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Browsing by Author "O'Neil, Brian"
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Item Brain dynamics reflecting an intra-network brain state is associated with increased posttraumatic stress symptoms in the early aftermath of trauma(Research Square, 2024-03-08) Sendi, Mohammad; Fu, Zening; Harnett, Nathaniel; van Rooij, Sanne; Vergara, Victor; Pizzagalli, Diego; Daskalakis, Nikolaos; House, Stacey; Beaudoin, Francesca; An, Xinming; Neylan, Thomas; Clifford, Gari; Jovanovic, Tanja; Linnstaedt, Sarah; Germine, Laura; Bollen, Kenneth; Rauch, Scott; Haran, John; Storrow, Alan; Lewandowski, Christopher; Musey, Paul, Jr.; Hendry, Phyllis; Sheikh, Sophia; Jones, Christopher; Punches, Brittany; Swor, Robert; Gentile, Nina; Murty, Vishnu; Hudak, Lauren; Pascual, Jose; Seamon, Mark; Harris, Erica; Chang, Anna; Pearson, Claire; Peak, David; Merchant, Roland; Domeier, Robert; Rathlev, Niels; O'Neil, Brian; Sergot, Paulina; Sanchez, Leon; Bruce, Steven; Sheridan, John; Harte, Steven; Kessler, Ronald; Koenen, Karestan; McLean, Samuel; Stevens, Jennifer; Calhoun, Vince; Ressler, Kerry; Emergency Medicine, School of MedicineThis study examines the association between brain dynamic functional network connectivity (dFNC) and current/future posttraumatic stress (PTS) symptom severity, and the impact of sex on this relationship. By analyzing 275 participants' dFNC data obtained ~2 weeks after trauma exposure, we noted that brain dynamics of an inter-network brain state link negatively with current (r=-0.179, pcorrected= 0.021) and future (r=-0.166, pcorrected= 0.029) PTS symptom severity. Also, dynamics of an intra-network brain state correlated with future symptom intensity (r = 0.192, pcorrected = 0.021). We additionally observed that the association between the network dynamics of the inter-network brain state with symptom severity is more pronounced in females (r=-0.244, pcorrected = 0.014). Our findings highlight a potential link between brain network dynamics in the aftermath of trauma with current and future PTSD outcomes, with a stronger protective effect of inter-network brain states against symptom severity in females, underscoring the importance of sex differences.Item Effects of the COVID-19 pandemic on out-of-hospital cardiac arrest care in Detroit(Elsevier, 2021) Mathew, Shobi; Harrison, Nicholas; Chalek, Adam D.; Gorelick, Damon; Brennan, Erin; Wise, Stefanie; Gandolfo, Lauren; O'Neil, Brian; Dunne, Robert; Emergency Medicine, School of MedicineIntroduction: In response to the COVID-19 pandemic in Detroit, an earlier termination of resuscitation protocol was initiated in March 2020. To characterize pre-hospital cardiac arrest careduring COVID-19 in Detroit, we analyzed out-of-hospital cardiac arrest (OHCA) rate of ROSC (return of spontaneous circulation) and patient characteristics before and during the COVID-19 pandemic. Methods: OHCA data was analyzed between March 10th, 2020 - April 30th, 2020 and March 10th, 2019 - April 30th, 2019. ROSC, patient demographics, arrest location, initial rhythms, bystander CPR and field termination were compared before and during the pandemic. Descriptive statistics were utilized to compare arrest characteristics between years, and the odds of achieving vs. not achieving ROSC. 2020 vs. 2019 as a predictor for ROSC was assessed with logistic regression. Results: 471 patients were included. Arrests increased to 291 during the pandemic vs. 180 in 2019 (62% increase). Age (mean difference + 6; 95% CI: +2.4 to +9.5), arrest location (nursing home OR = 2.42; 95% CI: 1.42-4.31; public place OR = 0.47; 95% CI: 0.25-0.88), BLS response (OR = 0.68; 95% CI: 0.47-0.99), and field termination of resuscitation (OR = 2.36; 95% CI: 1.36-4.07) differed significantly in 2020 compared to 2019. No significant difference was found in the confounder-adjusted odds of ROSC in 2020 vs 2019 (OR = 0.61; 95% CI: 0.34-1.11). Conclusion: OHCA increased by 62% during COVID-19 in Detroit, without a significant change in prehospital ROSC. The rate of ROSC remained similar despite the implementation of an early termination of resuscitation protocol in response to COVID-19.Item Influence of Cooling duration on Efficacy in Cardiac Arrest Patients (ICECAP): study protocol for a multicenter, randomized, adaptive allocation clinical trial to identify the optimal duration of induced hypothermia for neuroprotection in comatose, adult survivors of after out-of-hospital cardiac arrest(Research Square, 2024-06-21) Meurer, William; Schmitzberger, Florian; Yeatts, Sharon; Ramakrishnan, Viswanathan; Abella, Benjamin; Aufderheide, Tom; Barsan, William; Benoit, Justin; Berry, Scott; Black, Joy; Bozeman, Nia; Broglio, Kristine; Brown, Jeremy; Brown, Kimberly; Carlozzi, Noelle; Caveney, Angela; Cho, Sung-Min; Chung-Esaki, Hangyul; Clevenger, Robert; Conwit, Robin; Cooper, Richelle; Crudo, Valentina; Daya, Mohamud; Harney, Deneil; Hsu, Cindy; Johnson, Nicholas J.; Khan, Imad; Khosla, Shaveta; Kline, Peyton; Kratz, Anna; Kudenchuk, Peter; Lewis, Roger J.; Madiyal, Chaitra; Meyer, Sara; Mosier, Jarrod; Mouammar, Marwan; Neth, Matthew; O'Neil, Brian; Paxton, James; Perez, Sofia; Perman, Sarah; Sozener, Cemal; Speers, Mickie; Spiteri, Aimee; Stevenson, Valerie; Sunthankar, Kavita; Tonna, Joseph; Youngquist, Scott; Geocadin, Romergryko; Silbergleit, Robert; Neurology, School of MedicineBackground: Cardiac arrest is a common and devastating emergency of both the heart and brain. More than 380,000 patients suffer out-of-hospital cardiac arrest annually in the United States. Induced cooling of comatose patients markedly improved neurological and functional outcomes in pivotal randomized clinical trials, but the optimal duration of therapeutic hypothermia has not yet been established. Methods: This study is a multi-center randomized, response-adaptive, duration (dose) finding, comparative effectiveness clinical trial with blinded outcome assessment. We investigate two populations of adult comatose survivors of cardiac arrest to ascertain the shortest duration of cooling that provides the maximum treatment effect. The design is based on a statistical model of response as defined by the primary endpoint, a weighted 90-day mRS (modified Rankin Scale, a measure of neurologic disability), across the treatment arms. Subjects will initially be equally randomized between 12, 24, and 48 hours of therapeutic cooling. After the first 200 subjects have been randomized, additional treatment arms between 12 and 48 hours will be opened and patients will be allocated, within each initial cardiac rhythm type (shockable or non-shockable), by response adaptive randomization. As the trial continues, shorter and longer duration arms may be opened. A maximum sample size of 1800 subjects is proposed. Secondary objectives are to characterize: the overall safety and adverse events associated with duration of cooling, the effect on neuropsychological outcomes, and the effect on patient reported quality of life measures. Discussion: In-vitro and in-vivo studies have shown the neuroprotective effects of therapeutic hypothermia for cardiac arrest. We hypothesize that longer durations of cooling may improve either the proportion of patients that attain a good neurological recovery or may result in better recovery among the proportion already categorized as having a good outcome. If the treatment effect of cooling is increasing across duration, for at least some set of durations, then this provides evidence of the efficacy of cooling itself versus normothermia, even in the absence of a normothermia control arm, confirming previous RCTs for OHCA survivors of shockable rhythms and provides the first prospective controlled evidence of efficacy in those without initial shockable rhythms.