A method for treating a condition, comprising administering to a subject in need thereof a composition that contains somatic stem cells that are 2 to less than 6 micrometers in size and Lgr5+, wherein the condition is selected from the group consisting of neurodegenerative disorder, muscle-degenerative disease, cancer, metabolic disorder, autoimmune disorder, inflammatory disorder, heart disorder, circulatory disorder, a condition associated with aging, and damaged tissue.

A method for treating a condition, comprising administering to a subject in need thereof a composition that contains somatic stem cells that are 2 to less than 6 micrometers in size and Lgr5+, wherein the condition is selected from the group consisting of neurodegenerative disorder, muscle-degenerative disease, cancer, metabolic disorder, autoimmune disorder, inflammatory disorder, heart disorder, circulatory disorder, a condition associated with aging, and damaged tissue.

Provided are methods and articles of manufacture for use in stem cell therapy, for the treatment of diseases or conditions of SCA. Particularly, the invention provides a method for treating SCA, comprising parenterally or locally administering an effective amount of stem cells as a unit dosage to a subject, wherein the administration is performed with one or more treatment cycles, wherein one treatment cycle comprises dosing three unit dosages each at a dosing interval of two to six weeks.

Provided are methods and articles of manufacture for use in stem cell therapy, for the treatment of diseases or conditions of SCA. Particularly, the invention provides a method for treating SCA, comprising parenterally or locally administering an effective amount of stem cells as a unit dosage to a subject, wherein the administration is performed with one or more treatment cycles, wherein one treatment cycle comprises dosing three unit dosages each at a dosing interval of two to six weeks.

Described are Neo-Islets comprising: a) dedifferentiated islet cells and mesenchymal and/or adipose stem cells; or b) redifferentiated islet cells and mesenchymal and/or adipose stem cells where the cells have been treated so as to facilitate redifferentiation. Further described herein are methods of generating Neo-Islets, the methods comprising: culturing a) dedifferentiated islet cells and mesenchymal and/or adipose stem cells; or b) redifferentiated islet cells and mesenchymal and/or adipose stem cells; on a surface that promotes the formation of cell clusters. Also described are methods of treating a subject, the methods comprising: providing to the subject Neo-Islets described herein. Additionally described are methods of treating a subject suffering from Type 1 Diabetes Mellitus, Type 2 Diabetes Mellitus, and other types of insulin-dependent diabetes mellitus, or impaired glucose tolerance by providing to the subject Neo-Islet as described herein. Additionally described are methods of treatment in which intraperitoneal administration of islet-sized Neo-Islets composed of high numbers of mesenchymal stem cells and cultured islet cells, durably and reversibly treats, without hypoglycemia, both streptozotocin-induced and spontaneous Type 1 Diabetes Mellitus, Type 2 Diabetes Mellitus, and other types of insulin-dependent diabetes mellitus, or impaired glucose tolerance.

Described are Neo-Islets comprising: a) dedifferentiated islet cells and mesenchymal and/or adipose stem cells; or b) redifferentiated islet cells and mesenchymal and/or adipose stem cells where the cells have been treated so as to facilitate redifferentiation. Further described herein are methods of generating Neo-Islets, the methods comprising: culturing a) dedifferentiated islet cells and mesenchymal and/or adipose stem cells; or b) redifferentiated islet cells and mesenchymal and/or adipose stem cells; on a surface that promotes the formation of cell clusters. Also described are methods of treating a subject, the methods comprising: providing to the subject Neo-Islets described herein. Additionally described are methods of treating a subject suffering from Type 1 Diabetes Mellitus, Type 2 Diabetes Mellitus, and other types of insulin-dependent diabetes mellitus, or impaired glucose tolerance by providing to the subject Neo-Islet as described herein. Additionally described are methods of treatment in which intraperitoneal administration of islet-sized Neo-Islets composed of high numbers of mesenchymal stem cells and cultured islet cells, durably and reversibly treats, without hypoglycemia, both streptozotocin-induced and spontaneous Type 1 Diabetes Mellitus, Type 2 Diabetes Mellitus, and other types of insulin-dependent diabetes mellitus, or impaired glucose tolerance.

Formulations and methods for activating signaling molecules outside a native physiological response are provided. The formulations can include an activator component and a signaling component containing both signaling molecules and mesenchymal stem cells. When a formulation containing both an activator component and a signaling component is injected into or applied to a treatment area, the activator component may activate the signaling molecules of the signaling component which in turn signal the mesenchymal stem cells of the signaling component to regrow, repair or otherwise provide a benefit to the treatment area.

Formulations and methods for activating signaling molecules outside a native physiological response are provided. The formulations can include an activator component and a signaling component containing both signaling molecules and mesenchymal stem cells. When a formulation containing both an activator component and a signaling component is injected into or applied to a treatment area, the activator component may activate the signaling molecules of the signaling component which in turn signal the mesenchymal stem cells of the signaling component to regrow, repair or otherwise provide a benefit to the treatment area.

The present invention provides a composition for preventing, ameliorating, alleviating or treating dermatitis comprising exosomes derived from adipose-derived stem cells as an active ingredient. The composition of the present invention is able to act against dermatitis-inducing multiple cytokine targets, and thus be widely applied against dermatitis caused by various factors and effectively suppress and alleviate dermatitis.

The present invention provides a composition for preventing, ameliorating, alleviating or treating dermatitis comprising exosomes derived from adipose-derived stem cells as an active ingredient. The composition of the present invention is able to act against dermatitis-inducing multiple cytokine targets, and thus be widely applied against dermatitis caused by various factors and effectively suppress and alleviate dermatitis.