International Journal For Multidisciplinary Research

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Nanorobotics and Artificial Intelligence for Non-Invasive Clot Dissolution: A Breakthrough Approach in Thrombosis Treatment

Author(s) S.Subasree, P.Nidhishkumar, A.Pradeep Kumar, S.Elakkiyan
Country India
Abstract Thrombosis is the formation of blood clots in veins and arteries. Blood vessels form at the injured site to prevent blood loss. Unfortunately, blood vessels are formed in vital organs, causing serious problems such as stroke, heart failure, varicose veins, and embolism. A small coat may dissolve against the coagulant. Treatments available to remove cysts include thrombolysis and thrombectomy. Thrombolysis uses a catheter to remove medication from the site of the clot, while thrombectomy is a surgical procedure that manually removes the clot. Major complications include excessive bleeding, distal embolism, vascular damage, and tube failure. This procedure is not recommended for hypertensive, hypotensive, pregnant, stroke patients, and patients using antihypertensive medications. We offer treatments that use artificial intelligence-controlled nanorobots that can reach and dissolve hair anywhere on the body. The nanobots have been programmed to target the precise site of the clot and then release the anticoagulant. The therapy is non-invasive, bloodless, with minimal recovery and healing time. We developed a nanobot prototype embedded with software to detect and automatically deploy bugs.
Keywords Nanorobotics, Artificial Intelligence (AI), Thrombosis Treatment, Blood Clots, Thrombolysis, Targeted Drug Delivery.
Field Computer > Artificial Intelligence / Simulation / Virtual Reality
Published In Volume 5, Issue 5, September-October 2023
Published On 2023-10-31
Cite This Nanorobotics and Artificial Intelligence for Non-Invasive Clot Dissolution: A Breakthrough Approach in Thrombosis Treatment - S.Subasree, P.Nidhishkumar, A.Pradeep Kumar, S.Elakkiyan - IJFMR Volume 5, Issue 5, September-October 2023. DOI 10.36948/ijfmr.2023.v05i05.8166
DOI https://doi.org/10.36948/ijfmr.2023.v05i05.8166
Short DOI https://doi.org/gs38p5
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