Disclosed is a method of in vitro fertilization wherein the embryo is implanted into the uterus of a female patient at least two, an preferably three to twelve months after the eggs are retrieved from the patient in order to reduce the effect of autoimmune rejection of the embryo by the patient's autoimmune system and increase the probability and success of pregnancy and wherein prior to embryo implantation, the endometrium in the uterus is prepared for embryo implantation by introducing peripheral blood mononuclear cells (PBMCs) into the uterus. The procedure is combined with cryopreservation techniques to preserve the oocytes or the IVF-produced embryos of the patient.

Cumulus cell (CC) gene expression is being explored as an additional method to morphological scoring to choose the embryo with the highest chance to pregnancy. The present invention relates to a novel method of identifying biomarker genes for evaluating the competence of a mammalian oocyte in giving rise to a viable pregnancy after fertilization, based on the use of live birth and embryonic development as endpoint criteria for the oocytes to be used in an exon level analysis of potential biomarker genes. The invention further provides CC-expressed biomarker genes thus identified, as well as prognostic models based on the biomarker genes identified using the methods of the present invention.

The present application provides an in-vitro committed differentiation method for inducing human induced pluripotent stem cells (hiPSCs) into Leydig cells (LCs) by neural crest stem cells (NCSCs). The hiPS-derived LCs is verified by an animal model to have the capacity of regenerating senile or injured LCs, so that a new treatment for supplementing testosterone is provided for patients suffering from hypogonadism, particularly for patients suffering from late-onset hypogonadism (LOH).

The invention relates to an in vitro method of cultivating cells from a non-mammalian aquatic animal, to cells derived from a non-mammalian aquatic animal, and to products containing the same.

A problem of this invention it to provide a method for differentiate a primordial germ cell into a functional GV stage oocyte by in vitro culture.

This invention relates to a method for differentiating a primordial germ cell into a functional GV stage oocyte by in vitro culture, comprising: (a) a step of producing a secondary follicle by culturing the primordial germ cell and supporting cells adjacent to the primordial germ cells under conditions that eliminate the effects of estrogen or a factor having a similar function to estrogen; (b) a step of partially dissociating cells between a granulosa cell layer and a thecal cell layer, wherein an oocyte, the granulosa cell layer, and the thecal cell layer constitute the produced secondary follicle; and (c) a step of differentiating the oocyte into a functional GV stage oocyte by culturing the oocyte, the granulosa cell layer, and the thecal cell layer that constitute the secondary follicle in a medium containing a high-molecular-weight compound.

The present invention provides methods for making reconstructed diploid human oocytes comprising the diploid genome of a human somatic cell, and also methods for making human nuclear transfer embryos, human embryonic stem cells, and human differentiated cells therefrom. The present invention also provides reconstructed human oocytes, human nuclear transfer embryos, human embryonic stem cells, and differentiated cells made using such methods, as well as compositions and kits useful in performing such methods.

Methods for ex vivo expansion of very small embryonic like stem cells in the absence of feeder cells are provided. In some embodiments the methods include providing a plurality of VSELs; and growing the VSELs in a culture medium that includes a histone deacetylase inhibitor, luteinizing hormone, follicle-stimulating hormone, and optionally transforming growth factor beta in an amount that is sufficient to overcome quiescence of the VSELs. Also provided are feeder cell-free cell cultures, ex vivo expanded VSELs, pharmaceutical compositions that include the disclosed ex vivo expanded VSELs, methods for overcoming quiescence in VSELs, methods for re-establishing imprinting in VSELs, method for treating injuries to tissues in subjects, methods for repopulating cell types in subjects, methods for bone marrow transplantation, methods for treating radiation exposure in subjects, and methods that relate to regenerative medicine.

The present invention relates to a composition and method for assisted reproductive technology in mammals. In particular, the present invention provides compositions and methods for in vivo maturation of an immature cumulus oocyte complex (COC), thereby enhancing the embryology outcome.

The invention relates to a dual-media approach for culturing isolated corneal endothelial cells. Isolated corneal endothelial cells are first contacted with a proliferative medium to propagate and/or expand the endothelial cells followed by a maintenance medium to preserve the morphology and/or characteristics of the corneal endothelial cells. The invention includes the proliferative medium and the maintenance medium and also a combination of the two medium.

Methods are provided for in vitro maturation (IVM) of bovine oocytes that include steps of (a) pre-culturing bovine germinal vesicle (GV) oocytes in the presence of C-type natriuretic peptide (CNP) and (b) subsequently culturing the oocytes of (a) for an extended duration in medium containing follicle stimulating hormone (FSH), luteinizing hormone (LH), 17-estradiol (E2), epidermal growth factor (EGF), and fetal bovine serum (FBS).