Embodiments herein relate to in vitro production methods of hematopoietic stem cell (HSC) and hematopoietic stem and progenitor cell (HSPC) that have long-term multilineage hematopoiesis potentials upon in vivo engraftment. The HSC and HSPCs are derived from pluripotent stem cells-derived hemogenic endothelia cells (HE).

The present invention provides customized hybrid bone-implant grafts and a method of manufacture thereof.

The present invention provides customized hybrid bone-implant grafts and a method of manufacture thereof.

Without limitation, a method for preventing and/or treating neuropathic pain in a subject/patient comprising administering a therapeutically effective amount of exosomes derived and isolated from mammalian cells to the subject/patient and a method of treating cancer in a subject/patient in need thereof, comprises administering a combination comprising a therapeutically effective amount of exosomes derived and isolated from mammalian cells and a chemotherapeutic agent.

Without limitation, a method for preventing and/or treating neuropathic pain in a subject/patient comprising administering a therapeutically effective amount of exosomes derived and isolated from mammalian cells to the subject/patient and a method of treating cancer in a subject/patient in need thereof, comprises administering a combination comprising a therapeutically effective amount of exosomes derived and isolated from mammalian cells and a chemotherapeutic agent.

The present invention provides a method for producing retinal cells or a retinal tissue, comprising the following steps (1)-(3): (1) a first step of culturing human pluripotent stem cells in the absence of feeder cells and in a medium comprising a factor for maintaining undifferentiated state, (2) a second step of culturing the pluripotent stem cells obtained in the first step in suspension in the presence of a Sonic hedgehog signal transduction pathway activating substance to form a cell aggregate, and (3) a third step of culturing the aggregate obtained in the second step in suspension in the presence of a 1) a BMP signal transduction pathway activating substance to obtain an aggregate containing retinal cells or a retinal tissue.

Methods and compositions are provided for regenerating smooth muscle tissue by the provision of a purified population of epicardial-derived pericytes, where the smooth muscle tissue may comprise, without limitation, coronary artery tissue; kidney tissue, etc. Compositions and kits for practicing the methods and/or for use with the systems of the disclosure are also provided.

Methods and compositions are provided for regenerating smooth muscle tissue by the provision of a purified population of epicardial-derived pericytes, where the smooth muscle tissue may comprise, without limitation, coronary artery tissue; kidney tissue, etc. Compositions and kits for practicing the methods and/or for use with the systems of the disclosure are also provided.

A pouch-like structure useful for mechanically preventing distension and/or resisting dilation of the heart and for supporting the hearts function by controllable and paracrine support of a failing heart in a mammal, is composed at least partly of engineered tissue with genetically engineered cells other than cardiac myocytes. The genetically engineered cells contain a gene encoding a paracrine factor which is under control of an inducible promoter system or a heterologous promoter system. The preparation of the pouch-like structure may be used for therapeutic, disease modelling, and drug development applications.

A pouch-like structure useful for mechanically preventing distension and/or resisting dilation of the heart and for supporting the hearts function by controllable and paracrine support of a failing heart in a mammal, is composed at least partly of engineered tissue with genetically engineered cells other than cardiac myocytes. The genetically engineered cells contain a gene encoding a paracrine factor which is under control of an inducible promoter system or a heterologous promoter system. The preparation of the pouch-like structure may be used for therapeutic, disease modelling, and drug development applications.