Provided is a loading tray assembly for housing a lyophilization container and a related system and method. The loading tray assembly includes a chassis including a contact void configured to facilitate direct contact between the attached lyophilization container and a lyophilizer shelf. The method includes securing a multi-part lyophilization container including a peelable seal on a lyophilization loading tray assembly, inputting a liquid into a non-breathable section of the lyophilization container, loading the tray assembly into a lyophilizer, freezing the liquid, applying heat energy and a vacuum, the vacuum causing an opening of the peelable seal and occluding the lyophilization container to isolate the frozen liquid.

This disclosure relates to a system and method to improve the uniformity of the heat transfer coefficient of containers filled with biological materials during the freezing and thawing process, in particular a system that is easily transported and incremented to other conventional freeze-thaw methods and equipment. The system includes a portable air blast system configured to receive a container filled with biological materials and to be placed in a cooling or heating chamber, for homogeneous and reproducible freezing and thawing of biological materials. This disclosure also relates to a method of freezing and thawing biological solution inside a container by using the portable air blast system according to any of the previous claims 1-12, comprising: obtaining a container filled with biological solution; placing the container into the vent enclosure and on the stand of the air blast system; placing the air blast system with the container into a heating or cooling chamber; activating the air blast system by activating the fan in the air blast system.

Described herein are devices, systems, and methods to facilitate cryopreservation of a cell or a mass of a plurality of cells such as oocytes or embryos. A device of the disclosure can, for example, store oocytes or embryos during the vitrification and/or warming processes of in vitro fertilization.

An incubator assembly includes an incubator enclosure having an internal chamber in which a controlled environment is maintained and which is defined by one or more walls. The incubator assembly further includes a jacket assembly mounted adjacent to at least one of the walls and having an internal airspace in which an internal fluid is enclosed for maintaining a homogenous temperature within the internal chamber. The jacket assembly further has a vent movable between a plurality of positions including an open position in which the internal fluid is allowed to exit the internal airspace into an ambient environment.

The present invention is directed to a method and a device for long-term cryopreservation of a biological sample, including a vascularized tissue, an innervated tissue, or both, such, but not limited to a limb.

The present invention relates to a method of freezing of biological material and a freezing apparatus for freezing of biological material.

Embodiments for a portable and compact centrifugation and thermal management system capable of separating and transporting biological samples while maintaining sample quality for periods of shipment time are described. A compact, automatic centrifuge holding exactly one sample tube is inside an insulating and thermally managed container suitable for standard shipping. A rotor to retain a sample tube is pre-balanced. An electronic controller starts, times and stops centrifugation automatically, responsive to placement of a lid. Thermal management may comprise a phase change material. Embodiments are free of user controls. Embodiments are free of the need for external power or external control.

A biological specimen of a subject is handled and tracked for a procedure involving that specimen. Prior to initiation of the procedure, a first procedure data structure (PDS) is generated. The first PDS binds an identifier corresponding to the subject with an indicator of a procedure to be performed on the specimen and identifiers of a specimen container and a specimen holder that physically contacts the biological specimen, as well as a scheduled time for the procedure. A schedule of a plurality of PDSs including the first PDS, is displayed on a display device of a graphical user interface. Following initiation of the procedure, the first PDS is updated based on user input, and after the procedure, at least a portion of the first PDS, as updated, is stored in a database in conjunction with other PDSs respectively associated with other completed procedures.

Provided herein is technology relating to cryopreservation and particularly, but not exclusively, to devices, systems, and methods for cryopreservation of biological materials such as oocytes, zygotes, and embryos. In particular, provided herein are methods of using microfluidic devices to exposing biological material to a vitrification solution having a time dependent concentration of a cryoprotectant agent.