Abstract: In some embodiments, alerts are sent to appropriate parties if an insulated container is not properly packed out to insure the approximate safe temperature of the materials. In other embodiments, a countdown timer is used to keep track of the time that the biologic has been in transit, and ensure that the amount of time does not exceed the known shelf life of the biologic. In still other embodiments, the payload container is equipped with its own sensors, such as temperature sensors, and communications devices, such as a close range communication device, capable of transmitting information regarding a range of parameters, including, but not limited to, temperature, humidity, location and time, from the payload container to an end user. In other embodiments, shielding and/or radiation sensors are included in insulated shipping or storage containers, or payload containers, to shield and monitor the radiation exposure of the payload.

Abstract: In some embodiments, alerts are sent to appropriate parties if an insulated container is not properly packed out to insure the approximate safe temperature of the materials. In other embodiments, a countdown timer is used to keep track of the time that the biologic has been in transit, and ensure that the amount of time does not exceed the known shelf life of the biologic. In still other embodiments, the payload container is equipped with its own sensors, such as temperature sensors, and communications devices, such as a close range communication device, capable of transmitting information regarding a range of parameters, including, but not limited to, temperature, humidity, location and time, from the payload container to an end user. In other embodiments, shielding and/or radiation sensors are included in insulated shipping or storage containers, or payload containers, to shield and monitor the radiation exposure of the payload.

Abstract: In some embodiments, alerts are sent to appropriate parties if an insulated container is not properly packed out to insure the approximate safe temperature of the materials. In other embodiments, a countdown timer is used to keep track of the time that the biologic has been in transit, and ensure that the amount of time does not exceed the known shelf life of the biologic. In still other embodiments, the payload container is equipped with its own sensors, such as temperature sensors, and communications devices, such as a close range communication device, capable of transmitting information regarding a range of parameters, including, but not limited to, temperature, humidity, location and time, from the payload container to an end user. In other embodiments, shielding and/or radiation sensors are included in insulated shipping or storage containers, or payload containers, to shield and monitor the radiation exposure of the payload.

Abstract: Provided are apparatuses for cryopreserving cells which include a vessel comprising a biocompatible substrate, wherein the vessel further comprises an interior and an exterior, and a mechanical ice nucleating device disposed in or on the vessel interior for initiating ice crystal formation. Also provided are kits comprising one or more apparatuses for cryopreserving cells and a biopreservation medium. Further provided are compositions comprising a vessel for holding cells, a mechanical ice nucleating device, a biopreservation medium, and cells disposed in the vessel. The apparatuses, kits, and compositions of the invention can optionally include an insulating material which is disposed on all or a portion of the vessel.

Abstract: The present invention relates to materials and methods for hypothermic collection of whole blood, and components thereof, which can extend the holding time of blood beyond the current useable limit. Additionally, blood can be drawn directly into a hypothermic preservation solution without the addition of standard anticoagulants. This is enabled by providing sustained cellular viability under hypothermic conditions using a nutrient matrix devoid of animal proteins and containing energy substrates, free-radical scavengers, and impermeants that is ionically balanced for storage of biologic materials at low temperatures to prevent cellular stress-induced apoptosis.

Abstract: Provided are apparatuses for cryopreserving cells which include a vessel comprising a biocompatible substrate, wherein the vessel further comprises an interior and an exterior, and a mechanical ice nucleating device disposed in or on the vessel interior for initiating ice crystal formation. Also provided are kits comprising one or more apparatuses for cryopreserving cells and a biopreservation medium. Further provided are compositions comprising a vessel for holding cells, a mechanical ice nucleating device, a biopreservation medium, and cells disposed in the vessel. The apparatuses, kits, and compositions of the invention can optionally include an insulating material which is disposed on all or a portion of the vessel.

Abstract: The present invention relates to materials and methods for hypothermic collection of whole blood, and components thereof, which can extend the holding time of blood beyond the current useable limit. Additionally, blood can be drawn directly into a hypothermic preservation solution without the addition of standard anticoagulants. This is enabled by providing sustained cellular viability under hypothermic conditions using a nutrient matrix devoid of animal proteins and containing energy substrates, free-radical scavengers, and impermeants that is ionically balanced for storage of biologic materials at low temperatures to prevent cellular stress-induced apoptosis.

Abstract: The present invention is directed to systems and proteogenomic methods for predicting the success of the transplant of a cell, tissue, or organ by providing a means to determine the quality of the cell, tissue, or organ to be transplanted. In one embodiment, the present invention uses samples from the preservation solution to obtain phenomic fingerprints correlated with transplant pre-operative and post-operative data as a pre-operative tissue diagnostic and procedural success predictive indicator.

Abstract: The present invention is directed to systems and proteogenomic methods for predicting the success of the transplant of a cell, tissue, or organ by providing a means to determine the quality of the cell, tissue, or organ to be transplanted. In one embodiment, the present invention uses samples from the preservation solution to obtain phenomic fingerprints correlated with transplant pre-operative and post-operative data as a pre-operative tissue diagnostic and procedural success predictive indicator.

Abstract: The invention provides methods for the hypothermic preservation of cells, tissues and organs. In particular, the invention provides methods for the hypothermic preservation or storage of cells, tissues or organs in the vitreous state.

Abstract: The invention provides methods for the hypothermic preservation of cells, tissues and organs. In particular, the invention provides methods for the hypothermic preservation or storage of cells, tissues or organs in the vitreous state.

Abstract: The present invention is directed to systems and methods for assessing the success of the transplant of a cell, tissue, or organ before and after transplant. Protein array technology is used to obtain a biomarker pattern for the cell, tissue, or organ that is being considered for transplant or that has been transplanted. Samples for the identification of biomarkers and biomarker patterns are obtained from the cell, tissue or organ itself, or from a body fluid of the donor or recipient. Sample biomarker data are compared to reference biomarker data obtained from donors, recipients or cells, tissues or organs that have been transplanted. Correlation of a sample biomarker pattern with the reference biomarker pattern, where transplant outcome for the samples used for the reference biomarkers is known, permits a suggested treatment determination. A computerized system to identify the condition of transplant before or after implantation is also provided.