Abstract: Methods for treating inflammation-mediated conditions of the eye are described, comprising: implanting into the vitreous of the eye of an individual a bioerodible implant comprising a steroidal anti-inflammatory agent and a bioerodible polymer, wherein the implant delivers the agent to the vitreous in an amount sufficient to reach a concentration equivalent to at least about 0.05 ?g/ml dexamethasone within about 48 hours and maintains a concentration equivalent to at least about 0.03 ?g/ml dexamethasone for at least about three weeks.

Abstract: Methods and compositions are provided for reducing transmission and/or infection of HIV in a subject by increasing the bioavailability of a drug in the subject. The methods and compositions provided herein include an efflux transporter inhibitor and a drug effective for reducing the transmission and/or infection of HIV in a subject. The efflux transporter inhibitor is effective to reduce the efflux of the drug through at least one of P-glycoprotein (Pgp), breast cancer resistant protein (BCRP), and multidrug resistant associated protein 1-9 (MRP1-9).

Abstract: A method of treating peripheral artery diseases in lower limbs by providing a medical device having an expandable member having a drug coating layer which has a crystalline morphological form including a plurality of crystal particles of a water-insoluble drug regularly arranged and uniformly sized on the surface of the medical device, inserting the medical device in peripheral blood vessels, expanding the expandable member, pressing the drug coating layer to a blood vessel wall such that at least part of the plurality of crystals are transferred to the blood vessel wall, and deflating the expandable member such that a pharmacokinetics profile is presented in which a drug concentration in the blood vessels is kept for the inhibition of smooth muscle cell proliferation in a high drug-concentration period of time, and for the non-inhibition of endothelial cell growth in a later low drug-concentration period of time.

Abstract: Methods and compositions are provided for the therapeutic use of Wnt proteins, for enhancing bone growth and regeneration, including repair following injury, osseointegration of implants, and the like. In some embodiments of the invention, the compositions are administered locally, e.g. by injection at the site of an injury. For certain conditions it is desirable to provide Wnt activity for short periods of time, and an effective dose will be administered over a defined, short period of time.

Abstract: Implantable biocompatible polymeric medical devices include a substrate with an acid or base-modified surface which is subsequently modified to include click reactive members.

Abstract: Provided herein is a polymeric material comprising a polymer host; and a guest molecule comprising a glycosaminoglycan; wherein the guest molecule is disposed within the polymer host, and wherein the guest molecule is covalently bonded to at least one other guest molecule. In some embodiments, the polymer host comprises a silicone-based polymer. In other embodiments, the glycosaminoglycan is chosen from hyaluronic acid and derivatives thereof.

Abstract: The application is directed to aqueous dispersible biodegradable compositions of esters which are the condensation reaction product of a polyol and a diacid which are within a matrix of hydrated polypeptide. The compositions are useful in additive manufacturing and other applications for use with implantable articles. In some embodiments, the ester in the compositions is the product of a glyercol-sebacic acid condensation reaction.

Abstract: Medical constructs with twisted cables formed from a plurality of collagen fibers twisted together to form strands and those strands twisted together to form cables and relate methods of twisting the collagen fibers to form the medical constructs while holding the fibers and strands of fibers in tension and twisting in a first direction (i.e., in a clockwise direction), then twisting them in a second opposing (counterclockwise) direction for a number of twists per inch.

Abstract: Reverse hexagonal mesophase (HII) liquid crystals provide multi-component hexagonal systems for use in solubilizing and/or protecting from degradation one or more bio-macromolecule and/or active material, and relates to therapeutic and non-therapeutic applications, such as an oral delivery system, where the mesophase is adapted for oral administration. The present invention provides the formation of mesophase systems of ternary glycerol monooleate (GMO)/water combinations which comprise at least one triglyceride or an equivalent thereof. At least one biomacromolecule or drug is incorporated in the mesophase of a pharmaceutical composition or oral delivery system.

Abstract: Methods of treating bladder cancer using terconazole are disclosed herein. Terconazole can be administered as part of a comprehensive treatment program, which can also include chemotherapy, immunotherapy, radiation therapy and/or surgical treatment.

Abstract: In alternative embodiments, the invention provides products (articles) of manufacture comprising nanostructures such as nanotubes having a surface comprising tantalum. In alternative embodiments, products of manufacture of the invention include nanostructures, e.g., nanotubes, nanowire, nanopore, and the like comprising a surface layer of tantalum. In alternative embodiments, products or articles of manufacture of the invention are bioimplants, and the tantalum-surface-coated nanostructures of the invention provide increased bioactivity and bone forming ability. In alternative embodiments, products or articles of manufacture of the invention, e.g., bioimplants, comprising the tantalum-surface-coated nanostructures of the invention are used for in vitro, ex vivo and in vivo testing, implants, biomedical devices and therapeutics.

Abstract: The present invention is directed to methods of inhibiting cancer cell growth or proliferation by contacting the cancer cell with an extracellular matrix (ECM) composition. Also provided are methods of delivering a chemotherapeutic agent to a cancer cell by contacting a cancer cell with an extracellular matrix composition containing a chemotherapeutic agent. Also provided are compositions containing ECM and a chemotherapeutic agent.

Abstract: A method of inhibiting thickening of vascular intima by providing a medical device having an expandable member having a drug coating layer which has a crystalline morphological form including a plurality of crystal particles of a water-insoluble drug regularly arranged and uniformly sized on the surface of the medical device, inserting the medical device in peripheral blood vessels, expanding the expandable member, pressing the drug coating layer to a blood vessel wall such that at least part of the plurality of crystals are transferred to the blood vessel wall, and deflating the expandable member such that a vascular intima thickening is inhibited uniformly in an entire treated lesion of stenosis to uniformly cause patency of the lesion.

Abstract: Various polymeric materials and delivery systems are described, along with systems and methods for using them for bone and tissue augmentation, such as for the stabilization and/or correction of spinal compression fractures.

Abstract: Disclosed are products and methods for treating soft tissue injuries. The provided methods include the production of processed or cryopreserved microvascular tissue. Also provided are products and methods of using processed or cryopreserved microvascular tissue for the treatment of soft tissue injuries.

Abstract: Compositions and methods are provided for photosynthetic correction of metabolic imbalances that occur in ischemic conditions. In the methods of the invention, an ischemic or potentially ischemic tissue is contacted with an effective dose of a photosynthetic system in the presence of a light source, where the dose or concentration is sufficient to increase oxygenation and simple sugar supply of the targeted tissue or organ.

Abstract: The invention relates to antimicrobial peptides, pharmaceutical compositions comprising the peptides and to uses thereof for in the treatment or prevention of microbial, bacterial, fungal, viral and parasitic infection.

Abstract: The present invention relates to surgical instruments and methods for enhancing properties of tissue repaired or joined by surgical staples and, more particularly to surgical instruments and methods designed to enhance the properties of repaired or adjoined tissue at a target surgical site, especially when sealing an anastomosis between adjacent intestinal sections so as to improve tissue viability, prevent tissue infection, and to prevent leakage. The present invention further relates to an expandable compression device for application to anastomotically joined tubular tissues, comprising: an upper ring-shaped or disk-shaped flange at a distal end of said device connected to a lower ring-shaped inflatable flange at a proximal end of said device via a hollow cylindrical tubular body, with an opening forming an axial passage through said upper flange, lower flange, and tubular body.

Abstract: The present invention relates to a method that includes providing a formulation having an isocyanate-functional prepolymer and a curing component comprising an amino-functional aspartic ester of the general formula (I) applying the formulation to a cell tissue; and curing the formulation such that the loss of blood (haemostatic) or tissue fluids is staunched or leaks in cell tissues are sealed.

Abstract: The application provides methods of treating or reducing thrombocytopenia, leukopenia, anemia, or neutropenia in a patient in need thereof, comprising the step of administering an effective amount of a compound selected from Compounds 1-6, disclosed herein.

Abstract: A device for intravascular intervention can comprise an intervention element, an elongate manipulation member, and a joining element. The elongate element can comprise a hooked portion extending about a proximal portion of the intervention element. The hooked portion can comprise a bend. The hooked portion can have (i) no substantial surface crack at an interior region of the bend and (ii) a maximum lateral dimension that is less than 0.027 inch. The joining element can substantially permanently attach the hooked portion to the intervention element.

Abstract: Methods for making a biodegradable collagen matrix having increased osteoinductivity and a biodegradable collagen matrix prepared by these methods are provided. In various embodiments, the methods include providing an acidic collagen slurry and mixing it with at least one water soluble and/or hydrophilic bioactive agent under conditions sufficient to cause the collagen slurry to self-assemble into macroscopic collagen fibers and cause the at least one bioactive agent to form a collagen matrix containing the bioactive agent. Conditions sufficient to cause the collagen slurry to self-assembly include raising the pH of the slurry to from about 5 to about a pH of 9 and/or adding bone powder, calcium phosphate, hydroxyapatite, DBM or a mixture thereof to the acidic collagen slurry in order to raise the pH from about 5 to about 9.

Abstract: Disclosed are methods and agents for modulating proliferation, migration and/or survival of cells. More particularly, the present invention discloses molecules that have any one or more activities selected from: inhibiting binding of vitronectin to at least one vitronectin-binding partner selected from an IGF and IGFBP, inhibiting formation of a complex comprising vitronectin and at least one vitronectin-binding partner selected from an IGF and IGFBP, or inhibiting proliferation or survival of a hyperproliferative cell (e.g., a neoplastic cell or non-neoplastic cell), or inhibiting migration or invasion of a hyperproliferative cell (e.g., a neoplastic cell or a non-neoplastic cell). Additionally, the present invention discloses the use of these molecules in methods and compositions for treating or preventing hyperproliferative cell disorders including neoplastic (e.g., cancers such as epithelial cancers) and non-neoplastic disorders.

Abstract: Methods for manufacturing an endovascular stent having channel(s) formed therein for containing a therapeutic material. A molding and sintering process forms a thin-walled tubular component having a tubular core structure encapsulated therein. Portions of the thin-walled tubular component are removed to form at least a portion of the endovascular stent in a pattern corresponding to that of the tubular core structure such that the tubular core structure or corresponding channel(s) left thereby are captured within a wall of the formed stent. The tubular core structure is removed to leave a corresponding channel(s) in its stead. A plurality of holes is formed in the stent wall for filling the stent channel(s) with the therapeutic material and for eluting the therapeutic material therefrom.

Abstract: Topical minocycline compositions with reduced fluorescence are provided. In some instances, the compositions include an amount of a minocycline active agent associated with porous calcium particles. Also provided are methods of using the compositions, e.g., in the treatment of acne.

Abstract: This invention provides aragonite- and calcite-based scaffolds for the repair, regeneration, enhancement of formation or a combination thereof of cartilage and/or bone, which scaffolds comprise at least two phases, wherein each phase differs in terms of its chemical content, or structure, kits comprising the same, processes for producing solid aragonite or calcite scaffolds and methods of use thereof.

Abstract: Drug delivery balloons have densely packed crystals of small particle size of the drug thereon. An amorphous drug coating is applied to a balloon surface and annealed to provide the crystals. The balloon surface is nucleated to induce formation of drug crystals in the annealing step to provide the crystals in high density with small size.

Abstract: The present invention relates to a device for the interfacial augmentation of tissue grafts for the purpose of tendon and ligament reconstruction. The inventive device works both as a delivery vessel for osteoconductive and osteoinductive factors and as a scaffold to stimulate and support bone ingrowth and comprises a tubular composite silk sheath, said tubular composite silk sheath comprising: a backbone consisting of a tubular silk mesh, and a carrier material consisting of a porous silk sponge, wherein said tubular silk mesh consists of degummed silk fibroin fibers, wherein said porous silk sponge comprises silk fibroin fibers and hydroxyapatite particles and said tubular silk mesh and said porous silk sponge form a composite material.

Abstract: The invention features an “inverse patterning” or “Intaglio-Void/Embed-Relief Topographic (In VERT) molding” manufacturing process for generating high-resolution three-dimensional (3D) multi-cellular microstructures in distinct cellular compartments of a single hydrogel. The platform has general utility in the development of engineered tissues for human therapies, drug testing, and disease models. Additionally, the platform can serve as a model system for studying 3D cell-cell interactions in fields as diverse as stem cell biology to the development of cancer therapeutics.

Abstract: Dual-functional nonfouling surfaces and materials, methods for making dual-functional nonfouling surfaces and materials, and devices that include dual-functional nonfouling surfaces and materials. The dual-functional surfaces are nonfouling surfaces that resist non-specific protein adsorption and cell adhesion. The dual-functional surfaces and materials include covalently coupled biomolecules (e.g., target binding partners) that impart specific biological activity thereto. The surfaces and materials are useful in medical diagnostics, biomaterials and bioprocessing, tissue engineering, and drug delivery.

Abstract: The present invention describes an injectable calcium polyphosphate (CPP) gel with dense structure, which can be applied as injectable bone void filler in medical field, such as orthopedic and dental applications. Amorphous CPP powder with fine particle size (<75 pm) can be completely dissolved in water, forming a homogeneous gelation phase separated from water phase. This homogeneous CPP gel with disentangled inorganic polyphosphate chains shows viscoelasticity and superior adhesion to natural bone, metal implant surfaces and other ceramic material surfaces. The CPP gel is biomimetic and biodegradable with strong osteoconductivity and osteoinductivity. The manufacturing procedure is easy and reproducible. The mechanical strength of CPP gel is controllable by modifications, such as sintering, incorporation of other biomaterials, etc.

Abstract: Systems and method for treating aneurysms are provided which utilize formulations that form polymer foams in situ. The formulations generally have a buoyancy greater than or less than blood, and either float to the top of the aneurysm and foam from the top down or sink to the bottom and foam from the bottom up.

Abstract: A solid material adapted to kill bacteria in planktonic, spore and biofilm states is lethal toward a wide spectrum of gram positive and gram negative bacteria as well as other microbes. The solid material includes a significant amount of one or more surfactants entrained in a crosslinked polymeric network.

Abstract: The present invention provides a pharmaceutical formulation comprising clomipramine or its pharmaceutically acceptable salt (preferably, clomipramine hydrochloride) as the first active ingredient, and sildenafil or its pharmaceutically acceptable salt (preferably, sildenafil citrate) as the second active ingredient, wherein stability of clomipramine is improved, and a method for manufacturing this pharmaceutical formulation. In particular, the present invention provides a pharmaceutical formulation comprising the above two active ingredients and manufactured by using a wet granulation method, wherein stability of clomipramine is improved, and a method for manufacturing this pharmaceutical formulation.

Abstract: The present invention is related to scoring or cutting balloon catheters carrying at least on a portion of their surface at least one oxidation-insensitive drug or oxidation-insensitive polymer-free drug preparation and at least one lipophilic antioxidant at a ratio of 3-100% by weight of the at least one lipophilic antioxidant in relation to 100% by weight of the drug, wherein the at least one oxidation-insensitive drug is selected of taxanes, thalidomide, statins, corticoids and lipophilic derivatives of corticoids, and the at least one lipophilic antioxidant is selected of nordihydroguaiaretic acid, resveratrol and propyl gallate.

Abstract: A coating composition for drug-eluting medical devices, which enables a medical device to be delivered to a target tissue for the purpose of treating an affected blood vessel part such as restenosis, without easy separation of a drug from the medical device during the delivery process is provided. The coating composition for drug-eluting medical devices contains a water-insoluble drug and at least one selected from the group consisting of ester compounds of amino acids, which have a hydropathy index of the amino acid of zero or less than zero, and salts thereof. A drug coating layer, a drug-eluting medical device and a method of treatment are also provided.

Abstract: A composite dura substitute implant for implantation at a dura defect site having a porous layer that provides an osteoconductive scaffold for bony ingrowth, a porous layer that provides a scaffold for regeneration of collagen at a dura surface, and an intervening layer for preventing cerebrospinal leakage is disclosed. The composite dura substitute implant facilitates regeneration of dura mater and promotes osteointegration with bony tissue. Methods of manufacturing such an implant and methods of treatment using such composite dura substitute implants are further disclosed.

Abstract: Various aspects of the present disclosure provide compositions, coatings and implantable devices including a drug and an excipient. In certain embodiments the excipient and the drug are present at a weight ratio of between 10 to 1 and 1 to 10 drug to excipient. In certain other embodiments, the excipient and the drug form particles in which the drug is encapsulated by the excipient. Other aspects of the disclosure provide methods of manufacturing and using such compositions, coatings and implantable devices.

Abstract: The application provides customized aortic stent and stent graft devices and methods for the manufacture thereof. The customized aortic stent or stent graft are patient-specific in that they conform to at least part of the ascending aorta, aortic arch and/or thoracic aorta.

Abstract: A hardenable two part acrylic composition is described for the treatment of human or animal bone is described. The composition comprises a storage stable liquid first part and a storage stable liquid second part which react with each other upon mixing to form a cement which hardens. The composition further comprises an acrylic monomer component and an initiator component in an amount effective to polymerize the monomer component. The monomer component and the initiator component are generally located in separate parts of the two part composition so that the monomer component is storage stable. The liquid first part comprises emulsion polymerized acrylic polymer particles in a liquid carrier. A method of producing a hardenable two part acrylic composition is also described. The composition is particularly useful in a syringe or caulking gun having at least two barrels.

Abstract: Lenses are designed using the corneal topography or wavefront measurements of the eye derived by subtracting the optical power of the eye after orthokeratology treatment from the optical power before orthokeratology treatment.

Abstract: This disclosure provides generally for antimicrobial compositions and methods of use comprising an anthocyanin, an anthocyanidin or metabolites thereof. Methods for promoting healing of a wound using these compositions are also disclosed. These compositions have broad spectrum antimicrobial activity and are safe for human and animal uses. Further, these compositions are safe for medical uses and industrial uses as antiseptic preparations to reduce or prevent microbial growth, including killing bacterial biofilms.

Abstract: Provided herein is a drug delivery system for curcumin comprising fibrinogen, thrombin and curcumin.

Abstract: In some examples, a wearable device may emit signals to automatically release or activate drugs that are already in a user in response to a particular context of the user. For example, if the user begins vigorous exercise, the system may activate a pain medication that was already previously ingested by the user to alleviate anticipated joint pain.

Abstract: The present invention includes a robotic system for the enhanced automation, manipulation, and control of electroprocessing in two or three dimensions. In one embodiment, the system includes a sealed chamber devoid of any electrical or conductive components which would interfere with the electrical field and eventual material fabrication, while still allowing for two-dimensional and three-dimensional robot motion. In certain embodiments, the system of the invention produces materials or scaffolds with complex shapes, including materials with ridges, valleys, curves, and the like, which are difficult or impossible to construct using traditional systems.

Abstract: This disclosure provides generally for antimicrobial compositions and methods of use comprising an anthocyanin, an anthocyanidin or metabolites thereof. Methods for promoting healing of a wound using these compositions are also disclosed. These compositions have broad spectrum antimicrobial activity and are safe for human and animal uses. Further, these compositions are safe for medical uses and industrial uses as antiseptic preparations to reduce or prevent microbial growth, including killing bacterial biofilms.

Abstract: The present invention relates to a biodegradable microbead having improved adsorptive power to anticancer drugs, to a method for preparing same, and to a method for treating cancer using same. According to the present invention, a rigid bead having excellent adsorptive power to anticancer drugs can be prepared through cross-linking and an amide bond between an albumin and an anionic polymer. Also, the microbead of the present invention is prepared by a biocompatible and biodegradable polymer so as to be safe when applied to the human body. Further, the microbead of the present invention can effectively inhibit the growth of a tumor by effectively blocking a blood vessel which supplies nutrients to a liver tumor, while continuously releasing anticancer drugs which are adsorbed into the surface of the bead. Thus, the present invention can be usefully applied to a chemoembolization of liver cancer.

Abstract: Disclosed are cement products, methods of forming cement using the cement product, and methods of using the cement product in orthopedic and dental applications. Generally, the disclosed cement product includes a first component and a second component. The first component comprises a polymerizable resin comprising ethylenic unsaturated double bond, a suitable glycidyl group and/or a suitable isocyanate group. The second component includes a compound comprising more than one type of amine selected from the group consisting of primary amine, secondary amines, tertiary amines and quaternary amines. Alternatively, the second component includes a compound comprising a suitable mercapto (SH—) group, a hindered amine or a dimethylthiotoluenediamine (DMTDA). Optionally, the cement product includes a filler and/or a bioactive component to promote bone formation.

Abstract: The present invention relates to a medium composition containing an Ecklonia cava extract for dedifferentiating an induced pluripotent stem cell. Also, the present invention relates to a method for differentiating an induced pluripotent stem cell, produced by using the medium composition into a chondrocyte. When using the medium composition according to the present invention, induced pluripotent stem cells using mesenchymal stem cells can be produced efficiently, and the pluripotent stem cells which have been produced can be useful as a cell treatment agent by being capable of being differentiated into chondrocytes.

Abstract: The invention relates to a method for producing an antibiotic bone cement, whereby, in a step A), a bone cement base powder with a water content of less than or equal to 1.0% by weight is mixed with trometamol-fosfomycin to form a bone cement powder, and, in a step X), the bone cement powder is dried to a water content of less than or equal to 1.0% by weight. The invention also relates to a bone cement powder that was produced according to said method and contains a bone cement base powder and trometamol-fosfomycin, whereby the bone cement powder has a water content of less than or equal to 1.0% by weight. The bone cement powder is free-flowing and does not clump and can be used for producing bone cements that meet ISO 5833.