Abstract: Disclosed are chemically modified hyaluronic acid (HA) derivatives containing hydrazido groups directly linked to the glucuronic acid residues of HA. Said hydrazido groups are used to obtain crosslinked and labeled HA derivatives. The invention further relates to methods of preparation of said HA derivatives.

Abstract: The present invention relates to fibroblast growth factor 18 (FGF-18) variants having various truncations beyond the signal peptide domain of the N-terminus, which activate FGFR3 with increased specificity. The invention further relates to polynucleotides encoding the variants, pharmaceutical compositions comprising same and methods for use thereof in treating cartilage and skeletal disorders.

Abstract: The present invention relates to a method for the treatment of skeletal dysplasia by administering to a patient a composition comprising a therapeutically effective amount of at least one C-type natriuretic peptide (CNP).

Abstract: The present invention provides water-soluble reactive esters of carboxy polysaccharides and derivatives thereof. The reactive carboxy polysaccharide derivatives are useful per se in aqueous solutions or specifically for the formation of water-soluble covalent fibrinogen conjugates. A preferred conjugate is a hyaluronic acid-fibrinogen conjugate and fibrin adhesive, clot or matrix derived from it. Methods of preparation and methods of use in tissue repair and regeneration are also disclosed.

Abstract: The present invention relates in general to orthopedics and to a method for promoting repair of large bone defects, in particular non-union or delayed union fractures. Specifically the invention concerns the use of endothelial progenitor cell preparations for bone repair.

Abstract: Methods for treating diseased or injured tissue by implanting into the tissue at a site of the disease or injury a porous freeze-dried fibrin matrix formed from plasma proteins. The proteins include fibrinogen cleaved by the action of thrombin at varying concentrations sufficient to cleave the fibrinogen and Factor XIII. The matrix has less than 10% residual moisture and is devoid of exogenous anti-fibrinolytic agents, plasminogen and of organic chelating agents. Alternatively, the plasma proteins comprise partially purified plasma proteins that are devoid of plasminogen.

Abstract: The present invention provides fibroblast growth factor variants demonstrating enhanced receptor subtype specificity and/or affinity. Preferred embodiments include both variants having enhanced activity that act as improved agonists and variants having reduced activity that act as antagonists. Methods of utilizing preferred FGF variants in preparation of medicaments for the treatment of skeletal disorders including skeletal dysplasia, osteoporosis and enhancing bone fracture healing and cartilage healing processes are provided.

Abstract: Methods for producing porous freeze-dried fibrin matrices substantially devoid of external anti-fibrinolytic agents. Resilient matrices, also known as sponges, that are particularly beneficial for supporting three dimensional cell growth are obtained from plasma proteins substantially devoid of plasminogen or from partially purified plasma proteins, thus obviating the need for exogenous anti-fibrinolytic agents. Furthermore, incorporation of glycosaminoglycans and bioactive agents during the formation of the matrix results in a sponge having advantageous biological, mechanical and physical properties. The compositions made by the method of the present invention are useful clinically or as cell-bearing implants.

Abstract: The present invention provides fibroblast growth factor variants demonstrating enhanced receptor subtype specificity and/or affinity. Preferred embodiments include both variants having enhanced activity that act as improved agonists and variants having reduced activity that act as antagonists. Methods of utilizing preferred FGF variants in preparation of medicaments for the treatment of skeletal disorders including skeletal dysplasia, osteoporosis and enhancing bone fracture healing and cartilage healing processes are provided.

Abstract: The present invention is related to antibodies with binding affinity to fibroblast growth factor receptor 2 (FGFR2) optionally with binding affinity to other FGF receptors, which block both ligand-dependent and constitutive ligand independent receptor activation. Specifically, the present invention relates to antibodies with high affinity to more than one FGF receptor subtype, and fragments thereof, useful in treating disorders including cell proliferative diseases.

Abstract: The present invention relates to the design, manufacture and use of fibroblast growth factor (FGF) polypeptides having improved receptor specificity. In particular, the invention relates to isolated FGF2 and FGF4 polypeptides that include a truncated N-terminus and optionally N-terminal amino acid substitutions. The present invention provides polypeptides, nucleic acids encoding the polypeptides, compositions of the same and methods for use thereof.

Abstract: A bone-enhancing composite material comprising synthetic apatite and at least one supplementary bioactive agent selected from a biocompatible polymer and an anti-resorptive agent added ab initio, methods of preparing said composite and uses thereof are provided. The physical and biological properties of the composite are controlled by the addition of specific supplementary bioactive agents as well as optional therapeutic agents. The composite may be used as a powder, a paste or an implant.

Abstract: Mixtures, such as gels or pastes, comprising freeze-milled cartilage particles and exogenous growth factors are used for repairing chondral defects. Such mixtures may be applied to constructs comprising cancellous bone for implantation at the defect site. Suitable growth factors include variants of FGF-2, particularly variants that include a sole amino acid substitution for asparagine at amino acid 111 of the ?8-?9 loop of the FGF-2 peptide. Such FGF-2 variants are released slowly and continuously at a constant rate from cartilage pastes. In other embodiments, the amino acid substituted for asparigine is glycine. Other variants that may be used include FGF-9 variants having truncated chains and a sole amino acid substitution in the ?8-?9 loop of the FGF-9 peptide either for tryptophan at amino acid 144 or for asparagine at amino acid 143.

Abstract: Methods for producing porous freeze-dried fibrin matrices substantially devoid of external anti-fibrinolytic agents. Resilient matrices, also known as sponges, that are particularly beneficial for supporting three dimensional cell growth are obtained from plasma proteins substantially devoid of plasminogen or from partially purified plasma proteins, thus obviating the need for exogenous anti-fibrinolytic agents. Furthermore, incorporation of glycosaminoglycans and bioactive agents during the formation of the matrix results in a sponge having advantageous biological, mechanical and physical properties. The compositions made by the processes of the present invention are useful clinically, per se or as cell-bearing implants.

Abstract: The present invention relates to porous freeze-dried fibrin matrices substantially devoid of external anti-fibrinolytic agents, and methods of producing such matrices. Resilient matrices, also known as sponges, that are particularly beneficial for supporting three dimensional cell growth are obtained from plasma proteins substantially devoid of plasminogen or from partially purified plasma proteins, thus obviating the need for exogenous anti-fibrinolytic agents. Furthermore, incorporation of glycosaminoglycans and bioactive agents during the formation of the matrix results in a sponge having advantageous biological, mechanical and physical properties. The compositions of the present invention are useful clinically, without cells or as a cell bearing implants.

Abstract: The present invention provides water-soluble reactive esters of carboxy polysaccharides and derivatives thereof. The reactive carboxy polysaccharide derivatives are useful per se in aqueous solutions or specifically for the formation of water-soluble covalent fibrinogen conjugates. A preferred conjugate is a hyaluronic acid-fibrinogen conjugate and fibrin adhesive, clot or matrix derived from it. Methods of preparation and methods of use in tissue repair and regeneration are also disclosed.

Abstract: The present invention is related to antibodies with binding affinity to fibroblast growth factor receptor 2 (FGFR2) optionally with binding affinity to other FGF receptors, which block both ligand-dependent and constitutive ligand independent receptor activation. Specifically, the present invention relates to antibodies with high affinity to more than one FGF receptor subtype, and fragments thereof, useful in treating disorders including cell proliferative diseases.

Abstract: The present invention relates in general to orthopedics and to a method for promoting repair of large bone defects, in particular non-union or delayed union fractures. Specifically the invention concerns the use of endothelial progenitor cell preparations for bone repair.

Abstract: The present invention provides fibroblast growth factor variants demonstrating enhanced receptor subtype specificity and/or affinity. Preferred embodiments include both variants having enhanced activity that act as improved agonists and variants having reduced activity that act as antagonists. Methods of utilizing preferred FGF variants in preparation of medicaments for the treatment of skeletal disorders including skeletal dysplasia, osteoporosis and enhancing bone fracture healing and cartilage healing processes are provided.

Abstract: Molecules comprising the antigen-binding portion of antibodies that block constitutive and/or ligand-dependent activation of a receptor protein tyrosine kinase, such as fibroblast growth factor receptor 3 (FGFR3), are found through screening methods, where a soluble dimeric form of a receptor protein tyrosine kinase is used as target for screening a library of antibody fragments displayed on the surface of bacteriophage. The molecules of the present invention which block constitutive activation can be administered to treat or inhibit skeletal dysplasia, craniosynostosis disorders, cell proliferative diseases or disorders, or tumor progression associated with the constitutive activation of a receptor protein tyrosine kinase.