Abstract: The present invention relates to the use of Fibroblast Growth Factor Receptor I (FGFR1) extracellular domain (ECD) polypeptides for treatment of cancers characterized by ligand dependent activating mutations in Fibroblast Growth Factor Receptor 2 (FGFR2). For example, the present invention relates to the treatment of endometrial cancers and other cancers wherein tumor cells express FGFR2 mutants in the IgII-IgIII hinge region or IgIII domain of the protein, such as at amino acid positions 252 and/or 253.

Abstract: This invention relates to compositions and uses of NRG4, and to variants thereof and to polynucleotides encoding NRG4, for therapeutic and diagnostic purposes, particularly related to colon and pancreatic cancer. This invention also relates to therapeutic agents based on or derived from the polynucleotides and proteins, NRG4 inhibitors, particularly antibodies capable of specifically binding to NRG4.

Abstract: This invention relates to mouse and human EGFH2, and to variants thereof and to polynucleotides encoding EGFH2. This invention also relates to therapeutic agents related to the polynucleotides and proteins.

Abstract: This invention relates to compositions and uses of NRG4, and to variants thereof and to polynucleotides encoding NRG4, for therapeutic and diagnostic purposes, particularly related to colon and pancreatic cancer. This invention also relates to therapeutic agents based on or derived from the polynucleotides and proteins, NRG4 inhibitors, particularly antibodies capable of specifically binding to NRG4.

Abstract: This invention relates to human fibroblast growth factor (hFGF-23), to cleavage products of hFGF-23, and to variants thereof and to polynucleotides encoding FGF-23. The invention also relates to diagnostic and therapeutic agents related to the polynucleotides and proteins, including probes and antibodies, and to methods of treating skin, brain and placental disease and disorders, and methods of treating conditions related to thymic function. The invention also relates to mouse fibroblast growth factor (mFGF-23), and to variants thereof and polynucleotides encoding mFGF-23.

Abstract: A hockey stick handle has an inner shaft member which provides flexing characteristics and an outer tubular member in which the inner shaft member is fitted and which provides protection for the inner shaft member.

Abstract: The present invention has multiple aspects. In particular, in one aspect, the present invention is directed to a unit dose comprising 0.2 ?g/kg to 36 ?g/kg of a recombinant FGF or an angiogenically active fragment or mutein thereof. In another aspect, the present invention is directed to a pharmaceutical composition comprising an angiogenically effective dose of an FGF or an angiogenically active fragment or mutein thereof, and a pharmaceutically acceptable carrier. Typically, the angiogenically effective dose comprises 0.2 ?g/kg to 36 ?g/kg of an FGF of any one of SEQ ID NOS:1-3, 5, 8-10, or 12-14 or an angiogenically active fragment or mutein thereof.

Abstract: The present invention has multiple aspects. In one aspect, the present invention is directed to a unit dose pharmaceutical composition comprising from about 5 ng/dose to less than 135,000 ng of an angiogenic agent, typically from 5 ng to 67,500 ng. Preferably, the angiogenic agent is FGF, more preferably it is basic FGF (FGF-2). In its second aspect, the present invention is directed to a method for inducing angiogenesis, or increasing myocardial perfusion or vascular density in a patient's heart, comprising administering directly into the myocardium in an area in need, as a single injection or a series of injections, a unit dose of an angiogenic agent. It is also within the scope of the present invention that a plurality of unit dose compositions be administered directly into the myocardium at a plurality of sites in need of angiogenesis.

Abstract: This invention relates to mouse and human EGFH2, and to variants thereof and to polynucleotides encoding EGFH2. This invention also relates to therapeutic agents related to the polynucleotides and proteins.