Abstract: The application provides biocompatible carriers comprising bone forming and/or cartilage forming cells and methods for making them. The application further provides pharmaceutical compositions comprising said ATMPs and method of treatments using said ATMPs. The application further relates to said ATMPS for use in the treatment of bone disorders, cartilage disorders and joint disorders. The current invention further relates to method of treatments of bone disorders, cartilage disorders and joint disorders.

Abstract: The present invention describes in vitro methods for producing a cellular composition with in vivo bone forming potential.

Abstract: The present invention describes in vitro methods for producing a cellular composition with in vivo bone forming potential.

Abstract: The application provides biocompatible carriers comprising bone forming and/or cartilage forming cells and methods for making them. The application further provides pharmaceutical compositions comprising said ATMPs and method of treatments using said ATMPs. The application further relates to said ATMPS for use in the treatment of bone disorders, cartilage disorders and joint disorders. The current invention further relates to method of treatments of bone disorders, cartilage disorders and joint disorders.

Abstract: The present invention relates to methods and compositions for osteogenic differentiation of human periosteum derived cells, in particular using a growth medium containing a specific combination of growth factors and formulations thereof. The invention also relates to the differentiated cells and cell populations, as well as further products comprising such cells and uses thereof in bone therapy.

Abstract: An in vivo assay to measure anchorage-independent growth and phenotypic stability of a certain cell population comprising subcutaneous or intramuscular injection in a mammal of a cell suspension of articular chondrocytes in an iso-osmotic liquid, the same suspension comprising articular chondrocytes in an amount equivalent to at least 1×106 chondrocytes as applied to immune-deficient mice. The outcome is linked to molecular markers. The present invention further relates to DNA chips and diagnostic tools comprising the latter to predict the outcome of ACT. Antibodies raised against positive and negative markers of chondrocyte stability can also be used for quality control on the chondrocytes. Therapeutical composition comprising stable chondrocytes are very useful for tissue repair.

Abstract: A method for modulating Bone Morphogenetic Protein (BMP) signaling activity in a cell or tissue of a vertebrate subject is provided which comprises administering a polynucleotide or polypeptide encoding a Secreted Modular Calcium Binding Protein (SMOC) polypeptide, or a conservatively modified variant, derivative, or analog thereof, in an amount effective to activate intracellular Mitogen Activated Protein (MAP) kinase activity and to reduce BMP signaling activity in the cell or tissue of the vertebrate subject. Methods for treating joint disorders in a mammalian subject are provided.

Abstract: Cartilage-derived morphogenetic protein CDMP-1 or a transforming growth factor ? having at least 80% homology with CDMP-1, or a factor co-expressed and/or co-detectable therewith, is used as a marker of skeletal precursor cells from any part of a mammalian body.

Abstract: Cartilage-derived morphogenetic protein CDMP-1 or a transforming growth factor ? having at least 80% homology with CDMP-1, or a factor co-expressed and/or co-detectable therewith, is used as a marker of skeletal precursor cells from any part of a mammalian body.

Abstract: The present invention disclosed the expression of CXCL6 by cells which are able to form stable cartilage. The invention describes the use of these cells and of CXCL6 to promote cartilage (and underlying bone) formation e.g. in the repair of cartilage or osteochondral defects. The invention further describes the use of chemokines in the modulation of progenitor cell differentiation.

Abstract: The present invention relates to a set of genes which can be used to predict the potential of a cell population to form cartilage when implanted in vivo. The set of markers is used inter alia as a quality control of cells and in screening assays to evaluate the impact of compounds and conditions on the cartilage forming ability of cells.

Abstract: An in vivo assay to measure anchorage-independent growth and phenotypic stability of a certain cell population comprising subcutaneous or intramuscular injection in a mammal of a cell suspension of articular chondrocytes in an iso-osmotic liquid, the same suspension comprising articular chondrocytes in an amount equivalent to at least 1×106 chondrocytes as applied to immune-deficient mice. The outcome is linked to molecular markers. The present invention further relates to DNA chips and diagnostic tools comprising the latter to predict the outcome of ACT. Antibodies raised against positive and negative markers of chondrocyte stability can also be used for quality control on the chondrocytes. Therapeutical composition comprising stable chondrocytes are very useful for tissue repair.

Abstract: Cartilage-derived morphogenetic protein CDMP-1 or a transforming growth factor ? having at least 80% homology with CDMP-1, or a factor co-expressed and/or co-detectable therewith, is used as a marker of skeletal precursor cells from any part of a mammalian body.

Abstract: The present invention disclosed the expression of CXCL6 by cells which are able to form stable cartilage. The invention describes the use of these cells and of CXCL6 to promote cartilage (and underlying bone) formation e.g. in the repair of cartilage or osteochondral defects. The invention further describes the use of chemokines in the modulation of progenitor cell differentiation.

Abstract: The present invention disclosed the expression of CXCL6 by cells which are able to form stable cartilage. The invention describes the use of these cells and of CXCL6 to promote cartilage (and underlying bone) formation e.g. in the repair of cartilage or osteochondral defects. The invention further describes the use of chemokines in the modulation of progenitor cell differentiation.

Abstract: An in vivo assay to measure anchorage-independent growth and phenotypic stability of a certain cell population comprising subcutaneous or intramuscular injection in a mammal of a cell suspension of articular chondrocytes in an iso-osmotic liquid, the same suspension comprising articular chondrocytes in an amount equivalent to at least 1×106 chondrocytes as applied to immune-deficient mice. The outcome is linked to molecular markers. The present invention further relates to DNA chips and diagnostic tools comprising the latter to predict the outcome of ACT. Antibodies raised against positive and negative markers of chondrocyte stability can also be used for quality control on the chondrocytes. Therapeutical compositions comprising stable chondrocytes are very useful for tissue repair.

Abstract: An in vivo assay to measure anchorage-independent growth and phenotypic stability of a certain cell population comprising subcutaneous or intramuscular injection in a mammal of a cell suspension of articular chondrocytes in an iso-osmotic liquid, the same suspension comprising articular chondrocytes in an amount equivalent to at least 1×106 chondrocytes as applied to immune-deficient mice. The outcome is linked to molecular markers. The present invention further relates to DNA chips and diagnostic tools comprising the latter to predict the outcome of ACT. Antibodies raised against positive and negative markers of chondrocyte stability can also be used for quality control on the chondrocytes. Therapeutical composition comprising stable chondrocytes are very useful for tissue repair.

Abstract: The present invention is concerned with a method and composition for use in the medical art. It relates to the prevention and/or minimization of Spondyloarthropathies (SpA) and/or SpA enthesitis. SpA are an important group of chronic inflammatory disorders, affecting both the axial and peripheral skeleton. A particular method and composition optionally including a suitable dispensing device for such compositions can be used for ameliorating or preventing SpA. The invention applies to human and veterinary applications. To date, no single therapeutic approach has proven universally effective in preventing SpA or ameliorating SpA. Therefore, there is a need for compositions and methods which may be used safely and effectively to prevent SpA in a variety of different contexts.

Abstract: Nucleotide and amino acid sequences of cartilage-derived morphogenetic proteins (CDMP-1 and CDMP-2) from human and bovine cartilage extracts. These proteins exhibit chondrogenic activity and can be used to repair cartilage defects in a mammal.

Abstract: The present invention disclosed the expression of CXCL6 by cells which are able to form stable cartilage. The invention describes the use of these cells and of CXCL6 to promote cartilage (and underlying bone) formation e.g. in the repair of cartilage or osteochondral defects. The invention further describes the use of chemokines in the modulation of progenitor cell differentiation.