Abstract: To reduce the complexity and risk associated with activated platelet transfusions, thrombocytopenic patients are transfused with exclusively non-activated platelets. A preferred embodiment is through routine screening of platelet units in the hospital blood bank using dynamic light scattering and selective allocation of platelets, with non-activated platelets being exclusively transfused to thrombocytopenic patients, especially patients with cancers such as hematologic malignancies. Activated platelets typically contain activated factors of the innate immune system called complement, transforming growth factor beta (TGF?), interleukin 6 (IL-6), CD40 ligand (CD40L) and C-reactive protein (CRP) for example. Some of these activated factors have already been shown to correlate with microparticles and others are expected to correlate: the higher the platelet activation the more microparticles and the higher the concentration of these factors.

Abstract: Dynamic light scattering (DLS)-based particle testing is used for screening to predict drug-induced complications with heparin and other compounds known to lead to thrombocytopenia in many patients. The measurement of particle content is used to both predict as well as confirm drug-induced thrombocytopenia (“DIT”).

Abstract: To reduce the complexity and risk associated with activated platelet transfusions, thrombocytopenic patients are transfused with exclusively non-activated platelets. A preferred embodiment is through routine screening of platelet units in the hospital blood bank using dynamic light scattering and selective allocation of platelets, with non-activated platelets being exclusively transfused to thrombocytopenic patients, especially patients with cancers such as hematologic malignancies. Activated platelets typically contain activated factors of the innate immune system called complement, transforming growth factor beta (TGF?), interleukin 6 (IL-6), CD40 ligand (CD40L) and C-reactive protein (CRP) for example. Some of these activated factors have already been shown to correlate with microparticles and others are expected to correlate: the higher the platelet activation the more microparticles and the higher the concentration of these factors.

Abstract: An apparatus for separating components of a body fluid, especially whole blood, to prepare a sample that may be analyzed using spectrophotometric techniques such as dynamic light scattering (DLS) to assess the composition of the sample are disclosed. A microfluidic separator may be defined by a capillary tube having red blood cell traps incorporated therein; importantly, the microfluidic separator does not activate platelets as the whole blood flows through the separator by air replacement action (i.e., suction). Whole blood is processed to remove red blood cells so that DLS may be used to analyze the separated sample to detect merosomes in the sample.

Abstract: Apparatus and methods for monitoring platelet quality are disclosed. A bag of platelet concentrate is oriented in a desired manner on a transparent surface that is illuminated from one side with a light source. A clamp applies pressure to a desired portion of the bag to temporarily manipulate a predetermined portion of the bag and therefore the fluid in the bag in a known and repeatable manner. A flow inducing member applies pressure to the bag to thereby cause a turbulent flow of the fluid from the bag through a flow path. A detector records optical characteristics of light diffracted by the flowing particles, which is analyzed by software to derive a score correlating to the quality of the platelets. Platelet swirl is scored as a measure of platelet quality where more resting, discoid platelets result in a higher score.