A temperature-responsive virus storage system that allows virus to be stored, such as a non-frozen liquid, and maintain infectivity is described.

Methods, systems, and compositions are provided for extracting bone marrow cells from bone obtained from deceased donors, for preparing the bone marrow for cryopreservation, and for obtaining desired cells from cryopreserved and fresh bone marrow. In some embodiments, the methods provide cryopreserved compositions having increased viability of bone marrow cells.

Disclosed herein are methods of detecting a target nucleic acid sequence, determining the localization of the target nucleic acid sequence, and/or quantifying the number of target nucleic acid sequences in a cell. This method may be used on small target nucleic acid sequences, and may be referred to as Nano-FISH.

Provided herein are compositions and methods for the cryopreservation of immune cells, such as peripheral blood mononuclear cells (PBMCs) by pre-treating the cells with a PTD-MYC fusion protein (e.g., an HIV TAT-MYC fusion protein) prior to freezing. Kits for practicing the methods are also provided herein.

Provided herein are compositions and methods for the cryopreservation of immune cells, such as peripheral blood mononuclear cells (PBMCs) by pre-treating the cells with a PTD-MYC fusion protein (e.g., an HIV TAT-MYC fusion protein) prior to freezing. Kits for practicing the methods are also provided herein.

Described herein are 3-dimensional clusters of reaggregated cells comprising cells reaggregated from at least two different cell sources, such as different cell types, different donors, and combinations thereof. Methods of making, using, and cryopreserving these 3-dimensional clusters of reaggregated cells are also described herein.

Dosage units consist of an autologous cell therapy product composed of fibroblasts grown for each individual to be treated for augmentation or regeneration of vocal cords. The suspension of autologous fibroblasts, grown from a biopsy of each individual's own buccal mucosa or skin using current good manufacturing practices (CGMP) and standard tissue culture procedures, is supplied in vials containing cryopreserved fibroblasts or precursors thereof, having a purity of at least 98% fibroblasts and a viability of at least 85%, for administration of from one to six mL, preferably two mL administered three times approximately three to six weeks apart, of cells at a concentration of from 1.0-2.010.sup.7 cells/mL.

Described herein is a reliable method for preparing a potent vaccine useful for immunotherapy comprising the step of cryopreserving a population of cells undergoing immunogenic cell death, and using such cells to activate dendritic cells for use in immunotherapy. In a specific embodiment, the method comprises cryopreserving cancer cells undergoing cell death, which can be used to prepare a pharmaceutical composition for immunotherapy against cancer.

Methods and processes for cryopreservation and direct cell thawing and seeding or suspension after cryopreservation, including methods that eliminate the necessity of post-thaw wash, spin, and frequent practice of performing a cell count. Cell compositions and no-spin cell products produced using the methods are also described.

An automated system and method of preparing oocytes, embryos, or blastocysts for cryopreservation. The method entails delivering two or more solutions into a container holding oocytes, embryos, or blastocysts, and controlling the flow of the solutions to gradually change the concentration of cryoprotectants and dehydrating agents in the container to minimize shock to the oocytes, embryos or blastocysts.