Abstract: Degradable bioprostheses made of collagen-based material having amine-based and ester-based crosslinks are provided, as are methods for their formation and use. Some embodiments of the present invention are directed towards a method of controlling the ratio of amine-based crosslinks to ester-based crosslinks within a collagen-based material to provide a tailorably crosslinked collagen-based material. Some embodiments provide a method of making a degradable bioprosthesis involving controlling crosslinking to afford a degradable bioprosthesis that is partially crosslinked. By controlling the ratio of amine-based to ester-based crosslinks, by controlling the level of crosslinking, or by controlling both of these features, degradable bioprostheses with tailored degradation rates can be synthesized. Some embodiments of degradable bioprostheses have degradation rates that are tailored to allow their use in particular medical applications.

Abstract: Hydrogels comprising a macromolecular matrix and water may be used to augment soft tissue of a human being, promote or support cell or tissue viability or proliferation, create space in tissue, and for other purposes. A macromolecular matrix may comprise a hyaluronic acid component crosslinked to a collagen component.

Abstract: The process for manufacturing collagen and trace elements from sea water consists of various steps which are raw material preparation, resting of raw material, preliminary filtration to remove heavy metals, deodorize and purity remaining impurities, spraying of water, separation of heavy metals, collagen and trace elements from water and separation of collagen and trace elements. The process according to this invention, apart from sea water, can be applied to other type of salt water by adjusting the salinity and density of the water to an optimal value. The process according to this invention yields clean and purified collagen which is easily absorbed by human body and contains numerous types of trace elements.

Abstract: Disclosed herein are an in situ-forming, bioadhesive hydrogel and the medical uses thereof. Being formed by in situ crosslinking through an enzymatic reaction, the hydrogel has an advantage over conventional bioadhesive hydrogels in terms of biocompatibility. In addition, the in situ-forming bioadhesive hydrogel has excellent biocompatibility and mechanical strength and has excellent tissue adhesiveness thanks to modification with/without dopa derivatives. The hydrogel finds a variety of applications in the biomedical field, including bioadhesives or hemostats, implant substances for tissue regeneration and augmentation, carriers for delivering biologically active materials or drugs, etc.

Abstract: The present invention relates to a biotin-conjugated hexapeptide-2 derivative or a pharmaceutically acceptable salt thereof and use thereof. More particularly, the present invention relates to a biotin-conjugated hexapeptide-2 derivative or a pharmaceutically acceptable salt thereof, a preparation method thereof, a composition including the same as an active ingredient, and a method for improving wrinkles and inhibiting skin aging using the same.

Abstract: It is an object of the present invention to provide a targeting agent, which enables the delivery of a drug to tumor sites or the imaging of tumor sites by utilizing its effect of accumulating to such tumor sites. The present invention provides a targeting agent for tumor site, which comprises a hydrophilic polymer-modified carrier coated with a gelatin-like protein that has repeats of a sequence represented by Gly-X-Y characteristic to collagen and has two or more sequences of cell adhesion signals in a single molecule wherein X and Y each independently represent an amino acid and a plurality of Gly-X-Y sequences may be the same or different.

Abstract: A bioadhesive formulation, comprising gelatin, alginate and a coupling agent, capable of forming a bioadhesive matrix, which is characterized by rapid curing, optimal viscosity, high bonding strength, flexibility, biocompatibility and biodegradability, is disclosed. Further disclosed is such a bioadhesive formulation which further comprises a bioactive agent, and a drug-eluting bioadhesive matrix formed therefrom, the bioadhesive matrix being capable of delivering the bioactive agent to a bodily site. Methods utilizing the bioadhesive formulations and matrices in various biological and medical procedures are also disclosed.

Abstract: Methods of delivering therapeutic agents by administering compositions including a bacterial collagen-binding polypeptide segment linked to the therapeutic agent to subjects in need of treatment with the therapeutic agent are provided. Methods of treating hyperparathyroidism, and hair loss using compositions comprising a collagen binding polypeptide and a PTH/PTHrP receptor agonist are provided. In addition, methods of reducing hair regrowth by administering a composition including a collagen binding polypeptide and a PTH/PTHrP receptor antagonist are provided.

Abstract: This invention relates to collagen-binding synthetic peptidoglycans. More particularly, this invention relates to collagen-binding synthetic peptidoglycans for use in vascular intervention procedures. The invention also relates to kits comprising such collagen—binding synthetic peptidoglycans and catheters or stents.

Abstract: For the repair of a cartilage defect in a human or animal patient use is made of an implant comprising an implant body including a natural cartilage matrix and being coated with cells having a chondrogenic potential. These cells are produced by in vitro cell proliferation starting from chondrocytes isolated from a cartilage biopsy. The chondrocytes which are de-differentiated during cell proliferation are re-differentiated during tissue culturing and are in particular suitable for producing and maintaining the cartilage matrix of the implant body. The cells adhering to the surface of the implant body are preferably also chondrocytes being de-differentiated by cell proliferation, but not re-differentiated, and are therefore particularly suitable for integrating the implant in the defect. Due to the cells adhering to the surface of the implant body, the implant is successfully integrated in the viable tissue surrounding the defect.

Abstract: The disclosure describes collagen constructs comprising anticancer agents, preferably, platinum, and related methods.

Abstract: The disclosure describes collagen constructs comprising antifungal agents, preferably, copper, and related methods.

Abstract: A foamed biocompatible material for use in tissue repair and a kit for producing same. The kit includes a container having a valve and an inlet, and a tissue-repair composition containing a biocompatible material and a liquid carrier, in which the composition is placed in the inlet of the container and the inside of container has a pressure lower than that of the outside so that, upon opening the valve, the composition is forced into the container by the pressure difference to form a foam inside the container. Also disclosed is a method of preparing a foamed biocompatible material for tissue repair.

Abstract: This invention provides disrupted cartilage products, methods of manufacturing disrupted cartilage products, and methods of treating a subject comprising administering a cartilage product. The cartilage products are manufactured by a method comprising disrupting a collagen matrix, e.g. to produce a flexible cartilage product. Optionally, the cartilage products comprise viable chondrocytes, bioactive factors such as chondrogenic factors, and a collagen type II matrix. Optionally, the cartilage products are non-immunogenic.

Abstract: The present invention relates to a modified collagen obtainable by providing isolated collagen; freezing the isolated collagen; dehydrating the frozen collagen; and maturing the dehydrated collagen. Also disclosed are methods of preparing the modified collagen and uses thereof.

Abstract: The present invention features compositions featuring agents that bind to denatured collagen and methods of using such agents to treat or prevent fibrosis or inflammation in a subject.

Abstract: The invention provides a genipin cross-linked fibrin gel. The ratio of genipin to fibrin in the gel ranges from about 0.1:1 to about 10:1 (genipin:fibrin). The gel can be hydrogel. The gel further contains proteins from the extracellular matrix that promote cell growth and density in and around the gel. Also provided is method for repairing tissue defects by administering the gel to site of tissue defect.

Abstract: It is an object of the present invention to provide a targeting agent, which enables the delivery of a drug to tumor sites or the imaging of tumor sites by utilizing its effect of accumulating to such tumor sites. The present invention provides a targeting agent for tumor site, which comprises a hydrophilic polymer-modified carrier coated with a gelatin-like protein that has repeats of a sequence represented by Gly-X-Y characteristic to collagen and has two or more sequences of cell adhesion signals in a single molecule wherein X and Y each independently represent an amino acid and a plurality of Gly-X-Y sequences may be the same or different.

Abstract: A medical device intended for insertion into a living body, which includes a non-biodegradable substrate having a tissue contact surface, wherein said tissue contact surface is at least partially coated with microfibrils of collagen VI.

Abstract: A treated surface of a device (10) for implantation or for application as a wound dressing, comprises an array of plasma-activated hydrophilic cell-adhesive areas (18) having the ability to reduce fibrous reaction, is in the form of an array of islets of activation. Each islet of activation (18) has a length which is less than 6 ?m, a width which is less than 2 ?m and the distance between islets is preferably from 4 ?m to 6 ?m. The islets of activation (18) are surrounded by non-activated, non-adhesive, hydrophobic areas.

Abstract: A mask for skin care includes a fiber substrate, wherein the fiber substrate is woven or nonwoven, and includes modified fibers, and the modified fibers are cellulose fibers with at least one hydrophilic functional group grafted on. The grafted ratio of the modified fibers is in the range from 5% to 30%, and the modified fibers can effectively improve the moisture absorption and the moisture-retaining capacity of the mask for skin care.

Abstract: A method of increasing muscle mass and strength in mammals by orally administering a therapeutically effective amount of phosphatidic acid. The phosphatidic acid is preferably administered as a plurality of doses per day with at least one dose being administered during the anabolic window following exercise. Preferably, the method further includes the cotemporaneous administration of a therapeutically effective amount of creatine, optionally as phosphatidylcreatine. In addition or in the alternative, the method further includes the cotemporaneous administration of a therapeutically effective amount of leucine, optionally as phosphatidylleucine.

Abstract: Provided herein are biocompatible polymer conjugates comprising a biologically compatible polymer covalently bound to a biologically compatible chelator moiety, which in turn are optionally bound, reversibly, to pharmacologically active metal ions. The biologically compatible polymer may comprise of modified placental tissue grafts composed of at least one membrane, capable of recruiting stem cells in vivo and in vitro.

Abstract: The present invention provides compositions comprising isolated human collagen, isolated human elastin and a pharmaceutically acceptable carrier wherein the human elastin is substantially insoluble in water with a molecular weight greater than 100 kDa. The present invention further provides methods and kits for soft tissue augmentation.

Abstract: Degradable bioprostheses made of collagen-based material having amine-based and ester-based crosslinks are provided, as are methods for their formation and use. Some embodiments of the present invention are directed towards a method of controlling the ratio of amine-based crosslinks to ester-based crosslinks within a collagen-based material to provide a tailorably crosslinked collagen-based material. Some embodiments provide a method of making a degradable bioprosthesis involving controlling crosslinking to afford a degradable bioprosthesis that is partially crosslinked. By controlling the ratio of amine-based to ester-based crosslinks, by controlling the level of crosslinking, or by controlling both of these features, degradable bioprostheses with tailored degradation rates can be synthesized. Some embodiments of degradable bioprostheses have degradation rates that are tailored to allow their use in particular medical applications.

Abstract: An in situ gel-forming composition is disclosed. The in situ gel-forming composition comprises one or more absorbable polymers, solvents such as N-methyl-2-pyrrolidone, polyethylene glycol or DMSO, and optionally one or more bioactive agent. The composition forms a hydrogel or semi-solid mass on contact with an aqueous environment. The method of using in situ gel-forming composition for various applications is also disclosed.

Abstract: The present invention is directed to stabilizing Bone Morphogenetic Protein in various lyophilized formulations and compositions. The present invention comprises formulations primarily including trehalose as an excipient for lyophilized compositions and their subsequent storage and reconstitution, and can also optionally include other excipients, including buffers and surfactants.

Abstract: The present invention relates to a method for manufacturing a triple cross-linked collagen, which comprises the following steps: providing a soluble collagen sample; mixing the collagen sample with a first cross-linking agent to form a one cross-linked collagen; mixing the first cross-linked collagen with a second cross-linking agent to form a second cross-linked collagen; and mixing the second cross-linked collagen with a third cross-linking agent to form a triple cross-linked collagen, wherein each of the first cross-linking agent, the second cross-linking agent, and the third cross-linking agent is selected from the group consisting of an aldehyde cross-linking agent, an imine cross-linking agent, and an epoxide cross-linking agent. In addition, the first cross-linking agent is different form the second cross-linking agent, and the third cross-linking agent is different form the first cross-linking agent and the second cross-linking agent.

Abstract: A method for improving bioactivity and/or biodegradation time of a collagen surgical implant and collagen surgical implants having such improved properties. A gas-cluster ion-beam (GCIB) is formed in a reduced-pressure chamber, a collagen surgical implant is introduced into the reduced-pressure chamber, and at least a first portion of the surface of said collagen surgical implant is irradiated with a GCIB-derived beam.

Abstract: The invention provides modified collagen and related therapeutic and diagnostic methods.

Abstract: Systems and methods for cosmetic augmentation by forming a biocompatible cross-linked polymer having a multi-phase mixture with a temperature activated catalyst; injecting the mixture into a patient as a homogeneous fluid; activating the catalyst to cross-link the polymer at a predetermined temperature in a patient; and augmenting soft tissue with the biocompatible cross-linked polymer.

Abstract: Osteoconductive matrices and methods are provided that have one or more statins disposed in calcium phosphate particles. The matrices may be injected into a fracture site. The osteoconductive matrices provided allow for sustained release of the statin and facilitate bone formation and repair of the fracture site.

Abstract: It is an object of the present invention to provide a targeting agent that enables drug delivery to a neovascular site and the imaging of such a neovascular site, utilizing the effect of the agent to accumulate in the neovascular site. The present invention provides a targeting agent to a neovascular site, which comprises a gelatin-like protein.

Abstract: The invention relates to a novel class of self-assembling peptides, compositions thereof, methods for the preparation thereof and methods of use thereof. The invention also encompasses methods for tissue regeneration, increasing the production of extracellular matrix proteins, and methods of treatment comprising administering self-assembling peptides.

Abstract: The present invention is directed to implantable compositions comprising substantially spherical bioactive glass particles.

Abstract: The present invention relates to a method of preparing a composite biomaterial, essentially consisting of collagen in combination with granules of hydroxyapatite/?-tricalcium phosphate (HA/?-TCP), to be used in maxillofacial surgery, dentistry, aesthetic surgery and particularly in orthopedic surgery; the invention also relates to the biomaterial obtained by means of this method.

Abstract: An active small-molecule donkey-hide gelatin mixture and a preparation method and application thereof. The active small-molecule donkey-hide gelatin mixture is prepared by using the compound protease comprising the proline protease to perform the enzymatic hydrolysis on the donkey-hide gelatin juice to which no auxiliary material is added. For the active small-molecule donkey-hide gelatin mixture, the weight-average molecular weight ranges from 580 Da to 1300 Da, the peptide segments are distributed from 200 Da to 3000 Da, the dissolution rate in cold water is high, and the content of free amino acid is low; the active small-molecule donkey-hide gelatin mixture may be used for manufacturing small-molecule peptide food and health care food of donkey-hide gelatin.

Abstract: Described herein are crosslinked compounds useful in numerous treatments. Described herein are methods of making crosslinked compounds via (1) the oxidative coupling of two or more thiol compounds or (2) by the reaction between at least one thiol compound with at least one thiol-reactive compound.

Abstract: The invention provides engineered biomaterials derived from plant products. The engineered biomaterials are useful for biomedical applications. The engineered biomaterials are able to support the growth of animal calls.

Abstract: Chemoattractant polypeptide compounds for progenitor cells and compositions and drug products comprising the compounds are provided herein. Methods for attracting progenitor cells to a location in or on a patient also are provided along with methods of growing and repairing bone.

Abstract: This invention relates to collagen-binding synthetic peptidoglycans and engineered collagen matrices comprising a collagen matrix and a collagen-binding synthetic peptidoglycan where the collagen-binding synthetic peptidoglycan can be aberrant or can have amino acid homology with a portion of the amino acid sequence of a protein or a proteoglycan that regulates collagen fibrillogenesis. The invention also relates to kits, compounds, compositions, and engineered graft constructs comprising such collagen-binding synthetic peptidoglycans or engineered collagen matrices and methods for their preparation and use.

Abstract: This disclosure provides extracellular matrix-binding synthetic peptidoglycans comprised of one or more synthetic peptides conjugated to a glycan and methods of their use.

Abstract: Therapies and compositions for reducing collagen synthesis in mammalian cells and tissues wherein the targets are scleraxis, scleraxis-binding sites, receptor-regulated Smads, and/or binding sites for receptor-regulated Smads whereby synergistic interactions between scleraxis proteins and receptor-regulated Smads are reduced, inhibited, interfered with, stopped, and/or prevented thereby reducing, inhibiting and/or interfering with the activation of collagen 1?2 promoter thereby inhibiting collagen production in mammalian cells and tissues. Alternatively, the therapies and compositions may reduce, inhibit, interfere with, stop, and/or prevent binding of the collagen 1?2 promoter to DNA thereby inhibiting expression of the collagen 1?2 gene in mammalian cells and tissues.

Abstract: The present invention relates to new biphenyl-3-carboxylic acid modulators of beta-3-adrenoceptor activity, pharmaceutical compositions thereof, and methods of use thereof.

Abstract: Provided herein are biologically active solution compositions comprising one or more sacrificial proteolytic enzyme substrates, one or more preservatives, and one or more antimicrobial agents and methods of using the solution compositions to treat tissue sites, in particular chronic wounds. The compositions may be used in conjunction with negative pressure wound therapy to treat tissue sites.

Abstract: Methods of stimulating collagen production, including stimulation of chondrocyte production, at the site of a defect. Methods include administering to the site of a defect at least two proteins from the group IL-1ra, sTNF-RI, sTNF-RII, IGF-I, EGF, HGF, PDGF-AB, PDGF-BB, VEGF, TGF-?1, and sIL-1RII.

Abstract: Described herein are compounds and compositions for the amelioration of arthritis or joint injuries by inducing mesenchymal stem cells into chondrocytes.

Abstract: The present invention relates to collagen hydrolysate and the use thereof for treating and/or preventing cellulite.

Abstract: Fabrication method for stratified and layered tissue to repair osteochondral defects. In a method of the present disclosure, the method comprises the step of applying a first direction magnetic field to a first quantity of a first collagen solution to align collagen within the first collagen solution in a first direction relative to the first direction magnetic field, forming a first layer of collagen. In a method of generating an aligned collagen layer of the present disclosure, the method comprises applying a first magnetic field at or greater than 0.1 Tesla to a layer of a first collagen solution defining a horizontal plane, within a temperature at or between 2° C. and 45° C., to generate an aligned collagen layer.

Abstract: The invention is directed to the cosmetic use of tetrapeptides according to formula (I) R1-Val-Leu-Leu-Lys-R2 (I) wherein R1 is linked to the NH2-terminal group of the peptide and is chosen from the group consisting of —H, a linear saturated or unsaturated or branched saturated or unsaturated acyl group having 1 to 24 carbon atoms, which may be functionalized by a —OH, —SH, —COOH or —CONH2 group wherein R2 is the terminal carboxylic group of the peptide either as —COOR3 or —CO—NH2, and wherein R3 is chosen from the group consisting of —H, a linear saturated or unsaturated or branched saturated or unsaturated alkyl group having 1 to 24 carbon atoms, which may be functionalized by a —OH, —SH, —COOH or —CONH2 group. The invention is also directed to the respective tetrapeptides and cosmetic compositions containing these.