Researchers at the techmed center of the university of twenty and radboud University Medical Center have Removed Blood Clots with WITH WITH WITH WITH WITH WITH WITH WITH WITH WITH WITH WITH WITH WITH WITH WITH WHERELES MAGNETIC Robots. This innovation promises to transform treatment for life-threatening vascular conditions like thrombosis.

Cardiovascular diseases such as thrombosis are a major global health challenge. Each year worldwide, 1 in 4 people die from conditions caused by blood clots. A blood clot blocks a blood vessel, preventing the blood from delivering oxygen to certain area of ​​the body.

Minimally invasive

Traditional treatments struggle with clots in hard-to-res. But Magnetic Micorobots Bring Hope to Patients with OtherWise inopervable Clots. The screenw-shaped robots can navigate through intricate vascular networks since they are operated wirelessly.

In a new study, Researchers Islam Khalil (University of Twenty) and Michiel WarLé (Radboudumc), Showcase the potential of these microbots for priorce and minimally invasive CLOT Removal. In their experiences, the microrobots removed enough material of a blood clot inside an Iliac artery to resume blood flow. The Iliac Artery, Obtained from Sheep, was chown due to its straight and accessible structure.

Their article, titled “Wireless Mechanical and Hybrid Thrombus Fragmentation of Ex Vivo Endovascular Thrombosis Model in the Iliac Artry,” is Published in the journey Applied physics reviews,

Three methods

The Research Highlights Three Methods for Removing Blood Clots: Mechanical Fragmentation, Chemical Dissolution, and a Combination of Both. The combined approach is the most consistent and safest, as it breaks up clots and Dissolves the fragments.

“By Completely Dissolving Them, We Remove The Possibility of Them Traveling Downstream and Causing a New Blood Clot,” Explains Warlé.

With X-Ray Guidance, The Tiny Robot Accurately Targets Clots in Complex blood vessels.

“The cross-atlantic collaboration was incrededibly rewarding for my team. These robots are designed to swim and performance surgeries Deep Inseide The Body, but Researcres have been limited to using to using to using and video Cameras, Or Ultrasonic Probes With Limited Rang, “Says aaron becker, Researcher at the University of House.

“Real-time x-ray guidance of these tiny robots is an essential leap forward in this area. Dissolves them. “

The robots are 3D-printed and shaped like tiny screenws, Each controling a small permanent magnet.

“This tiny magnet, just one millimeter long and one millimeter in diameter, is positioned to rotate the ‘screenw’ in bot directions,” Explains Khalil. “This allows the robot to swim against the flow and then turn Around to Swim Back.” The screenw-like design allows them to drill through blood clots effectively.

In addition to breaking up blood clots and restoring blood flow in arteries, the technology has the potential for other targeted tretments.

“The robots can deliver drugs directly to Specific area in the body where they are needed Most,” EXPLAINS Khalil. “This Approach minimizes side effects in the rest of the body.”