Recent advancements in stroke treatment face ongoing challenges, particularly regarding the urgency of care, as untreated strokes can lead to severe brain damage. Most strokes are ischemic, caused by blood clots obstructing oxygen flow to the brain. A new device, the milli-spinner from Stanford University, shows promise in efficiently decreasing the size of blood clots, facilitating their quick removal. This innovation could change stroke management by enhancing efficacy during mechanical thrombectomy procedures, as confirmed by lab tests. Experts like Greg Albers recognize its potential to transform patient outcomes.
The milli-spinner is a new technology from Stanford University that efficiently reduces and removes blood clots, addressing a critical need in stroke care.
"This has the potential to be a game changer," says Greg Albers, highlighting the significant impact of the milli-spinner on stroke treatment and patient outcomes.
Renee Zhao, the engineer behind the milli-spinner, designed it to compact and shrink blood clots, enabling faster mechanical removal.
Existing thrombectomy methods struggle with the size of clots, but the milli-spinner consistently reduces them, showcasing a promising breakthrough in stroke interventions.
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