A method for blood serum protein activity preservation is provided. The method comprises the steps of mixing blood serum with one or more protectants selected from the group consisting of albumin, triglyceride, glycerol, dextran, propylene glycol, galactose, alginate, and trehalose; and lyophilizing the mixture.

This invention relates to a preservative solution and a method to preserve whole blood for cellular and molecular analysis.

This invention relates to a preservative solution and a method to preserve whole blood for cellular and molecular analysis.

A method for treating a plastic block comprising using heat to embed a UV resistant material into an outer face of the plastic block wherein, once embedded, the UV resistant material provides a coating on the outer face. A method for treating a plastic block comprising using compressive force to embed a UV resistant material into an outer face of the plastic block wherein, once embedded, the UV resistant material provides a coating on the outer face.

A system and method of preserving cadaveric tissue is provided. The present invention utilizes a preservation fluid having high-dose DMSO, high-dose acetic acid, and isopropyl alcohol. It is believed that the high-dose DMSO serves as a hardening agent while the high-dose acetic acid serves as a softening agent.

A system and method of preserving cadaveric tissue is provided. The present invention utilizes a preservation fluid having high-dose DMSO, high-dose acetic acid, and isopropyl alcohol. It is believed that the high-dose DMSO serves as a hardening agent while the high-dose acetic acid serves as a softening agent.

The invention is that of systems of methods for preserving vital assets such as human organs in transit. An exemplary system may include a central software application and processor for storing vital asset identifying information in a database and displaying real-time transit information in relation to the asset to authenticated users. Application programming interfaces are provided to allow authenticated users to monitor location and environmental data transmitted from the proximity of the asset to the central software application for processing and display on graphical user interfaces. An exemplary system enables methods of reallocating freight from a first to a second transportation asset to avoid delays and prolonged exposures to adverse environmental conditions. In certain embodiments, unmanned aerial systems may be deployed to intervene in the transit channel and overcome such delays or exposures. In preferred embodiments, historical data is collected and analyzed to help predict human organ transplant outcomes.

The invention is that of systems of methods for preserving vital assets such as human organs in transit. An exemplary system may include a central software application and processor for storing vital asset identifying information in a database and displaying real-time transit information in relation to the asset to authenticated users. Application programming interfaces are provided to allow authenticated users to monitor location and environmental data transmitted from the proximity of the asset to the central software application for processing and display on graphical user interfaces. An exemplary system enables methods of reallocating freight from a first to a second transportation asset to avoid delays and prolonged exposures to adverse environmental conditions. In certain embodiments, unmanned aerial systems may be deployed to intervene in the transit channel and overcome such delays or exposures. In preferred embodiments, historical data is collected and analyzed to help predict human organ transplant outcomes.

According to the present invention, there are provided a chamber for transplantation, as a planar chamber for transplantation which has a structure in which membranes for immunoisolation face each other, and which is capable of stably enclosing a biological constituent, including a membrane for immunoisolation at a boundary between an inside and an outside of the chamber for transplantation, in which the membranes for immunoisolation which face each other have joint portions that are joined to each other, an interior space includes a point at a distance of 10 mm or longer from any position of the joint portion, and the membrane for immunoisolation has flexibility that allows a distance of 1 mm to 13 mm as the following distance: in a case where a portion of 10 mm from a side surface of one short side of a 10 mm30 mm rectangular test piece of the membrane for immunoisolation is vertically sandwiched between flat plates, and the flat plates are placed horizontally, a distance between a horizontal plane including a center plane in a thickness direction of the sandwiched portion of the membrane for immunoisolation, and a part, which is farthest from the horizontal plane, of a residual 20 mm-portion projecting from the flat plate; and a device for transplantation including the chamber for transplantation enclosing a biological constituent therein.

A tube-array-type liquid nitrogen container includes a container body having a mouth; a tube array component received in the container body; and a top cap sealing the mouth from above. The top cap is rotatable in the mouth. The tube array component is composed of a plurality of holding tubes. The holding tube is opened at one end thereof, wherein the opening thereof faces the top cap. The top cap has at least one tube access passing therethrough. Each tube access is atop covered by a tube access cover. The tube-array-type liquid nitrogen container uses a tube-array component composed of the a plurality of holding tubes to store the freezing tubes, and is cooperated with the rotatable top cap and an external robotic arm, thereby improving space utilization and thermal insulation, effectively ensuring safety of the freezing tubes, and facilitating automatic storage of freezing tubes.