Validation of a Laser-Induced Shockwave Model for In Vitro Study of Reactive Astrogliosis

Validation of a Laser-Induced Shockwave Model for In Vitro Study of Reactive Astrogliosis

<p dir="ltr">This study validates a laser-induced shockwave (LIS) system as an in vitro model for investigating reactive astrogliosis—a cellular response to traumatic brain injury. Astrocytes and cortical neurons were exposed to LIS, and their morphological and protein expression cha...

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Bibliographic Details
Main Author:	Paisley Ruddy (22347486) (author)
Other Authors:	William Chang (242168) (author), Cayden Shi (22398078) (author), Jennie Jin (22398079) (author), Maria Tahk (22398080) (author), Ruoxi Chen (110319) (author), Huiying Huang (490768) (author), Chengbiao Wu (12863681) (author), Linda Z. Shi (19183704) (author), Veronica Gomez-Godinez (9307754) (author)
Published:	2025
Subjects:	Cell neurochemistry Reactive astrogliosis Laser-induced shockwave (LIS) GFAP-1 IBA-1 Cortical neurons Astrocytes Traumatic brain injury In vitro model ImageJ Feret diameter
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