Browse Technologies

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Long-Lasting and Self-Sustaining Cell Therapy System

Researchers at Vanderbilt have created a novel drug delivery system using two distinct T-cell populations that interact to promote engraftment and persistence in pre-clinical models, increasing the efficacy of T-cell therapies. Furthermore, "booster" treatments can be administered months after the first dose to produce an expansion of antigen specific T cells. These advantages result in longer-term therapeutic efficacy and could reduce the number of treatments required. This system also represents a viable self-renewing platform for the delivery of biologic drugs in patients who would otherwise require frequent administration.

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Clarissa Muere


Novel anti-platelet therapy for treatment of thrombosis, cardiovascular disease, and cerebrovascular injury

One of the leading causes of deaths in developed countries is related to thromboembolism. PAR-4 (protease activated receptor-4) is one of two receptors on the human platelet that respond to thrombin, the central enzyme of coagulation.  Researchers here at Vanderbilt University have developed novel antagonists of PAR-4 that could be beneficial for patients allowing for normal hemostasis during treatment for thrombotic events.

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Tom Utley


Targeting microRNAs as a Treatment for Vascular Disease

Vanderbilt researchers have identified a highly expressed microRNA crucial in angiotensin induced hypertension; and developed a therapeutic strategy that focuses on local or systemic administration of antisense microRNA to inhibit microRNA expression as treatment for vascular diseases. Promising data in animal models reveals that the inhibition of such microRNA not only prevents fibrosis but also reverses previously established aortic stiffening.

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Jody Hankins