Methods are described for differentiating stem and post-natal cells into sex hormone-producing cells that can be administered to a patient autologously or allogeneically in order to maintain in balance, or rebalance, their hypothalamic-pituitary-gonadal (HPG) axis.

Methods are described for differentiating stem and post-natal cells into sex hormone-producing cells that can be administered to a patient autologously or allogeneically in order to maintain in balance, or rebalance, their hypothalamic-pituitary-gonadal (HPG) axis.

Clinically validated methods of administering Yunnan Baiyao or Xingnaojing can improve postoperative recovery and long-term clinical prognosis of patients with moderate-to-severe traumatic brain injury (TBI) and emergency craniotomy. Both medicinal methods are useful for minimizing or inhibiting the adverse impacts of secondary injury, oxidative damage and neuroinflammation associated with TBI, spinal cord injury, craniotomy/craniectomy, cerebral hemostasis and hemorrhage, coagulopathy, stroke, neural injury and neuroinflammation, and for promoting the long-term functional recovery and well-being of the patients with the afore-mentioned diseases.

Nanoparticles, methods, and kits are provided for supplying nutrients and other therapeutic agents to transplanted cells. Nutrient deprivation is a significant factor which contributes to poor outcome of many cell transplants because cells receive insufficient nutrients until they are able to establish a functional microcirculation to support their metabolic and physiological needs after transplantation. Nanoparticles are provided for use in supplying nutrients and other therapeutic agents to transplanted cells to improve cell survival. Such nanoparticles can be used to supply nutrients and other factors to transplanted cells until the transplanted cells are able to develop a new microcirculation.

Nanoparticles, methods, and kits are provided for supplying nutrients and other therapeutic agents to transplanted cells. Nutrient deprivation is a significant factor which contributes to poor outcome of many cell transplants because cells receive insufficient nutrients until they are able to establish a functional microcirculation to support their metabolic and physiological needs after transplantation. Nanoparticles are provided for use in supplying nutrients and other therapeutic agents to transplanted cells to improve cell survival. Such nanoparticles can be used to supply nutrients and other factors to transplanted cells until the transplanted cells are able to develop a new microcirculation.

The invention relates to methods for generating multipotent mammary stem cells from isolated and cultured human breast luminal cells. The method comprises the steps: 1. isolating and growing normal differentiated cells in vitro; 2. treating the differentiated cells with either a conditioned medium from active fibroblasts or cytokine. The invention also relates to multipotent mammary stem cells, cultures of the multipotent stem cells, differentiated cells, tissues, organs derived from the culture multipotent stem cells isolated by the methods disclosed and therapeutic and other uses for those cells thereof.

The invention relates to methods for generating multipotent mammary stem cells from isolated and cultured human breast luminal cells. The method comprises the steps: 1. isolating and growing normal differentiated cells in vitro; 2. treating the differentiated cells with either a conditioned medium from active fibroblasts or cytokine. The invention also relates to multipotent mammary stem cells, cultures of the multipotent stem cells, differentiated cells, tissues, organs derived from the culture multipotent stem cells isolated by the methods disclosed and therapeutic and other uses for those cells thereof.

A method of improving integration and/or functionality of gonadal organoids introduced to a subject includes the steps of pre-treating the subject with a chorionic gonadotrophin (CG), administering a therapeutically effective amount of the gonadal organoids to the subject, and administering the CG to the subject over time post-treatment to maintain LHCG receptor expression and signaling.

A method of improving integration and/or functionality of gonadal organoids introduced to a subject includes the steps of pre-treating the subject with a chorionic gonadotrophin (CG), administering a therapeutically effective amount of the gonadal organoids to the subject, and administering the CG to the subject over time post-treatment to maintain LHCG receptor expression and signaling.

Composition of allomones and kairomones derived from the uropygeal gland of ducks and chickens are described, as well as methods to treat Arachnids.