Abstract: Embodiments of the technology described herein are based upon the discoveries that neturophil extracellular traps (NETs) provide a stimulus for thrombus formation and that NETs are present in stored blood products. Accordingly, some embodiments relate to methods of treating and preventing toxicity of NETs and thrombosis caused by NETs. Additional embodiments are directed towards methods of treating stored blood products to prevent transfusion-related injuries.

Abstract: Embodiments of the technology described herein are based upon the discoveries that neutrophil extracellular traps (NETs) provide a stimulus for thrombus formation and that NETs are present in stored blood products. Accordingly, some embodiments relate to methods of treating and preventing toxicity of NETs and thrombosis caused by NETs. Additional embodiments are directed towards methods of treating stored blood products to prevent transfusion-related injuries.

Abstract: Embodiments of the technology described herein are based upon the discoveries that neutrophil extracellular traps (NETs) provide a stimulus for thrombus formation and that NETs are present in stored blood products. Accordingly, some embodiments relate to methods of treating and preventing toxicity of NETs and thrombosis caused by NETs. Additional embodiments are directed towards methods of treating stored blood products to prevent transfusion-related injuries.

Abstract: Embodiments of the technology described herein are based upon the discoveries that neutrophil extracellular traps (NETs) provide a stimulus for thrombus formation and that NETs are present in stored blood products. Accordingly, some embodiments relate to methods of treating and preventing toxicity of NETs and thrombosis caused by NETs. Additional embodiments are directed towards methods of treating stored blood products to prevent transfusion-related injuries.

Abstract: Provided herein are methods for recanalization of occluded blood vessels in a subject having an infarction. The method includes a step of administering to the subject a therapeutically effective amount of isolated ADAMTS13 protein at particular dosages and ranges of times after detection of the infarction. As described herein, ADAMTS13 advantageously recanalizes occluded blood vessels and reduces infarction size, even when administered a prolonged period after stable occlusion. Accordingly, such methods and compositions are useful for the treatment of infractions caused by blood vessel occlusion.

Abstract: Embodiments of the technology described herein are based upon the discoveries that neutrophil extracellular traps (NETs) provide a stimulus for thrombus formation and that NETs are present in stored blood products. Accordingly, some embodiments relate to methods of treating and preventing toxicity of NETs and thrombosis caused by NETs. Additional embodiments are directed towards methods of treating stored blood products to prevent transfusion-related injuries.

Abstract: Embodiments of the technology described herein are based upon the discoveries that neutrophil extracellular traps (NETs) provide a stimulus for thrombus formation and that NETs are present in stored blood products. Accordingly, some embodiments relate to methods of treating and preventing toxicity of NETs and thrombosis caused by NETs. Additional embodiments are directed towards methods of treating stored blood products to prevent transfusion-related injuries.

Abstract: Embodiments of the technology described herein are based upon the discoveries that neturophil extracellular traps (NETs) provide a stimulus for thrombus formation and that NETs are present in stored blood products. Accordingly, some embodiments are directed towards methods of treating stored blood products to prevent transfusion-related injuries e.g., preventing transfusion-related acute lung injury (TRALI), by treating blood transfusion products with an anti-Neutrophil Extracellular Trap (NET) compound.

Abstract: Disclosed herein is a bispecific inhibitor for use in treating thrombotic disorders, such as acute thrombotic disorders like stroke and thromboembolism. The bispecific inhibitor is based on monoclonal antibodies targeting TAFI and PAI-1, and shows efficacy in the presence or the absence of plasminogen activators such as tissue-type plasminogen activator (tPA).

Abstract: Provided herein are methods for recanalization of occluded blood vessels in a subject having an infarction. The method includes a step of administering to the subject a therapeutically effective amount of isolated ADAMTS13 protein at particular dosages and ranges of times after detection of the infarction. As described herein, ADAMTS13 advantageously recanalizes occluded blood vessels and reduces infarction size, even when administered a prolonged period after stable occlusion. Accordingly, such methods and compositions are useful for the treatment of infractions caused by blood vessel occlusion.

Abstract: Disclosed herein is a bispecific inhibitor for use in treating thrombotic disorders, such as acute thrombotic disorders like stroke and thromboembolism. The bispecific inhibitor is based on monoclonal antibodies targeting TAFI and PAI-1, and shows efficacy in the presence or the absence of plasminogen activators such as tissue-type plasminogen activator (tPA).

Abstract: Embodiments of the technology described herein are based upon the discoveries that neutrophil extracellular traps (NETs) provide a stimulus for thrombus formation and that NETs are present in stored blood products. Accordingly, some embodiments relate to methods of treating and preventing toxicity of NETs and thrombosis caused by NETs. Additional embodiments are directed towards methods of treating stored blood products to prevent transfusion-related injuries.

Abstract: Embodiments of the technology described herein are based upon the discoveries that neturophil extracellular traps (NETs) provide a stimulus for thrombus formation and that NETs are present in stored blood products. Accordingly, some embodiments relate to methods of treating and preventing toxicity of NETs and thrombosis caused by NETs. Additional embodiments are directed towards methods of treating stored blood products to prevent transfusion-related injuries.

Abstract: Disclosed herein is a bispecific inhibitor for use in treating thrombotic disorders, such as acute thrombotic disorders like stroke and thromboembolism. The bispecific inhibitor is based on monoclonal antibodies targeting TAFI and PAI-1, and shows efficacy in the presence or the absence of plasminogen activators such as tissue-type plasminogen activator (tPA).

Abstract: Embodiments of the technology described herein are based upon the discoveries that neturophil extracellular traps (NETs) provide a stimulus for thrombus formation and that NETs are present in stored blood products. Accordingly, some embodiments relate to methods of treating and preventing toxicity of NETs and thrombosis caused by NETs. Additional embodiments are directed towards methods of treating stored blood products to prevent transfusion-related injuries.

Abstract: The invention relates generally to an anti-thrombotic treatment of occlusive syndromes in the cerebral vascular system causing cerebral infarct due to stroke or ischemic stroke, which is a major cause of death and permanent disability in industrialized countries. More particularly, the invention relates to a system and method of preventing and treating such occlusive syndromes in the cerebral vascular by inhibiting initial adhesion/attachment of platelets to the endothelium by preventing or inhibiting binding of von Willebrand factor to platelet glycoprotein Ib by administration of a subject in such need anti-glycoprotein Ib monovalent antibodies and/or anti-vWF monovalent antibodies, rather than by blocking the common pathway of platelet aggregation by blockade of platelet aggregation with anti-glycoprotein IIb/IIIa.