A method of producing a cardiomyocyte population, the method comprising culturing a cell population containing cardiomyocytes seeded at a cell density of 0.1×10.sup.5 to 5.0×10.sup.5 cells/cm.sup.2 in a culture solution to proliferate the cardiomyocytes.

A method of treating infection and/or inflammation in a subject includes steps of providing a polyester biomaterial comprising diol monomers and at least first carboxylate monomers, wherein the first carboxylate monomers are itaconate; and administering the polyester biomaterial to the subject. The polyester biomaterial can be in the form of a biomimetic, and characterized by hydrolytic degradability. The polyester biomaterial may further include second carboxylate monomers. The biomaterial can be poly(itaconate-co-citrate-co-octanediol).

The invention relates to multipotential expanded mesenchymal precursor progeny (MEMP's), characterised by the early developmental markers STRO-1.sup.bri and ALP. The present invention also relates to methods for producing MEMP's and to uses of MEMP's for therapeutic applications.

The present invention provides compositions and methods for repair and reconstruction of defects and injuries to the cornea.

The present invention relates to a method of promoting skin rejuvenation in a subject. The method comprises administering to the subject an effective amount of a cellular extract of epithelial or mesenchymal stem/progenitor cells isolated from the amniotic membrane of the umbilical cord, wherein the cellular extract contains growth factors and peptides and is in the form of a supernatant into which the epithelial or mesenchymal stem/progenitor cells secrete the growth factors and peptides.

Disclosed herein, in certain instances, are tissue grafts derived from UCAM. Further disclosed herein, in certain instances, are use for tissue grafts derived from UCAM.

Autologous prevascularized breast tissue constructs created via 3D printing and methods for 3D printing autologous prevascularized breast tissue constructs. The method comprises steps of: (i) providing a triculture consisting of adipose mesenchymal stem cells, fibroblasts, and endothelial progenitor cells, (ii) mixing the triculture cells with a bioink composed of biopolymers, (iii) printing three-dimensional structures of the breast tissue construct using the triculture-added bioink from step (ii), where the cells of the triculture are pretreated with growth media before printing so that the endothelial progenitor cells differentiate into endothelial cells and the adipose mesenchymal stem cells differentiate into adipocytes. After 3D printing, the development of vascular-like structures is induced.

This document provides methods and materials for performing retinal pigment epithelium transplantation. For example, methods and materials for using fibrin supports for retinal pigment epithelium transplantation are provided.

The invention pertains to a method for temporarily conferring advantageous cancer cell phenotypes, such as a higher proliferation rate, resistance to apoptosis and cell death, and resistance to endogenous factors that inhibit cell growth, on non-cancer cells that help repair and regenerate damaged tissues.

This disclosure features artificial tympanic membrane graft devices and two-component bilayer graft devices that include a scaffold having a plurality of ribs made of a first material and a plurality of spaces between the ribs filled or made with the first material, a different, second material, a combination of the first and a second materials, or a combination of a second material and one or more other different materials. The bilayer graft devices have two components or layers. One component, e.g., the underlay graft device, can include a projection, and the second component, e.g., the overlay graft device, can include an opening that corresponds to the projection (or vice versa) so that the opening and the projection can secure the two layers together in a “lock and key” manner. This disclosure also features methods of making, using, and implanting the three-dimensional artificial tympanic membrane and bilayer graft devices.