Hemorrhagic transformation and cerebral edema in acute ischemic stroke: Link to cerebral autoregulation

Castro, Pedro; Azevedo, Elsa; Serrador, Jorge M.; Rocha, Isabel; Sorond, Farzaneh A.

doi:10.1016/j.jns.2016.11.065

Cited by 83 publications

(97 citation statements)

References 34 publications

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“…The hypothesized relationship between autoregulation, cerebral blood flow, and clinical outcome is summarized in Figure . This concurs with similar findings in ischemic stroke, where worsening CA is associated with adverse prognostic features, such as hemorrhagic transformation and cerebral edema …”

Section: Discussionsupporting

confidence: 92%

Cerebral autoregulation in hemorrhagic stroke: A systematic review and meta‐analysis of transcranial Doppler ultrasonography studies

Minhas

Panerai

Ghaly

et al. 2018

J of Clinical Ultrasound

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Purpose International guidelines advocate intensive blood pressure (BP) lowering within 6 hours of acute intracerebral hemorrhage (ICH) to a target systolic BP of 130‐140 mm Hg, though more intensive lowering may be associated with adverse outcome. Observational studies suggest impaired cerebral autoregulation (CA) following ICH. Transcranial Doppler ultrasonography (TCD), alongside continuous BP monitoring, provides a noninvasive bedside investigation that offers detailed perspectives on physiological perturbations post‐acute ICH. This systematic review and meta‐analysis focuses on all TCD studies of CA in ICH. Methods MEDLINE, EMBASE, and CENTRAL were searched for studies of hemorrhagic stroke and blood flow measurement. Results Eight studies met inclusion criteria (293 ICH patients); CA was impaired up to 12‐days post‐acute ICH. Impaired CA was evidenced by reduced transfer function analysis phase and higher mean flow correlation values: these were associated with worsened clinical parameters including ICH‐volume and Glasgow Coma Scale. Meta‐analysis of CBV demonstrated that, compared to controls, mean CBV was significantly lower in the ipsilateral (49.7 vs 64.8 cm s−1, Z = 4.26, P < .0001) and contralateral hemispheres following ICH (51.5 vs 64.8 cm s−1, Z = 3.44, P = .0006). Conclusion Lower mean CBV in combination with impaired CA may have implications for more intensive BP lowering and warrants further studies examining such strategies on cerebral blood flow and its regulatory mechanisms.

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Section: Discussionsupporting

confidence: 92%

Cerebral autoregulation in hemorrhagic stroke: A systematic review and meta‐analysis of transcranial Doppler ultrasonography studies

Minhas

Panerai

Ghaly

et al. 2018

J of Clinical Ultrasound

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“…25,30,33,50 Eleven studies presented the modified Rankin Scale (mRS). 13, 24, 27, 29, 32, 35-38, 43, 46 Moreover, the majority of participants were recruited within 6 to 72 hours from stroke onset, 2, 12, 13, 24-27, 29, 34-40, 42, 43, 45-47, 49, 51 including within 48 hours (n = 8), 2, 25, 34-36, 39, 47, 49 five studies assessed dCA at 72 hours, 24,29,40,45,51 twenty-four hours were studied in four studies, 37,42,43,46 three studies examined dCA between 30 to 37 hours, 12,13,38 dCA was assessed at 6 hours (n = 2), 26,27 one study assessed between onset to 16 days, 52 other three studies recruited participants after first week of stroke onset 32,33,48 and one study examined recovery at 6 months. 49 The location of the lesion was identified in the MCA (n = 13), 23, 26-28, 33-37, 40, 41, 49, 51 posterior cerebral artery (n = 3), 31,32,49 and anterior cerebral artery territories (n = 3), 2, 25, 52 though eight studies did not specify the precise localization of the lesion.…”

Section: Participant Characteristicsmentioning

confidence: 99%

Assessment of cerebral autoregulation in stroke: A systematic review and meta-analysis of studies at rest

Intharakham

Beishon

Panerai

et al. 2019

J Cereb Blood Flow Metab

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Dynamic cerebral autoregulation (dCA) has been shown to be impaired in cerebrovascular diseases, but there is a lack of consistency across different studies and the different metrics that have been proposed for assessment. We performed a systematic review and meta-analyses involving assessment of dCA in ischemic and hemorrhagic stroke. Thirty-three articles describing assessment of dCA with transfer function analysis (TFA) were included, with meta-analyses performed for derived parameters of gain, phase and autoregulation index (ARI). A total of 1233 patients were pooled from 12 studies on acute ischemic stroke (AIS) and two studies on intracerebral hemorrhage (ICH). In comparison with controls, TFA phase of AIS was significantly reduced (nine studies), in both hemispheres ( P < 0.0001). TFA gain provided inconsistent results, with reduced values in relation to controls, for both hemispheres. The ARI (six studies) was reduced compared to controls, in both hemispheres ( P < 0.005). In ICH, gain showed higher values compared to controls for the unaffected ( P = 0.01), but not for the affected hemisphere. Meta-analyses in AIS have demonstrated that phase and the ARI index can show highly significant differences in comparison with healthy controls, while ICH have been limited by the scarcity of studies and the diversity of units adopted for gain.

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“…For example, ICH in the cerebellum was associated with ataxia whereas ICH in basal ganglia structures were associated with limb weakness. In previous studies, early neurologic deterioration was attributed primarily to cerebral edema and lesion volume; however, recent clinical pathological, MR, and CT studies suggest hemorrhage into ischemic tissues is a major contributor to poor clinical outcome, making ICH a novel target of pre-clinical studies (126–129). By replicating both tissue-level and neurological presentations unique to ICH, our model presents an exciting new platform for testing hemostatic therapies and surgical interventions.…”

Section: Discussionmentioning

confidence: 99%

Acute characterization of tissue and functional deficits in a clinically translatable pig model of ischemic stroke

Kaiser

Waters

Fagan

et al. 2019

Preprint

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35The acute stroke phase is a critical time frame used to evaluate stroke severity, therapeutic 36 options, and prognosis while also serving as a major target for the development of diagnostics. To 37 better understand stroke pathophysiology and to enhance the development of treatments, our group 38 developed a translational pig ischemic stroke model. In this study, the evolution of acute ischemic 39 stroke tissue damage, immune response, and functional deficits were further characterized in the 40 pig model. Stroke was induced by middle cerebral artery occlusion in Landrace pigs. At 24 hours 41 post-stroke, magnetic resonance imaging revealed a decrease in ipsilateral diffusivity and an 42 increase in hemispheric swelling and intracranial hemorrhage resulting in notable midline shift. 43 Stroke negatively impacted white matter integrity leading to decreased fractional anisotropy. 44 Similar to acute clinical patients, stroked pigs showed a reduction in circulating lymphocytes and 45 a surge in neutrophils and band cells. Functional responses corresponded with structural changes 46 with reduced exploration in open field testing and impairments in spatiotemporal gait parameters. 47 This novel, acute ischemia characterization provides important insights into tissue and functional 48 level changes in a pig model that can be used to identify treatment targets and future testing of 49 therapeutics and diagnostics. 50 51 Keywords: brain ischemia, gait analysis, magnetic resonance imaging, porcine, acute stroke 52 53 54 3 3 55

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Hemorrhagic transformation and cerebral edema in acute ischemic stroke: Link to cerebral autoregulation

Cited by 83 publications

References 34 publications

Cerebral autoregulation in hemorrhagic stroke: A systematic review and meta‐analysis of transcranial Doppler ultrasonography studies

Cerebral autoregulation in hemorrhagic stroke: A systematic review and meta‐analysis of transcranial Doppler ultrasonography studies

Assessment of cerebral autoregulation in stroke: A systematic review and meta-analysis of studies at rest

Acute characterization of tissue and functional deficits in a clinically translatable pig model of ischemic stroke

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