Abstract: The present invention concerns isolated collagen, the method for its production, and isolation of the collagen from collagen-containing tissues, as well as the use of the isolated collagen in a biomatrix as an in vitro test system, tissue replacement or organ replacement.

Abstract: A method for separation the collagen from the various animal tissues is disclosed for preparing collagen solution and product using the same. The porcine tissues are processed to have proper form and size for acid-treatment. The acid-treatment is repeated with pepsin to separate type I or II collagens. The separated collagen is salt-treated for fractionation and ethanol-treated for obtaining 5˜10% of collagen from the initial tissue weight. The prepared tissues are processed for separating collagen through the collagen separating process. The separated collagen is processed for preparing product. The method for preparing product is comprised: treating a collagen solution having a predetermined concentration under a neutral condition at a low temperature, followed by overnight treatment at a temperature of 30 to 35° C.

Abstract: Provided is a kind of modified recombinant human endostatin that has the structure of CH3O—(CH2CH2O)m—CH2CH2CH2—N?H-Endostar, wherein the average molecular weight of CH3O—(CH2CH2O)m—CH2CH2CH2— is 20-40 kD. The modified recombinant human endostatin enhances the stability in vivo, improves blood drug concentration, prolongs half-life, markedly increases the activity of inhibiting the endothelial cells proliferation, thus reduces drug dosage and decreases administration frequency. Its application for preparing anti-tumor pharmaceutical compositions is also provided.

Abstract: Methods of forming soft connective tissue compositions such as skin equivalents, compositions made by the methods and their uses.

Abstract: The invention described herein relates to biopolymer structures. The biopolymer structures are spatially organized from the nanometer to centimeter length scales and incorporate functionally active cells. Applications of the biopolymer structures include use with stem cells.

Abstract: Methods for using ionic liquids to extract and separate a biopolymer from a biomass containing the biopolymer are disclosed. Methods for dissolving a biopolymer in an ionic liquid are also disclosed. A recovery solvent is used to reduce the solubility of the biopolymer in the ionic liquid and conventional separation techniques are used to recover the biopolymer. Biopolymers encompassed by this invention include chitin, chitosan, elastin, collagen, keratin and polyhydroxyalkanoate.

Abstract: Materials and methods for improving the biological properties and electromechanical performance of collagen scaffolds used for cell transplantation, including the fixation of biocompatible reagents and adhesion molecules which control cell adhesion, apoptosis, survival and/or differentiation simultaneously. The grafting of adhesion molecules to collagen matrices renders same suitable for use in vascular and cardiothoracic surgery/medicine, as well as in cell therapy for the heart and in artificial heart muscle engineering. Also, a simple method for grafting and optimising the presentation of adhesion peptides or biological agents when the scaffold is made from collagen and/or contains accessible thiol, amine or carboxyl groups.

Abstract: Various embodiments include methods for diagnosing and treating medical conditions that involve an autoimmune response to connective tissue such as collagen found in organs such as the lung. In one method pulmonary disease and disorders such as Idiopathic Pulmonary Fibrosis (IPF) are diagnosed by analyzing fluid or tissue samples obtained from a patient for evidence of an autoimmune response to various types of collagen including, for example, Type V. One type of assay for evidence of an autoimmune response to Type V collagen comprises the steps of obtaining a fluid or tissue sample from a patient, contacting at least a portion of the sample with antigen to anti-Type V collagen antibody and monitoring the mixture of sample and antigen for changes indicative of the presence of anti-Type V collagen in the sample. Another embodiment includes treating pulmonary diseases such as IPF by administering a therapeutically effective dose of epitopes of various collagens including Type V collagen.

Abstract: A DNA molecule consisting of the nucleotide sequence of SEQ ID NO: 1, which encodes a collagenous (COL1) domain and a C-terminal noncollagenous (NC1) domain of type XXI collagen. Expression systems and methods for the expression of the DNA molecule are also provided.

Abstract: Provided are an organic-inorganic hybrid scaffold with surface-immobilized nano-hydroxyapatite, and a method for the fabrication thereof. The scaffold is fabricated by reacting an acid group present on a surface of nano-hydroxyapatite with a primary amine present on a surface of a polymer support in the presence of EDC (1-ethyl-3-dimethylaminopropyl carbodiimide) to immobilize nano-hydroxyapatite onto the surface of the polymer support. The surface of nano-hydroxyapatite is previously grafted with poly(ethylene glycol methacrylate phosphate) (PolyEGMP) having phosphonic acid functionality or with a polymer having carboxylic acid functionality.

Abstract: An object of the invention is to provide type IV collagen without contamination by other proteins and without degradation or denaturation. The present invention provides a type IV collagen which is derived and extracted from lens capsules without the use of an enzyme and has a minimum molecular weight of 160 to 180 kDa measured by SDS-PAGE under reduced conditions.

Abstract: A method of controlling obesity by physically narrowing the lumen of the pylorus One embodiment includes injection of a bio-compatible bulking or stiffening material into the pyloric sphincter area of the stomach. The injection of this material bulks the pyloric sphincter, narrowing the lumen, retarding stomach emptying and producing a feeling of satiation in the patient. The method may be practiced or supplemented by cauterization of the pyloric sphincter or by suturing the sphincter to narrow the same and may be augmented by inducing flacid paralysis of the stomach by injecting botulinum toxin into the muscle tissue of the antrum or fundus of the stomach.

Abstract: A substrate is provided having a biomolecule immobilised thereon, wherein the biomolecule is connected via an enzyme-cleavable link to a blocking moiety such that cleavage of the link causes removal of the blocking moiety and activation of the biomolecule.

Abstract: A method for producing a porous body comprising apatite/collagen composite fibers comprising the steps of gelling a dispersion comprising long apatite/collagen composite fibers having an average length of 10-75 mm, short apatite/collagen composite fibers having an average length of 0.05-1 mm, and a liquid; freezing and drying the resultant gel to form a porous body; and cross-linking collagen in the porous body.

Abstract: Provided herein are methods, devices, and compositions for dermal filling. Also described herein are dermal filler cross-linked compositions and methods for making such compositions. Such compositions comprise, for example, a cross-linked composition of hyaluronic acid, derivatives of hyaluronic acid or mixtures thereof, alginic acid, derivatives of hyaluronic acid or mixtures thereof and calcium ions.

Abstract: The present invention relates to pharmaceutical compositions comprising gliomedin and active fragments thereof, polynucleotides encoding gliomedin, host cells expressing gliomedin, antibodies to gliomedin and small interfering RNA (siRNA) molecules that down regulate the expression of gliomedin and methods of using same. The present invention also provides methods of treating and diagnosing neurological disorders using the pharmaceutical compositions and antibodies of the invention.

Abstract: A pump to deliver bone-growth factors to a carrier matrix within a patient. Pump can be internal or external. With external pumps, additional amounts of the same growth factor may be added, or the bioactive agent may be changed during the course of treatment. An external pump permits the use of cells to promote bone growth. The pump can have several reservoirs and the pump can itself be received in the carrier matrix with an outlet tube or other structure to defuse the growth factors into the carrier matrix. The pump protocol can be used for slow-to-heal fractures, such as closed fractures, and can be used for slow-to-heal patients.

Abstract: Described are osteogenic implants that include a first implant material covered at least in part by a second implant material carrying an osteogenic protein such as a bone morphogenic protein. The first implant material can comprise a mineral and provide an inner scaffolding portion for supporting bone ingrowth, and the second implant material can comprise a collagen or other sponge carrier covering the first implant material and having a liquid osteogenic protein formulation imbibed therein. Related implant materials and methods of preparation and use constitute additional aspects of the invention.

Abstract: A biocompatible synthetic bone growth composition comprising a fibrillar collagen component and a calcium phosphate component. The composition is formed into particles, and then formed into a unitary article that may be provided at the site of a skeletal defect. An osteoinductive component may be further added, either before or after forming the unitary article. The composition may be formulated as a paste or putty and facilitates bone growth and/or repair.

Abstract: The present invention relates to a composition and uses thereof for treatment of damaged tissue comprising at least one essential amino acid in L form and at least one essential lipid; wherein the composition is administered to a mammal suffering from severe tissue damage. The invention further relates to a composition and uses thereof comprising a mixture of one or more free L-amino acids in which the molar ratio of the free L-amino acids corresponds to the molar ratio of amino components in a mammalian tissue protein; and at least one essential lipid.

Abstract: The invention relates to an osteogenic composite matrix consisting of collagen and non-collagen components of an extracellular matrix (ECM-components), to a method for producing said matrix, to a method for producing an implant or a scaffold for tissue engineering which is provided with a coating formed by said osteogenic composite matrix and is used for stimulating and accelerating a hard tissue formation such as, for example. The implant osseointegration in bones. The inventive osteogenic composite matrix comprises a collagen and at least one non-collagen ECM component or the derivatives thereof, wherein the collagen component consists of non-crosslinked collagen fibres produced by fibrillogenesis and the non-collagen ECM component or the derivatives thereof are integrated into said collagen fibres.

Abstract: The present invention discloses collagen cross-linked in a micro to non-fibrillar form and at a high concentration. The cross-linked collagen gel has improved volume stability or persistence than collagen cross-linked at a neutral pH. Also disclosed are methods for preparing the inventive cross-linked collagen and using such for augmenting soft tissues in mammals.

Abstract: The present invention provides recombinant triple helical proteins or collagen-like proteins comprising a prokaryotic protein or one or more domains of a prokaryotic protein comprising a collagen-like peptide sequence of repeated Gly-Xaa-Yaa triplets and, optionally, one or more domains from a mammalian collagen. Also provided are expression vectors and host cells containing the expression vectors to produce these recombinant proteins and methods of producing the same. Additionally, antibodies are provided that are directed against a recombinant collagen-like protein that, preferably, binds an integrin. Furthermore, a method of screening for potential therapeutic compounds that inhibit the integrin-binding or integrin-interacting activities of recombinant collagen-like proteins.

Abstract: Methods are provided for purifying marine collagen and for processing the collagen into porous sponges. Products produced with these methods and the use of the products are also provided.

Abstract: An object of the present invention is to provide a method for efficiently removing a residual organic solvent in a biopolymer structure. The present invention provides a method for removing an organic solvent contained in a biopolymer structure from the structure, (1) wherein the structure is placed in an atmosphere containing a solvent other than the organic solvent so as to remove the organic solvent, or (2) wherein the organic solvent is removed by washing the structure with a solution mainly containing water, or (3) wherein the structure contains a hydrophilic compound.

Abstract: Buffered assay solutions for performing 1) binding or 2) functional assays on GPCR arrays, along with methods for their use are described. The buffered assay solution has an underlying composition having: a buffer reagent with a pH in the range of about 6.5 to about 7.9; an inorganic salt of either a monovalent or divalent species, at a concentration from about 1 mM to about 500 mM; and optionally a combination of: c) a blocker reagent at a concentration of about 0.01 wt. % to about 2 wt. % of the composition, or d) protease-inhibitor at a concentration of about 0.001 mM to about 100 mM. In an embodiment for functional assay uses, the composition is modified to also include a GTP-analogue, a guanosine 5?-diphosphate (GDP) salt, and/or an anti-oxidant reagent.

Abstract: In a long-lasting collagen and its manufacturing method, a pig skin is gone through processes of scraping extra tissues, removing fats, imbibition, digesting, centrifugal separation, salting-out, collecting lower-layer precipitate and freeze-drying to form a collagen, and the collagen is mixed with ?-PGA, and then a glutaraldehyde solution is added and mixed uniformly to perform a first crosslinking and form the long-lasting collagen, so as to overcome the shortcomings of a conventional collagen having a short storage time, a requirement of applying the collagen repeatedly, and a high concentration of remained glutaradldehyde which is biologically poisonous to human bodies.

Abstract: The present invention relates to a novel use of alpha10, or a heterodimer thereof, for affecting cartilage extracellular matrix (ECM) turnover. Further, it relates to the use of a binding entity binding specifically to alpha10, or a heterodimer thereof, in the preparation of a medicament for treating a condition affecting ECM, such as rheumatoid arthritis and osteoarthritis. In particular, the invention relates to a method of treating an individual with a condition affecting ECM turnover, comprising administering to the individual an effective amount of a binding agent entity binding specifically to alpha10, or a heterodimer thereof.

Abstract: The present invention provides hydrogels and compositions thereof for vocal cord repair or augmentation, as well as other soft tissue repair or augmentation (e.g., bladder neck augmentation, dermal fillers, breast implants, intervertebral disks, muscle-mass). The hydrogels or compositions thereof are injected into the superficial lamina propria or phonatory epithelium to restore the phonatory mucosa of the vocal cords, thereby restoring a patient's voice. In particular, it has been discovered that hydrogels with an elastic shear modulus of approximately 25 Pa are useful in restoring the pliability of the phonatory mucosa. The invention also provides methods of preparing and using the inventive hydrogels.

Abstract: This invention relates to a hydrolysate of avian cartilage comprising 45% to 70% by weight of hydrolysed type II collagen, 9% to 15% by weight of chondroitin sulphate, 0.5% to 2% in weight of hyaluronic acid; with a composition of amino acids in which valine represents 2.7% to 3.3%, isoleucine represents 2.0 to 2.4, phenylalanine represents 2.2% to 2.6%, lysine represents 3.8% to 4.2%, tryptophane represents 0.4% to 0,6%, hydroxyproline represents 5.5% to 8.7%, hydroxylysine represents 0.7% to 1.8%, and in which the molar ratio between hydroxyproline and hydroxylysine is between 5.0 and 8.0; and having an average molecular weight of the peptidic fraction between 500 and 1000 Daltons. The invention also relates to a process for preparing said hydrolysate, and its use as a food complement, and/or as a medicament, particularly for treatment or prevention of joint pain.

Abstract: In general, the present invention is related to biopolymer and biocomposite materials and structures, and methods of making and using the same. In some embodiments, the present invention is directed to oriented collagen based biocomposite materials and structures, and methods of making.

Abstract: A method of separating carbon nanotubes having substantially the same diameter including the steps of: providing a sample of carbon nanotubes; separating individual nanotubes within the sample, and mixing with a solution comprising fibrous protein fibrils so that at least some individual nanotubes form a complex with the protein fibrils, and separating out those nanotubules which have formed a complex. Preferably the protein is collagen. The separated nanotubes can be used in the fields of electronics, medical and materials science.

Abstract: The present invention relates to adjuvants of the glycolipid type and their uses in pharmaceutical compositions, like in vaccines. In particular, the present invention provides new uses of compounds useful as adjuvants for prophylactic and/or therapeutic vaccination in the treatment of infectious diseases, inflammatory diseases, autoimmune diseases, tumours and allergies. The compounds are particularly useful not only as systemic, but preferably as mucosal adjuvants.

Abstract: In various embodiments, a collagen product is provided that is derived from an animal, the collagen product comprises precipitated collagen that is substantially pure. In various embodiments, the collagen is obtained from a marine animal and does not contain prions or viruses. In various embodiments, the collagen can be made or incorporated into collagen films, collagen membranes, cosmetic collagen masks, collagen sponges, gelatin, hemostasis sponges, lyophilized foams, collagen injections, artificial skins and dura, bones, cartilage, screws, shafts, stems, or tube guides.

Abstract: It was examined whether a cartilage-like tissue is formed under various reaction conditions using cartilage matrix components: glycosaminoglycan, proteoglycan, and collagen. The present inventors have discovered that proteoglycan bound to glycosaminoglycan through self-organization form an aggregate when the glycosaminoglycan was reacted with proteoglycan under specific concentrations and pH, and that a mesh structure composed of collagen fibers was constructed through self-organization using the aggregates as a skeleton when the aggregates were reacted with collagen molecules.

Abstract: Provided are activated collagen scaffold materials as well as their special fused active restoration factors useful for promoting tissue repair, such as bone damage repair or nerve injury repair. The special fused active restoration factors are fusion proteins comprising a collagen-binding domain (CBD) at N-/C-terminus of cytokines, wherein the collagen-binding domain is a polypeptide consisting of 7-27 amino acid residues with a conservative sequence shown in SEQ IN NO:1 at N-terminus.

Abstract: The present invention provides a new structure made of collagen for improving promotion of nerve tissue regeneration, curing and regeneration of a defective part of a soft biological tissue and so on without using laminin or nerve growth factor (NGF), and a member for tissue regeneration including the same. The structure made of collagen according to the present invention has a thin film multilocular formation and therefore a new structure different from a colloid form, a gel form, and a fiber form. Therefore, when the new structure made of collagen according to the present invention is used as a member for tissue regeneration, surprisingly, promotion of regeneration, shortening of a treatment period, functional recovery, or the like of bodily tissue such as nerve tissue, subdermal tissue, submucosal tissue, membranous tissue, fat tissue, muscle tissue, skin tissue, and gingival tissue can be improved.

Abstract: A method of controlling obesity by injecting bio-compatible bulking material into the pyloric sphincter area of the stomach. The injection of this material bulks the pyloric sphincter, retarding stomach emptying and producing a feeling of satiation in the patient. The method may be supplemental and augmented by inducing flaccid paralysis of the stomach by injecting botulinum toxin into the muscle tissue of the antrum or fundus of the stomach.

Abstract: A composition comprising a purified collagen-like polypeptide suitable as a peptizer, said polypeptide comprising [Gly-X-Y]n repeats, wherein Gly stands for glycine, X and Y represent any amino acid and n is an integer and selected such that the length of the [Gly-X-Y]n repeat is at least 2.5 kDa and wherein the amino acid sequence of said [Gly-X-Y]n repeats comprises more than 4 different amino acids and wherein said purified polypeptide is free of helix structure.

Abstract: This invention relates to a collagen polypeptide comprising a tripeptide motif having the formula (ProYaaGly)n, where Yaa is an O-methylated amino acid residue and “n” is the number of motif repeats. Preferred O-methylated amino acid residues at the Yaa position include (2S,4R)-4-methoxyproline. Other suitable amino acid residues at that position include O-mono or O-di-halogenated methylproline. Also, disclosed is a method of making a synthetic or a semi-synthetic collagen polypeptide molecule having increased stability relative to natural collagen. The strengthened collagen molecules are suitable for use in biomaterials for the medical field or in leather-related products prepared by the tanning industry.

Abstract: The present invention provides recombinant triple helical proteins or collagen-like proteins comprising a prokaryotic protein or one or more domains of a prokaryotic protein comprising a collagen-like peptide sequence of repeated Gly-Xaa-Yaa triplets and, optionally, one or more domains from a mammalian collagen. Also provided are expression vectors and host cells containing the expression vectors to produce these recombinant proteins and methods of producing the same. Additionally, antibodies are provided that are directed against a recombinant collagen-like protein that, preferably, binds an integrin. Furthermore, a method of screening for potential therapeutic compounds that inhibit the integrin-binding or integrin-interacting activities of recombinant collagen-like proteins.

Abstract: The invention provides an article of manufacture comprising a substantially non-immunogenic injectable collagen for implantation into humans. The invention further provides methods for preparing injectable collagen material by removing collagen-containing material from a non-human animal; washing in saline and alcohol; subjecting material to cellular disruption treatment; and digesting the material with a proteoglycan-depleting factor and/or glycosidase and optionally following with a capping treatment. The invention also provides an article of manufacture produced by the method. The injectable collagen material of the invention are substantially non-immunogenic and have substantially the same mechanical properties as a corresponding native soft tissue.

Abstract: Implantable devices (e.g., stent) having a protein patterning or bioactive patterning for accelerated healing and method of forming and using the same are provided.

Abstract: The invention relates to a process for the production of a collagen implant for wound covering, in which a suspension comprising a telopeptide-containing collagen is produced and a phosphate buffer is added. An areal structure is produced by drying the collagen-containing mixture produced.

Abstract: A method and means of providing stromal repair and improved refractive correction by creating corneal stromal collagen tissue with fibril diameter and spacing that duplicates the optical transmission and diffusion characteristics of natural corneal collagen. The repair method includes implanting the collagen scaffold during laser corneal ablation or other interlamellar surgery to improve visual acuity or to preclude the possibility of ectasia.

Abstract: The present invention provides a tumor marker and a method capable of identifying the morbidity of colon cancer. A tumor marker including a protein identified from a colon cancer tissue. A method for identify the morbidity of colon cancer using the tumor marker. The method includes: measuring the level of the protein in a sample derived from a person of interest who should be examined to identify the morbidity of colon cancer; and comparing the measured level to the normal level of the protein, wherein a higher or lower measured level than the normal level is used as one indicator indicating that there is a high possibility that the person of interest has colon cancer.

Abstract: A method for in situ repair of meniscal injuries comprising induction of meniscal repair and regeneration by introducing an adhesive collagen-polyethylene glycol (PEG) hydrogel to a site of injury alone, supplemented with a synovial tissue or in conjunction with a support matrix.

Abstract: A film-forming collagen concentrate is provided containing at least 18% by weight dry matter. At least 50% by weight of the protein of a homogeneous suspension produced from the concentrate in a 0.15 molar aqueous sodium dihydrogenphosphate buffer having a pH of 7 and a calculated dry matter fraction of 0.5% by weight may be separated as sediment by 15 min centrifugation at 1780 RFC and 15° C. A process is also disclosed for producing a collagen-concentrate-containing food casing that includes (a) producing an aqueous collagen mass; (b) concentrating the aqueous collagen mass until it has a solids fraction of 18% by weight or more; (c) admixing the concentrate with dilute acid to obtain a (co)extrudable or castable collagen mass; (d) coextruding or casting the collagen mass to from a casing; (e) solidifying the casing and, optionally, (f) drying the casing.

Abstract: Systems, devices, and methods are provided for assembling polymer-forming molecular components such that highly-structured arrays of polymer strands, such as collagen fibrils, are formed without the need for cells. A polymer nanoloom is designed to control the self-assembly of monomers into fibrils and related tissue constructs including ligament, tendon, cartilage, and bone. A nanoloom system comprises a polymer printhead, a temperature controller, and a movable substrate for polymer printing. A polymer printhead contains one or more nanoreactors that can control the assembly of collagen fibrils or other polymers on a nanoscale. Methods are provided for temperature-driven, enzyme-driven, and cholesteric assembly of collagen or other polymers into two- or three-dimensional tissue constructs.

Abstract: A porous body comprising apatite/collagen composite fibers, which has a half-value period of strength of 0.8-1.6 hours, the half-value period of strength being the time until the strength of the porous body of 10 mm×10 mm×4 mm comprising apatite/collagen composite fibers is reduced to half, after the porous body degassed by pressure reduction to 3 kPa (absolute pressure) for 10 minutes in a phosphate buffer saline is given a 20-% strain at a speed of 10 mm/minute.