound. LD and LP are linkers connecting the therapeutic agent and PBRM to the polymeric carrier respectively. Also disclosed are polymeric scaffolds useful for conjugating with a PBRM to form a polymer-drug-PBRM conjugate described herein, compositions comprising the conjugates, methods of their preparation, and methods of treating various disorders with the conjugates or their compositions.

Abstract: The invention contemplates a copolymer which is a graft or block copolymer useful to change wettability and surface characteristics of biological surfaces. Methods for use of these formulations and coatings to change wettability and sterically stabilize, and lubricate biological surfaces in a subject, for example, in the treatment of dry eye syndrome, and to prevent adherence of unwanted proteins, for example in the treatment of contact lens intolerance, are provided.

Abstract: Biocompatible adhesive materials, such as for use with biological tissues and/or medical implants, are provided, as well as methods and kits for making and using the biocompatible adhesive materials. The biocompatible adhesive materials include a dendrimer component and a polymer component, and may be tailored for specific tissue types and conditions.

Abstract: A cationic star polymer is disclosed of the general formula (1): wherein w? is a positive number greater than or equal to 3, I? is a dendritic polyester core covalently linked to w? independent peripheral linear cationic polymer chains P?. Each of the chains P? comprises a cationic repeat unit comprising i) a backbone functional group selected from the group consisting of aliphatic carbonates, aliphatic esters, aliphatic carbamates, aliphatic ureas, aliphatic thiocarbamates, aliphatic dithiocarbonates, and combinations thereof, and ii) a side chain comprising a quaternary amine group. The quaternary amine group comprises a divalent methylene group directly covalently linked to i) a positive charged nitrogen and ii) an aromatic ring.

Abstract: The invention relates to the use of Polycefin-LLL nanoconjugate as a means of cytoplasmic delivery of drugs. In one embodiment, the present invention provides a drug delivery molecule, comprising a polymerized carboxylic acid molecular scaffold covalently linked to L-leucylleucylleucine. In another embodiment, the Polycefin-LLL includes drug antisense morpholino oligos, targeting antibodies, and a pH-sensitive endosome escape unit. In addition, the drug could be siRNA, microRNA, and aptamer.

Abstract: This invention provides the controlled-release method for a pharmaceutical composition comprising of metals in the drug carrier. The specific chelator is used to trigger the release of active pharmaceutical ingredients from chelating complex micelles. The drug release rate and half-life can also be controlled by manipulating the dosing sequence and the concentration of metal and specific chelator.