Disclosed are compositions comprising collagen covalently bound to particles, wherein covalent bonds are formed between reactive groups of the collagen and reactive groups of the particles, and wherein the particles have an average particle diameter ranging from 20 to 1000 nanometers. Also disclosed are various methods that utilize the compositions.

Disclosed are compositions comprising collagen covalently bound to particles, wherein covalent bonds are formed between reactive groups of the collagen and reactive groups of the particles, and wherein the particles have an average particle diameter ranging from 20 to 1000 nanometers. Also disclosed are various methods that utilize the compositions.

An artificial tissue containing pancreatic islet cells, fibroblasts and/or cells capable of differentiating, extracellular matrix, and vascular endothelial cells, in which the fibroblasts and/or the cells capable of differentiating, the extracellular matrix, and the vascular endothelial cells constitute a three-dimensional tissue structure in which a vascular network structure has been formed, and in which the three-dimensional tissue structure contains pancreatic islets constituted by aggregating ten or more of the pancreatic islet cells.

An artificial tissue containing pancreatic islet cells, fibroblasts and/or cells capable of differentiating, extracellular matrix, and vascular endothelial cells, in which the fibroblasts and/or the cells capable of differentiating, the extracellular matrix, and the vascular endothelial cells constitute a three-dimensional tissue structure in which a vascular network structure has been formed, and in which the three-dimensional tissue structure contains pancreatic islets constituted by aggregating ten or more of the pancreatic islet cells.

The present invention is concerned with a photosynthetic scaffold that delivers oxygen and its uses for tissue engineering and the treatment of ischemia.

The present invention is concerned with a photosynthetic scaffold that delivers oxygen and its uses for tissue engineering and the treatment of ischemia.

The invention relates to a process for obtaining a cellular sprinkling compound and to the respective method of application to provide a therapeutic treatment for skin injuries, based on the implantation, by sprinkling and/or spraying, of human mesenchymal stem cells and microvascular endothelial cells that have been pre-expanded in vitro and resuspended in a regenerative solution for cellular implantation of biocompatible biomaterials. The solution is formed by blood plasma rich in growth factors obtained from the patient to be treated and, in some cases, by medical-grade type I collagen and by medical-grade hyaluronic acid, which potentiates the regeneration, re-epithelialization, and reconstruction of skin tissue.

The invention relates to a process for obtaining a cellular sprinkling compound and to the respective method of application to provide a therapeutic treatment for skin injuries, based on the implantation, by sprinkling and/or spraying, of human mesenchymal stem cells and microvascular endothelial cells that have been pre-expanded in vitro and resuspended in a regenerative solution for cellular implantation of biocompatible biomaterials. The solution is formed by blood plasma rich in growth factors obtained from the patient to be treated and, in some cases, by medical-grade type I collagen and by medical-grade hyaluronic acid, which potentiates the regeneration, re-epithelialization, and reconstruction of skin tissue.

The present invention relates to the field of biology and medicine, and more specifically, to the field of stem-cell biology, involving producing or generating melanocytes from stem-cells and precursors derived from human hair root. Additionally, the present invention relates to the materials and method for producing autografts, homografts or allografts comprising melanocytes in general, as well as the materials and methods for producing autografts, homografts and allografts comprising melanocytes for the treatment of diseases related to depigmentation of the skin and for the treatment of scars.

The present invention relates to the field of biology and medicine, and more specifically, to the field of stem-cell biology, involving producing or generating melanocytes from stem-cells and precursors derived from human hair root. Additionally, the present invention relates to the materials and method for producing autografts, homografts or allografts comprising melanocytes in general, as well as the materials and methods for producing autografts, homografts and allografts comprising melanocytes for the treatment of diseases related to depigmentation of the skin and for the treatment of scars.