Presented herein are methods and systems of collecting and preserving a biological sample. The methods and systems include the use of a dissolvable collection film to collect the samples and dissolving the film in to a buffer or stabilizing solution contained in a sealable container.

A mixing apparatus (1) for mixing slaughter offal with a preservative agent, the apparatus comprising an offal collection tank (3) with a bottom (4) provided with a discharge opening (5) connectable to a closable discharge, an agitator (8) extending into the offal collection tank, and a pump unit (9) operatively connectable to the discharge, wherein the apparatus further comprises a preservative reservoir (7) mounted on top of the collection tank (3). A collection and preservation system is provided, wherein the addition of preservation agent can be strictly controlled, can easily and quickly be installed and connected when it is to be used. After use, the system is easily removed and cleaned.

A mixing apparatus (1) for mixing slaughter offal with a preservative agent, the apparatus comprising an offal collection tank (3) with a bottom (4) provided with a discharge opening (5) connectable to a closable discharge, an agitator (8) extending into the offal collection tank, and a pump unit (9) operatively connectable to the discharge, wherein the apparatus further comprises a preservative reservoir (7) mounted on top of the collection tank (3). A collection and preservation system is provided, wherein the addition of preservation agent can be strictly controlled, can easily and quickly be installed and connected when it is to be used. After use, the system is easily removed and cleaned.

A system for the hypothermic transport of biological samples, such as tissues, organs, or body fluids. The system includes a self-purging preservation apparatus to suspend a sample in preservation fluid and perfuse a tissue with preservation fluid. The self-purging preservation apparatus is placed in an insulated transport container having a cooling medium. When assembled, the system allows for transport of biological samples for extended periods of time at a stable temperature.

A system for the hypothermic transport of biological samples, such as tissues, organs, or body fluids. The system includes a self-purging preservation apparatus to suspend a sample in preservation fluid and perfuse a tissue with preservation fluid. The self-purging preservation apparatus is placed in an insulated transport container having a cooling medium. When assembled, the system allows for transport of biological samples for extended periods of time at a stable temperature.

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.

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.

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.

Provided is an antimicrobial composition comprised of at least one degradation product of oxidized cellulose (OC), such as oxidized regenerate cellulose (ORC), and minocycline, methods of preparation thereof and uses thereof.