The invention provides means, methods, and compositions of matter useful for treatment of viral induced sexual dysfunction. In one embodiment the invention teaches the use of autologous bone marrow mononuclear cells as a source of endothelial repair in penile or clitoral tissues that has been damaged by viral causes. In one embodiment, said viral cause is COVID-19 infection. In some embodiments the invention discloses means of maintaining and/or increasing sexual function, in some cases the invention describes preservation of tissue mass and/or size by administration of regenerative cells. Said cells may be autologous, allogeneic or xenogeneic. In some embodiments the invention teaches the utilization of derivatives of regenerative cells such as exosomes and/or conditioned media.

The invention provides means, methods, and compositions of matter useful for treatment of viral induced sexual dysfunction. In one embodiment the invention teaches the use of autologous bone marrow mononuclear cells as a source of endothelial repair in penile or clitoral tissues that has been damaged by viral causes. In one embodiment, said viral cause is COVID-19 infection. In some embodiments the invention discloses means of maintaining and/or increasing sexual function, in some cases the invention describes preservation of tissue mass and/or size by administration of regenerative cells. Said cells may be autologous, allogeneic or xenogeneic. In some embodiments the invention teaches the utilization of derivatives of regenerative cells such as exosomes and/or conditioned media.

The present invention provides a pharmaceutical composition for treating chronic stroke, involving injection via brain into the cranium of a patient having chronic stroke for six months or more; the pharmaceutical composition is a suspension at least comprising TS stem cells, an active synergistic component and a growth factor, wherein the expression level of CD34 and CD45 of the TS stem cells is 10% or less, and the expression level of CD90 and CD105 is 90% or more; the active synergistic component is an extracellular vesicle; the growth factor is at least one selected from the group consisting of HGF, G-CSF, Fractalkine, IP-10, EGF, IL-1α, IL-1β, IL-4, IL-5, IL-13, IFNγ, TGFα and sCD40L. The present invention overcomes the limitations of previous cell therapy and provides a cell-based preparation that is clinically safe and therapeutically effective for chronic cerebral stroke.

The present invention provides a pharmaceutical composition for treating chronic stroke, involving injection via brain into the cranium of a patient having chronic stroke for six months or more; the pharmaceutical composition is a suspension at least comprising TS stem cells, an active synergistic component and a growth factor, wherein the expression level of CD34 and CD45 of the TS stem cells is 10% or less, and the expression level of CD90 and CD105 is 90% or more; the active synergistic component is an extracellular vesicle; the growth factor is at least one selected from the group consisting of HGF, G-CSF, Fractalkine, IP-10, EGF, IL-1α, IL-1β, IL-4, IL-5, IL-13, IFNγ, TGFα and sCD40L. The present invention overcomes the limitations of previous cell therapy and provides a cell-based preparation that is clinically safe and therapeutically effective for chronic cerebral stroke.

The present disclosure provides a pharmaceutical composition for treating Alzheimer’s disease, which at least includes an extracellular vesicle that is prepared by a method including: a first culturing step: performing an amplification culture of an adipose-derived stem cell in a first culture medium at a cell density of 6,000-15,000 cells/cm.sup.2 until an amplification amount of the adipose-derived stem cell is above 90% of that before the culture; a second culturing step: culturing the amplified adipose-derived stem cell in a second culture medium at a cell density of 10,000-100,000 cells/cm.sup.2 for 20-30 hours; and an extracellular vesicle separating step: collecting a culture solution and separating the extracellular vesicle from the culture solution by utilizing a tangential flow filtration (TFF) or ultrafiltration method.

The present disclosure provides a pharmaceutical composition for treating Alzheimer’s disease, which at least includes an extracellular vesicle that is prepared by a method including: a first culturing step: performing an amplification culture of an adipose-derived stem cell in a first culture medium at a cell density of 6,000-15,000 cells/cm.sup.2 until an amplification amount of the adipose-derived stem cell is above 90% of that before the culture; a second culturing step: culturing the amplified adipose-derived stem cell in a second culture medium at a cell density of 10,000-100,000 cells/cm.sup.2 for 20-30 hours; and an extracellular vesicle separating step: collecting a culture solution and separating the extracellular vesicle from the culture solution by utilizing a tangential flow filtration (TFF) or ultrafiltration method.

Applications of butylidenephthalide (BP), comprising the use of BP in providing a kit for promoting differentiation of stem cells into brown adipose cells, and the use of BP in preparing a medicament, wherein the medicament is used for inhibiting the accumulation of white adipose cells, promoting the conversion of white adipose cells into brown adipose cells, inhibiting weight gain and/or reducing the content of triglycerides, glucose, and total cholesterol in blood.

Applications of butylidenephthalide (BP), comprising the use of BP in providing a kit for promoting differentiation of stem cells into brown adipose cells, and the use of BP in preparing a medicament, wherein the medicament is used for inhibiting the accumulation of white adipose cells, promoting the conversion of white adipose cells into brown adipose cells, inhibiting weight gain and/or reducing the content of triglycerides, glucose, and total cholesterol in blood.

Applications of butylidenephthalide (BP), comprising the use of BP in providing a kit for promoting differentiation of stem cells into brown adipose cells, and the use of BP in preparing a medicament, wherein the medicament is used for inhibiting the accumulation of white adipose cells, promoting the conversion of white adipose cells into brown adipose cells, inhibiting weight gain and/or reducing the content of triglycerides, glucose, and total cholesterol in blood.

Certain relatively small cells present in the periphery blood of mammals can be activated to form pluripotent stem cell populations. These small cells are generally less than five micrometers in diameter and are CD45-positive, and are referred to herein as CD45.sup.+ cells or dormant tiny cells. Accordingly, provided are cell populations and compositions with enriched dormant tiny cells from blood samples and methods and compositions for activating these dormant tiny cells. Upon differentiation, the activated stem cells can be used for various therapeutic purposes.