Novel Methods for Dissolving Blood Clots
DESCRIPTION (provided by applicant): Each year, as many as 2 million Americans develop venous thromboembolism (VTE). VTEs are blood clots in the legs (venous thrombosis) that may travel to the lungs (pulmonary embolism). It is estimated that 10-20% of VTEpatients die, and the annual direct costs are up to 10 billion. Despite advances in diagnosis and prophylaxis, anticoagulation, a 50-year-old therapy, remains the most commonly used treatment for venous thromboembolism. The drawbacks of anticoagulation include the following: 1) it does not dissolve existing clots or thrombi; 2) up to 50% of patients develop post-thrombotic symptoms (pain, swelling, chronic sores); 3) it is linked to recurrent venous thromboembolism in up to 30% of patients; 4) it has significant bleeding risk; and 5) it has never been shown to save lives in a randomized clinical trial. Tissue plasminogen activator (TPA) and other blood clot-dissolving drugs are better at preventing post-thrombotic symptoms, but the high doses used are: 1)only partially successful at dissolving blood clots; 2) significantly increase bleeding risks and, 3) do not reduce mortality. It is clear that there is a need for a safer, more-effective therapy that savs lives, reduces disability, and lowers health carecosts associated with venous thromboembolism. Through our successful completion of the Phase I portion of this multi-phase STTR study, we (Translational Sciences, Inc. [TSI]) have discovered a molecule that dissolves blood clots through a unique mechanism-inactivating the major inhibitor of plasmin. Through synergism, this molecule increases the potency and specificity of TPA, and it avoids TPA-related hemorrhage and neurotoxicity. TSI's extensive pre- clinical studies indicate that this novel approach could substantially reduce the morbidity, mortality and costs associated with VTE. In our Phase I STTR feasibility studies, we successfully converted this molecule, following FDA guidance, into a clot-dissolving biologic therapeutic (Lysimab) suitable for investigation in clinical trials. The Phase II STTR goal is to significantly advance Lysimab toward human trials by: 1) determining optimal (safe/effective) therapeutic dose combinations of Lysimab and TPA in vivo in a humanized model of pulmonary embolism;2) producing and purifying 10 g of Lysimab under GMP conditions, 3) investigating the tissue binding, safety, pharmacokinetics and pharmacodynamics of Lysimab, and 4) submitting an IND to the FDA. This work will be carried out with TSI's Phase II STTR partner, the University of Wisconsin. We will leverage our substantial pre-clinical data to form a strategic alliance with a big pharma partner with the clinical, regulatory and financial resources needed to conduct clinical trials for FDA approval of Lysimab.We project that a combination TPA/a2AP-I therapy could lead to the survival of an additional 17,000-36,000 patients per year and gt50% reduction in post-thrombotic symptoms and their associated costs. Upon completion of this Phase II project and transferof commercialization responsibilities to our strategic partner, TSI will investigate the potential benefits of this platform technology to heart and stroke victims. PUBLIC HEALTH RELEVANCE: Each year, as many as 2 million Americans develop venousthromboembolism (VTE), and the annual direct costs are up to 10 billion. Yet, despite advances in diagnosis and prophylaxis, anticoagulation, a 50-year-old therapy, remains widely used for VTE treatment despite the fact that it does not dissolve clots, itis associated with serious side-effects and, it has never been shown to save lives in a randomized clinical trial. This multi- phase STTR project seeks to develop a novel VTE therapy that could markedly reduce death, disability, and billions of dollars indirect and indirect VTE-related costs.
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TRANSLATIONAL SCIENCES, INC.
1840 Overton Park Avenue Memphis, TN 38112-5410
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UNIVERSITY OF WISCONSIN SYSTEM
UNIVERSITY OF WISCONSIN SYSTEM
1220 LINDEN DR MADISON, WI 53706
MADISON, WI 53706-