A New Approach For Assessment Of Blood Coagulation
The potential applications of this invention include diagnosis and treatment management for bleeding patients in a variety of clinical situations in real-time at the point of care, assessment of hypo and hyper-coagulable states and monitoring of pharmacological treatment with anti- and procoagulant drugs.Advantage: Invention provides rapid, dynamic, visual assessment that creates the unique opportunity for evaluating a patient’s coagulation status in real-time at the point of care.
Provide a visual assessment of clot formation and subsequent analysis of whole blood under static and flowing conditions.Allows the process of clot initiation, propagation, stabilization and dissolution of whole blood to be evaluated separately under static and flowing conditions.Provide information on the interactions of coagulation factors, inhibitors, red blood cells, platelets, and anticoagulants during clot formation and subsequent fibrinolysis of whole blood under static and flowing conditions.
Most commonly, routine laboratory based coagulations tests (prothrombin time/activated partial thromboplastin time, fibrinogen levels and platelet numbers are used to assess the patient’s current coagulation status. The tests are of limited value in rerioperative and acutely ill patients because of delay in transportation and centrifugation. Turnaround time is often too long for the tests to be reliable. This invention uses an optical approach an acoustic radiation force based optical coherence elastography to rapidly assess the dynamic whole blood coagulation by measuring the elastic properties of blood during coagulation. The potential applications of this invention include diagnosis and treatment management for bleeding patients in a variety of clinical situations in real-time at point of care.
State Of Development Experimental stage. Tech ID/UC Case 28771/2016-273-0 Related Cases 2016-273-0
USA
