INTRODUCTION: Sympathetic nervous system hyperactivity is common after subarachnoid hemorrhage (SAH). We sought to determine whether uncontrolled prolonged heart rate elevation is a risk factor for adverse cardiopulmonary events and poor outcome after SAH. METHODS: We prospectively studied 447 SAH patients between March 2006 and April 2012. Prior studies define prolonged elevated heart rate (PEHR) as heart rate >95 beats/min for >12 h. Major adverse cardiopulmonary events were documented according to the predefined criteria. Global outcome at 3 months was assessed with the modified Rankin Scale (mRS). RESULTS: 175 (39 %) patients experienced PEHR. Nonwhite race/ethnicity, admission Hunt-Hess grade ≥4, elevated APACHE-2 physiological subscore, and modified Fisher score were significant admission predictors of PEHR, whereas documented pre-hospital beta-blocker use was protective. After controlling for admission Hunt-Hess grade, Cox regression using time-lagged covariates revealed that PEHR onset in the previous 48 h was associated with an increased hazard for delayed cerebral ischemia, myocardial injury, and pulmonary edema. PEHR was associated with 3-month poor outcome (mRS 4-6) after controlling for known predictors. CONCLUSIONS: PEHR is associated with major adverse cardiopulmonary events and poor outcome after SAH. Further study is warranted to determine if early sympatholytic therapy targeted at sustained heart rate control can improve outcome after SAH.
INTRODUCTION: Sympathetic nervous system hyperactivity is common after subarachnoid hemorrhage (SAH). We sought to determine whether uncontrolled prolonged heart rate elevation is a risk factor for adverse cardiopulmonary events and poor outcome after SAH. METHODS: We prospectively studied 447 SAHpatients between March 2006 and April 2012. Prior studies define prolonged elevated heart rate (PEHR) as heart rate >95 beats/min for >12 h. Major adverse cardiopulmonary events were documented according to the predefined criteria. Global outcome at 3 months was assessed with the modified Rankin Scale (mRS). RESULTS: 175 (39 %) patients experienced PEHR. Nonwhite race/ethnicity, admission Hunt-Hess grade ≥4, elevated APACHE-2 physiological subscore, and modified Fisher score were significant admission predictors of PEHR, whereas documented pre-hospital beta-blocker use was protective. After controlling for admission Hunt-Hess grade, Cox regression using time-lagged covariates revealed that PEHR onset in the previous 48 h was associated with an increased hazard for delayed cerebral ischemia, myocardial injury, and pulmonary edema. PEHR was associated with 3-month poor outcome (mRS 4-6) after controlling for known predictors. CONCLUSIONS: PEHR is associated with major adverse cardiopulmonary events and poor outcome after SAH. Further study is warranted to determine if early sympatholytic therapy targeted at sustained heart rate control can improve outcome after SAH.
Authors: Stephan A Mayer; Pedro Kurtz; Allison Wyman; Gene Y Sung; Alan S Multz; Joseph Varon; Christopher B Granger; Kurt Kleinschmidt; Marc Lapointe; W Frank Peacock; Jason N Katz; Joel M Gore; Brian O'Neil; Frederick A Anderson Journal: Crit Care Med Date: 2011-10 Impact factor: 7.598
Authors: S A Mayer; M E Fink; S Homma; D Sherman; G LiMandri; L Lennihan; R A Solomon; L M Klebanoff; A Beckford; E C Raps Journal: Neurology Date: 1994-05 Impact factor: 9.910
Authors: G Landesberg; M H Luria; S Cotev; L A Eidelman; H Anner; M Mosseri; D Schechter; J Assaf; J Erel; Y Berlatzky Journal: Lancet Date: 1993-03-20 Impact factor: 79.321
Authors: Dennis J Rebergen; Sunil B Nagaraj; Eric S Rosenthal; Matt T Bianchi; Michel J A M van Putten; M Brandon Westover Journal: J Clin Monit Comput Date: 2017-02-16 Impact factor: 2.502
Authors: Sean N Neifert; Emily K Chapman; Michael L Martini; William H Shuman; Alexander J Schupper; Eric K Oermann; J Mocco; R Loch Macdonald Journal: Transl Stroke Res Date: 2020-10-19 Impact factor: 6.829