Pathophysiology, blood biomarkers, and functional deficits after intimate partner violence-related brain injury: Insights from emergency department patients and a new rat model
Mujun Sun, Georgia F. Symons, Gershon Spitz, William T. O’Brien, Tamara L. Baker, Jianjia Fan, Beatriz Martins, Josh Allen, Lauren P. Giesler, Richelle Mychasiuk, Paul van Donkelaar, Justin Brand, Brian R. Christie, Terence J. O’Brien, Michael O’Sullivan, Biswadev Mitra, Cheryl L. Wellington, Stuart J. McDonald, Sandy R. Shultz
Abstract
• Brain injury in intimate partner violence (IPV) involves concussion and/or strangulation. • Acute IPV patients with concussion had worse brain injury biomarkers and symptoms. • We also developed the first rat model of strangulation. • Strangulation modified concussion pathophysiology, biomarkers, and deficits in rats. • These results provide novel insights into a common but understudied problem. Intimate partner violence is a serious, but underappreciated, issue that predominantly affects women and often results in concussion (i.e., mild traumatic brain injury). However, concussion in intimate partner violence is unique because it often involves a concomitant strangulation which may exacerbate or alter the physiology and clinical presentation of the brain injury. Therefore, here we conducted human and rodent studies to provide insight into knowledge gaps related to the detection, pathophysiology, and functional consequences of intimate partner violence-related brain injury. We conducted the first study to analyze blood biomarkers and symptoms of brain injury in intimate partner violence patients presenting to an emergency department within 72 h of concussion. Intimate partner violence concussion patients, some of whom had also experienced a concomitant strangulation, had elevated serum neurofilament light and worse brain injury symptoms compared to healthy control, orthopedic trauma, and non-intimate partner violence concussion groups. We also developed the first rat model of non-fatal strangulation and examined the consequences of strangulation and concussion in isolation and in combination on pathophysiology, blood biomarkers, and behavior at 2 h and 1wk post-injury. Rats exposed to combined strangulation and concussion had exacerbated motor and cognitive deficits, neuroinflammation, and serum glial fibrillary acidic protein levels compared with either injury in isolation. Taken together, these rodent findings demonstrate that a concomitant strangulation modifies and exacerbates concussion pathophysiology, biomarkers, and functional consequences. Overall, these findings provide novel insights into intimate partner violence-related brain injury and provides a foundation for future translational studies.