Abstract: The present invention relates to a biomaterial comprising: —a membrane wound patch (a), made of a nanofibrous polymeric scaffold, —a hydrogel (b) including autologous or allogenic bone marrow-derived mesenchymal stem cells, and —a bone wound patch (c) being a nanofibrous scaffold made of polymers, wherein said scaffold has a surface coated with an interrupted coating made of multilayered droplets, said multilayered droplets being droplets composed of at least one layer pair consisting of a layer of polyanions and a layer of polycations, and wherein the bone wound patch (c) further comprises a bone growth factor; wherein the hydrogel (b) is included between the membrane wound patch (a) and the bone wound patch (c).

Abstract: The present invention concerns a biomaterial comprising a scaffold containing a mineral component, wherein said mineral component comprises at least one calcium phosphate compound, and wherein said scaffold has a surface coated with an interrupted coating made of multilayered droplets, said multilayered droplets being droplets composed of at least one layer pair consisting of a layer of polyanions and a layer of polycations.

Abstract: The present invention concerns a biomaterial comprising a nanofibrous scaffold made of polymers, such as poly(?-caprolactone) or collagen, coated with at least one layer pair consisting of a layer of polyanions and a layer of polycations, wherein said at least one layer pair incorporates a therapeutic molecule such as a growth factor. The biomaterial may optionally comprise living cells such as osteoblasts and/or chondrocytes.

Abstract: The present invention concerns a biomaterial devoid of a growth factor, comprising: —a three-dimensional scaffold made of a biocompatible polymer; and—living cells, wherein said living cells are in form of microtissues and the nanofibrous three-dimensional scaffold is a nanofibrous scaffold. It further concerns a method for manufacturing such a biomaterial. Finally, it concerns such a biomaterial for use in the treatment of a bone and/or cartilage defect.

Abstract: The present invention concerns a compound comprising an ?-MSH peptide, coupled to a polypeptide consisting of a chain of about 15 to about 400 amino acids, for use in endodontic regeneration and/or for the treatment of dental inflammatory diseases. The invention further concerns pharmaceutical compositions, in particular nanostructured compositions, comprising such a compound.

Abstract: The present invention concerns a biomaterial comprising a nanofibrous scaffold made of polymers, such as poly(?-caprolactone) or collagen, coated with at least one layer pair consisting of a layer of polyanions and a layer of polycations, wherein said at least one layer pair incorporates a therapeutic molecule such as a growth factor. The biomaterial may optionally comprise living cells such as osteoblasts and/or chondrocytes.