Abstract: A method for reducing hemolysis and microparticle formation during storage of pathogen reduced blood. Oxygen reduced blood compositions comprising SAGM and riboflavin having reduced hemolysis. Oxygen reduced blood compositions comprising SAGM and riboflavin having reduced microparticles. Oxygen and pathogen reduced blood compositions comprising CPAD and riboflavin having reduced hemolysis. Oxygen and pathogen reduced blood compositions comprising SAGM and riboflavin having reduced microparticles.

Abstract: Method for transfusion medicine to reduce adverse events in transfusion patient populations based on underlying patient physiology.

Abstract: A method for reducing hemolysis and microparticle formation during storage of pathogen reduced blood. Oxygen reduced blood compositions comprising SAGM and riboflavin having reduced hemolysis. Oxygen reduced blood compositions comprising SAGM and riboflavin having reduced microparticles. Oxygen and pathogen reduced blood compositions comprising CPAD and riboflavin having reduced hemolysis. Oxygen and pathogen reduced blood compositions comprising SAGM and riboflavin having reduced microparticles.

Abstract: The present invention is a method for enhancing the quality and survival of red blood cells during storage by depleting the red blood cells of both carbon dioxide and oxygen and maintaining 2,3-diphosphoglycerate acid levels.

Abstract: A method for reducing hemolysis and microparticle formation during storage of pathogen reduced blood. Oxygen reduced blood compositions comprising SAGM and riboflavin having reduced hemolysis. Oxygen reduced blood compositions comprising SAGM and riboflavin having reduced microparticles. Oxygen and pathogen reduced blood compositions comprising CPAD and riboflavin having reduced hemolysis. Oxygen and pathogen reduced blood compositions comprising SAGM and riboflavin having reduced microparticles.

Abstract: The present invention is a method for enhancing the quality and survival of red blood cells during storage by depleting the red blood cells of both carbon dioxide and oxygen and maintaining 2,3-diphosphoglycerate acid levels.

Abstract: A blood storage system comprising: a collection vessel for red blood cells; an oxygen or oxygen and carbon dioxide depletion device; a storage vessel for red blood cells; tubing connecting the collection vessel to the oxygen or oxygen and carbon dioxide depletion device and the oxygen or oxygen and carbon dioxide depletion device to the storage vessel; and a gamma or X-ray irradiating device is used to irradiate red blood cells stored in the vessel, storing red blood cells under anaerobic conditions.

Abstract: A blood storage system comprising: a collection vessel for red blood cells; an oxygen or oxygen and carbon dioxide depletion device; a storage vessel for red blood cells; tubing connecting the collection vessel to the oxygen or oxygen and carbon dioxide depletion device and the oxygen or oxygen and carbon dioxide depletion device to the storage vessel; and a gamma or X-ray irradiating device is used to irradiate red blood cells stored in the vessel, storing red blood cells under anaerobic conditions.

Abstract: Artificial microvascular network (AMVN) devices are provided and related methods of making and methods of using such devices are provided. The present disclosure generally relates to an AMVN device comprising a substrate including a capillary network configured so as to simulate those actually encountered in the circulation of various humans and animal model systems. In certain aspects, the AMVN devices may be used, e.g., to investigate the effect of storing RBCs under aerobic and anaerobic conditions. However, the use of such AMVN devices is not so limited.

Abstract: A blood filter device comprising: a housing comprising an outer wall and a first inlet, a first outlet and a second outlet; a membrane which is capable of separating plasma from the blood, wherein the membrane forms an inner chamber; a leukocyte and oxygen and/or carbon dioxide depletion media disposed wherein the inner chamber, the leukocyte and oxygen and/or carbon dioxide depletion media is capable of depleting leukocytes and oxygen and/or carbon dioxide from the blood; an outer chamber disposed between the outer wall and the membrane, wherein the plasma which permeates through the membrane enters the outer chamber and exits the filter device via the first outlet; whereby the blood which has been depleted of oxygen and/or carbon dioxide, leukocytes and plasma exists and filter device via the second outlet.

Abstract: There is provided a method for processing an inner wall surface of a micro vacancy, capable of reliably etching or cleaning even if the hole provided to the substrate to be processed is narrow and deep. The substrate has a surface and a micro vacancy with an opening on the surface. An aspect ratio of the micro vacancy being at least 5, or the aspect ratio being less than 5 and a ratio of a micro vacancy volume to a surface area of the opening being at least 3. The micro vacancy is exposed to an atmosphere for forming a silicon oxide film so as to form a silicon oxide film on the inner wall surface of the micro vacancy. Subsequently a processing solution with a wettability with respect to silicon oxide is introduced into the micro vacancy so as to perform processing of the inner wall surface.

Abstract: Artificial microvascular network (AMVN) devices are provided and related methods of making and methods of using such devices are provided. The present disclosure generally relates to an AMVN device comprising a substrate including a capillary network configured so as to simulate those actually encountered in the circulation of various humans and animal model systems. In certain aspects, the AMVN devices may be used, e.g., to investigate the effect of storing RBCs under aerobic and anaerobic conditions. However, the use of such AMVN devices is not so limited.

Abstract: Methods and compositions for improved clinical outcomes for trauma patients receiving whole blood transfusion. Methods and compositions for improved clinical outcomes for blood transfusions for cancer patients are also provided.

Abstract: A portable assembly for processing red blood cells RBCs including a disposable blood collection set including a blood bag, an anaerobic storage bag and an oxygen and/or oxygen and carbon dioxide depletion device disposed between the blood collection bag and anaerobic storage bag. The portable assembly further provides for a gas circulation device in fluid communication with the oxygen or oxygen and carbon dioxide depletion device, The gas circulation device includes a pressure source that is able circulate flushing gas through the depletion device as RBCs pass from the blood collection bag, through the depletion device and into the anaerobic storage bag.

Abstract: An electrostatic chuck includes a heating part, a substrate on the heating part, a temperature sensor, and a metal material. The substrate includes a first surface onto which an object is to be attracted and held, a second surface opposite from the first surface and contacting the heating part, and a first hole and a second hole aligned in a thickness direction of the substrate in communication with each other. The second hole is closer to the heating part than is the first hole, and open at the second surface of the substrate. The second hole is larger than the first hole when viewed in the thickness direction of the substrate. The temperature sensor is at the bottom of the first hole. The metal material is in the second hole with a space between the temperature sensor and the metal material.

Abstract: An electrostatic chuck includes a heating part, a substrate on the heating part, a temperature sensor, and an embedment part. The substrate includes a first surface onto which an object is to be attracted and held, a second surface opposite from the first surface and contacting the heating part, and a hole open at the second surface of the substrate. The hole includes a threaded inner wall surface. The temperature sensor is at the bottom of the hole. The embedment part includes a threaded side surface, and is embedded in the hole with the threaded side surface mating with the threaded inner wall surface. The substrate and the embedment part are formed of the same material.

Abstract: A system and methodology for the preservation of red blood cells is described in which red blood cells are oxygen or oxygen and carbon dioxide depleted, treated and are stored in an anaerobic environment to optimize preparation for transfusion. More particularly, a system and method for extended storage of red blood cells from collection to transfusion that optimizes red blood cells prior to transfusion is described.

Abstract: A blood storage container for the anaerobic storage of blood, having enhanced sealing methods and materials for the preservation of stored blood is provided.

Abstract: A system and methodology for the preservation of red blood cells is described in which red blood cells are oxygen or oxygen and carbon dioxide depleted, treated and are stored in an anaerobic environment to optimize preparation for transfusion. More particularly, a system and method for extended storage of red blood cells from collection to transfusion that optimizes red blood cells prior to transfusion is described.

Abstract: A blood storage container for the anaerobic storage of blood, having enhanced sealing methods and materials for the preservation of stored blood is provided.