Abstract
BackgroundPatients with aneurysmal subarachnoid hemorrhage (aSAH) require close treatment in neuro intensive care units (NICUs). The treatments available to counteract secondary deterioration and delayed ischemic events remain restricted; moreover, available neuro-monitoring of comatose patients is undependable. In comatose patients, clinical signs are hidden, and timing interventions to prevent the evolution of a perfusion disorder in response to fixed ischemic brain damage remain a challenge for NICU teams. Consequently, comatose patients often suffer secondary brain infarctions. The outcomes for long-term intubated patients w/wo pupil dilatation are the worst, with only 10% surviving. We previously added two nitroxide (NO) donors to the standard treatment: continuous intravenous administration of Molsidomine in patients with mild-to-moderate aSAH and, if required as a supplement, intraventricular boluses of sodium nitroprusside (SNP) in high-risk patients to overcome the so-called NO-sink effect, which leads to vasospasm and perfusion disorders. NO boluses were guided by clinical status and promptly reversed recurrent episodes of delayed ischemic neurological deficit. In this study, we tried to translate this concept, the initiation of intraventricular NO application on top of continuous Molsidomine infusion, from awake to comatose patients who lack neurological–clinical monitoring but are primarily monitored using frequently applied transcranial Doppler (TCD).MethodsIn this observational, retrospective, nonrandomized feasibility study, 18 consecutive aSAH comatose/intubated patients (Hunt and Hess IV/V with/without pupil dilatation) whose poor clinical status precluded clinical monitoring received standard neuro-intensive care, frequent TCD monitoring, continuous intravenous Molsidomine plus intraventricular SNP boluses after TCD-confirmed macrospasm during the daytime and on a fixed nighttime schedule.ResultsVery likely associated with the application of SNP, which is a matter of further investigation, vasospasm-related TCD findings promptly and reliably reversed or substantially weakened (p < 0.0001) afterward. Delayed cerebral ischemia (DCI) occurred only during loose, low-dose or interrupted treatment (17% vs. an estimated 65% with secondary infarctions) in 17 responders. However, despite their worse initial condition, 29.4% of the responders survived (expected 10%) and four achieved Glasgow Outcome Scale Extended (GOSE) 8–6, modified Rankin Scale (mRS) 0–1 or National Institutes of Health Stroke Scale (NIHSS) 0–2.ConclusionsEven in comatose/intubated patients, TCD-guided dual-compartment administration of NO donors probably could reverse macrospasm and seems to be feasible. The number of DCI was much lower than expected in this specific subgroup, indicating that this treatment possibly provides a positive impact on outcomes. A randomized trial should verify or falsify our results.
Highlights
Following aneurysmal subarachnoid hemorrhage, oxygenated, high-pressure blood accumulates in the subarachnoid space [1] where it increases intracranial pressure (ICP) and evokes early brain injury (EBI) [2,3,4], ultra-early (< 6 h) vasospasm [5] and cortical and/or global cerebral ischemia [6, 7]
The number of delayed cerebral ischemia (DCI) was much lower than expected in this specific subgroup, indicating that this treatment possibly provides a positive impact on outcomes
In 16/17 patients who achieved 16 mg/h of Molsidomine, severe vasospasm was documented in 380 complete transcranial Doppler (TCD)
Summary
Following aneurysmal subarachnoid hemorrhage (aSAH), oxygenated, high-pressure blood accumulates in the subarachnoid space [1] where it increases intracranial pressure (ICP) and evokes early brain injury (EBI) [2,3,4], ultra-early (< 6 h) vasospasm [5] and cortical and/or global cerebral ischemia [6, 7]. The exact pathomechanisms of EBI, early and/or delayed vasospasm, delayed ischemic neurological deficit (DIND) followed by DCI and poor outcomes remain debated [6]. Methods: In this observational, retrospective, nonrandomized feasibility study, 18 consecutive aSAH comatose/intu‐ bated patients (Hunt and Hess IV/V with/without pupil dilatation) whose poor clinical status precluded clinical moni‐ toring received standard neuro-intensive care, frequent TCD monitoring, continuous intravenous Molsidomine plus intraventricular SNP boluses after TCD-confirmed macrospasm during the daytime and on a fixed nighttime schedule. Delayed cerebral ischemia (DCI) occurred only during loose, low-dose or interrupted treatment (17% vs an estimated 65% with sec‐ ondary infarctions) in 17 responders Despite their worse initial condition, 29.4% of the responders survived (expected 10%) and four achieved Glasgow Outcome Scale Extended (GOSE) 8–6, modified Rankin Scale (mRS) 0–1 or National Institutes of Health Stroke Scale (NIHSS) 0–2
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