Literature DB >> 19292656

Cerebral hemodynamic predictors of poor 6-month Glasgow Outcome Score in severe pediatric traumatic brain injury.

Onuma Chaiwat1, Deepak Sharma, Yuthana Udomphorn, William M Armstead, Monica S Vavilala.   

Abstract

Little is known regarding the cerebral autoregulation in pediatric traumatic brain injury (TBI). We examined the relationship between cerebral hemodynamic predictors, including cerebral autoregulation, and long-term outcome after severe pediatric TBI. After Institutional Review Board (IRB) approval, a retrospective analysis of prospectively collected data (May 2002 to October 2007) for children age < or =16 years with severe TBI (admission Glasgow Coma Scale [GCS] score <9) was performed. Cerebral autoregulation was assessed within 72 h after TBI. Cerebral hemodynamic predictors (intracranial pressure [ICP], systolic blood pressure [SBP], and cerebral perfusion pressure [CPP]) through the first 72 h after TBI were abstracted. Univariate and multivariate analyses examined the relationship between impaired cerebral autoregulation (autoregulatory index <0.4), intracranial hypertension (ICP >20 mm Hg), and hypotension (SBP <5th percentile and CPP <40 mm Hg). Six-month Glasgow Outcome Scale (GOS) score of <4 defined poor outcome. Ten (28%) of the 36 children examined (9.1 +/- 5.3 [0.8-16] years; 74% male) had poor outcome. Univariate factors associated with poor outcome were impaired cerebral autoregulation (p = 0.005), SBP <5(th) percentile for age and gender (p = 0.02), and low middle cerebral artery flow velocity (<2 SD for age and gender; p = 0.04). Independent risk factors for poor 6-month GOS were impaired cerebral autoregulation (adjusted odds ratio [aOR] 12.0; 95% confidence interval [CI] 1.4-99.4) and hypotension (SBP <5th percentile; aOR 8.8; 95% CI 1.1-70.5), respectively. Previous studies of TBI describing poor outcome with hemodynamics did not consider the status of cerebral autoregulation. In this study, both impaired cerebral autoregulation and SBP <5th percentile were independent risk factors for poor 6-month GOS.

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Year:  2009        PMID: 19292656      PMCID: PMC2857571          DOI: 10.1089/neu.2008.0770

Source DB:  PubMed          Journal:  J Neurotrauma        ISSN: 0897-7151            Impact factor:   5.269


  27 in total

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Authors:  J P Muizelaar; A Marmarou; A A DeSalles; J D Ward; R S Zimmerman; Z Li; S C Choi; H F Young
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3.  Early hypotension worsens neurological outcome in pediatric patients with moderately severe head trauma.

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4.  Cerebrovascular response in infants and young children following severe traumatic brain injury: a preliminary report.

Authors:  P D Adelson; B Clyde; P M Kochanek; S R Wisniewski; D W Marion; H Yonas
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5.  Effect of transient moderate hyperventilation on dynamic cerebral autoregulation after severe head injury.

Authors:  D W Newell; J P Weber; R Watson; R Aaslid; H R Winn
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Authors:  P M Sharples; D S Matthews; J A Eyre
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Authors:  F A Pigula; S L Wald; S R Shackford; D W Vane
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8.  Acute regional cerebral blood flow changes caused by severe head injuries.

Authors:  D W Marion; J Darby; H Yonas
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9.  Management and outcome of severe head injuries in the Trent region 1985-90.

Authors:  A C Elias-Jones; J A Punt; A E Turnbull; T Jaspan
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