Stanford researchers have created a groundbreaking tool called the “milli-spinner” that could save countless lives by transforming stroke treatment. This tiny device spins and compresses blood clots blocking brain arteries, allowing doctors to remove them far more effectively than current methods. Traditional thrombectomy uses a catheter to suck up or snare clots but often leaves dangerous fragments behind or breaks clots into smaller pieces that can cause further blockages. The milli-spinner works smarter by carefully cutting and compressing clots up to 95 percent before vacuuming them out. This dramatically reduces leftover fragments and improves the chances of fully restoring blood flow on the first attempt. For the toughest clots, success rates soared from just 11 percent with standard tools to a remarkable 90 percent using the milli-spinner. This breakthrough could be a game-changer for stroke patients, potentially reducing brain damage and long-term disability. Researchers believe this technology may also be adapted for other types of vascular blockages or even non-medical uses in the future. For now, it offers new hope to millions at risk of devastating strokes by helping doctors safely reopen clogged arteries before permanent harm occurs. #StrokeTreatment #MedicalInnovation #MilliSpinner #brainhealthtips

South Korean researchers at KAIST have unveiled a breakthrough approach that could transform cancer treatment—by turning colon cancer cells back into healthy ones. Leveraging digital twin technology, the team mapped a virtual gene network to identify “master regulator genes” responsible for the cancerous transformation. Unlike conventional treatments that aim to destroy cancer cells, this novel method reprograms them—restoring normal function rather than causing cell death. This technique not only holds potential for colon cancer but could also be applied to other cancer types, reducing the toxic side effects of chemotherapy and offering a universal, targeted strategy. It marks a major step toward treating cancer as a reversible condition rather than a terminal disease. #CancerBreakthrough #DigitalTwinMedicine #KAIST #KoreanScience #MedicalInnovation