This document relates to bioengineering and involves bioengineered thymus organoids and related humanized animal models. The thymus organoids and animal models have various commercial and clinical uses, including generating humanized antibodies, making antigen-specific human T cells, inducing transplantation tolerance, rejuvenating thymus functions, and modeling human diseases.

Systems and methods generating physiologic models that can produce functional biological substances are provided. In some aspects, a system includes a substrate and a first and second channel formed therein. The channels extend longitudinally and are substantially parallel to each other. A series of apertures extend between the first channel and second channel to create a fluid communication path passing through columns separating the channels that extends further along the longitudinal dimension than other dimensions. The system also includes a first source configured to selectively introduce into the first channel a first biological composition at a first channel flow rate and a second source configured to selectively introduce into the second channel a second biological composition at a second channel flow rate, wherein the first channel flow rate and the second channel flow rate create a differential configured to generate physiological shear rates within a predetermined range in the channels.

Systems and methods for processing biological fluids are disclosed. The systems and methods use a reusable hardware unit and a disposable fluid processing circuit that mounts onto the reusable hardware unit. The system and method, under the direction of a pre-programmed controller allow for automatically, opening one or more flow paths to effect addition of one or both parts of an additive solution to a biological fluid component.

The present disclosure relates to methods for modulating the level of proteins in a subject or in target cells by priming red blood cells with various agents or conditions that modulate the levels of proteins associated with red blood cells and administering the primed red blood cells to a subject. The disclosed methods represent a novel use of red blood cells primed to express a number of proteins, as cell therapies for numerous diseases or disorders.

Provided herein are carrier cells and virus combinations and methods for treatment of cancers. Also provided are modified carrier cells for such treatment, and methods of selecting carrier cells that are matched to subjects for such treatment.

The present disclosure provides, inter alia, compositions and methods for harnessing the immune system (e.g., T cells) as a detection tool to diagnose and predict cancer patient treatment outcomes and for monitoring the persistence of functional, non-genetically modified, T cell therapies in vivo after administration to a subject.

A suspension composition for a hematology analysis control particularly useful for preserving relevant detectable characteristics of blood cells for a prolong stability period. The suspension may include at least one polysaccharide, which may include or derive from chitosan and/or chitin, as a stabilizing agent.

Compositions comprising donor cells, acceptor cells, membrane-enclosed bodies and methods are described herein.

Feeder cell products are needed to enhance growth of cells that are being cultured. The current process produces feeder cells by selecting a source for blood material containing mononuclear cells (MNCs) and other blood components, combining blood material from a plurality of donors, isolating the MNCs from the other blood components so as to form isolated heterogenous MNCs. Afterwards, the isolated heterogeneous MNCs is irradiated to produce the feeder cells.

Provided herein are materials and methods for the preparation of blood products. In one aspect, provided herein is a composition including platelets or platelet derivatives and an aqueous medium, wherein the aqueous medium has a protein concentration less than 50% of the protein concentration of donor apheresis plasma.