A composition inhibiting MEIS proteins. The MEIS proteins are effective in proliferation of hematopoietic stem cells. A formulation capable of easily passing through the cell membrane and perform its activity in the cell, and can inhibit MEIS activity in a dose dependent manner. The combination includes isolated cells, medium, growth factors and MEISi inhibitor. The isolated cells are isolated from mouse bone marrow, human bone marrow and human umbilical cord blood. The medium has a pH value of 7.2 and contains bovine serum albumin, recombinant insulin, transferrin, 2-mercaptoethanol and IMDM medium. The growth factors are hematopoietic stem cell factor SCF, fetus liver tyrosine kinase-3 ligand Flt3L, and thrombopoietin. A chemical formula of the MEISi-1 is 4-[2-(benzylamino)-2-oxoethoxy]-N-(2,3-dimethylphenyl) benzamide. A chemical formula of MEISi-2 is 4-hydroxy-N′-[(Z)-(2-oxonaphthalen-1-ylidene)methyl] benzohydrazide.

The disclosure provides nonsteroidal anti-inflammatory compositions and methods of use thereof. Specifically, the disclosure provides cell-free or substantially cell-free regenerative nonsteroidal anti-inflammatory compositions derived from placenta and/or from MSC cells isolated therefrom, methods for producing said compositions, and uses thereof to treat chronic and acute inflammatory conditions and diseases.

The disclosure provides nonsteroidal anti-inflammatory compositions and methods of use thereof. Specifically, the disclosure provides cell-free or substantially cell-free regenerative nonsteroidal anti-inflammatory compositions derived from placenta and/or from MSC cells isolated therefrom, methods for producing said compositions, and uses thereof to treat chronic and acute inflammatory conditions and diseases.

An exosome-based skincare product containing exosomes excreted by lab cultured human umbilical mesenchymal stem cells within a solvent. Optional ingredients such as skin-conditioning agents, antioxidants, surfactants, buffering agents, viscosity decreasing agents, viscosity increasing agents, peptides, binders, and/or humectants may be included.

An exosome-based skincare product containing exosomes excreted by lab cultured human umbilical mesenchymal stem cells within a solvent. Optional ingredients such as skin-conditioning agents, antioxidants, surfactants, buffering agents, viscosity decreasing agents, viscosity increasing agents, peptides, binders, and/or humectants may be included.

A method of treating neurodegenerative diseases using hUCB plasma is presented herein. hUCB plasma attenuated the hyperactive response (Group III) and potentiated the normal response in Group I ALS patients, but did not alter that of the non-responders to PHA (Group II). The elevated activity of caspase 3/7 observed in the MNCs from ALS patients was significantly reduced by hUCB plasma treatment. The ability of hUCB plasma to modulate the mitogen cell response and reduce caspase activity suggest that the use of hUCB plasma alone, or with stem cells, may prove useful as a therapeutic in ALS patients. hUCB plasma was shown to increase therapeutic efficacy of MNCs as well as decrease apoptosis of MNCs. The cytokine profile of hUCB plasma supports its usefulness as a sole therapeutic as well as an additive to MNCs.

A method of treating neurodegenerative diseases using hUCB plasma is presented herein. hUCB plasma attenuated the hyperactive response (Group III) and potentiated the normal response in Group I ALS patients, but did not alter that of the non-responders to PHA (Group II). The elevated activity of caspase 3/7 observed in the MNCs from ALS patients was significantly reduced by hUCB plasma treatment. The ability of hUCB plasma to modulate the mitogen cell response and reduce caspase activity suggest that the use of hUCB plasma alone, or with stem cells, may prove useful as a therapeutic in ALS patients. hUCB plasma was shown to increase therapeutic efficacy of MNCs as well as decrease apoptosis of MNCs. The cytokine profile of hUCB plasma supports its usefulness as a sole therapeutic as well as an additive to MNCs.

A method of treating neurodegenerative diseases using hUCB plasma is presented herein. hUCB plasma attenuated the hyperactive response (Group III) and potentiated the normal response in Group I ALS patients, but did not alter that of the non-responders to PHA (Group II). The elevated activity of caspase 3/7 observed in the MNCs from ALS patients was significantly reduced by hUCB plasma treatment. The ability of hUCB plasma to modulate the mitogen cell response and reduce caspase activity suggest that the use of hUCB plasma alone, or with stem cells, may prove useful as a therapeutic in ALS patients. hUCB plasma was shown to increase therapeutic efficacy of MNCs as well as decrease apoptosis of MNCs. The cytokine profile of hUCB plasma supports its usefulness as a sole therapeutic as well as an additive to MNCs.

Disclosed are compositions of matter, protocols and treatment means for reducing and/or preventing opioid addiction. In one embodiment the invention teaches intranasal administration of umbilical cord blood plasma, or extracts thereof, together with pterostilbene or pterostilbene containing nanoparticles, and/or oxytocin, and/or human chorionic gonadotropin.

Disclosed are compositions of matter, protocols and treatment means for reducing and/or preventing opioid addiction. In one embodiment the invention teaches intranasal administration of umbilical cord blood plasma, or extracts thereof, together with pterostilbene or pterostilbene containing nanoparticles, and/or oxytocin, and/or human chorionic gonadotropin.