A method of preparing isolated body tissue (10) for cryogenic storage, the method comprising a step of actively infusing the body tissue (10) with a cryoprotectant (20). Additionally, a kit for preparing umbilical cord tissue (10) for cryogenic storage, comprising a cryoprotectant (20) and infusion means (22) for actively infusing the umbilical cord tissue (10) with the cryoprotectant (20).

Various cells, stem cells, and stem cell components, including associated methods of generating and using such cells are provided. In one aspect, for example, an isolated cell that is capable of self-renewal and culture expansion and is obtained from a subepithelial layer of a mammalian umbilical cord tissue. Such an isolated cell expresses at least three cell markers selected from CD29, CD73, CD90, CD166, SSEA4, CD9, CD44, CD146, or CD105, and does not express at least three cell markers selected from CD45, CD34, CD14, CD79, CD106, CD86, CD80, CD19, CD117, Stro-1, or HLA-DR.

A method of culturing adherent cells from a placenta or adipose tissue is disclosed. The method comprises culturing the adherent cells from the placenta or adipose tissue under 3 dimensional (3D) culturing conditions which allow cell expansion, the conditions comprising perfusion.

The present invention relates to biomarkers, methods, and compositions for characterizing and isolating multipotent adult stem cells (MASCs) and uses thereof.

Provided herein are compositions of placenta-derived adherent cell exosomes and methods of making and using the same. In one aspect, provided herein are compositions comprising exosomes produced by and/or derived from placental cells, e.g., placenta-derived adherent cells. In certain embodiments, the exosomes provided herein are produced by placenta-derived adherent cells that have been cultured in vitro for, e.g., 1, 2, 3, 4, 5, 6 or more passages.

Devices and methods for extraction and processing of substantia gelatinea funiculi umbilicalis (Wharton's Jelly) from an umbilical cord. Isolated pluripotent cell compositions and methods of using the same are also provided.

This invention provides a cell population comprising mesenchymal cells capable of forming a cell sheet that can be spontaneously detached from a substrate. In such cell population comprising mesenchymal cells, the proportion of cells positive for CD324 is 70% or more and the proportion of mesenchymal cells positive for CD90 is 90% or more.

The presently disclosed subject matter provides a microfluidic device that can simulate capillary blood flow on a fetal side of the device and pooled blood on a maternal side of the device (i.e., intervillous space). The microfluidic device can reconstitute the maternal-fetal interface, can expand the capabilities of cell culture models, and can provide an alternative to current maternal-fetal transfer models.

Therapeutics and methods for treating a stroke in a human comprising administering a therapeutic to the patient, wherein the therapeutic comprises one of immortalized human placenta mesenchymal stem cells (hPMSCs) and a product from the immortalized hPMSCs. Methods and therapeutic products comprising extracellular vesicles (EVs) isolated from of immortalized hPMSCs. Therapeutics and methods of treating COVID-19 disease vascular injury comprising administering a therapeutic to the patient, wherein the therapeutic comprises one of hPMSCs and a product from the hPMSCs.

A tool for fixating and handling membrane-shaped tissue for research or clinical use includes a platform having a base plate with at least one positioning element for positioning a spanning element on the platform, at least one round shaped spanning element adapted for being positioned on the platform using the positioning element, at least one flexible element for positioning over the round shaped spanning element for spanning the membrane shaped tissue, and at least one handling means for handling the flexible element during positioning of the flexible element over the round shaped spanning element, and for handling the combination of the round shaped spanning element and the flexible element, when the membrane is spanned over the round shaped spanning element.