4.4 Article

Intracerebral Iron Accumulation may be Associated with Secondary Brain Injury in Patients with Poor Grade Subarachnoid Hemorrhage

Journal

NEUROCRITICAL CARE
Volume 36, Issue 1, Pages 171-179

Publisher

HUMANA PRESS INC
DOI: 10.1007/s12028-021-01278-1

Keywords

Cerebral microdialysis; Subarachnoid hemorrhage; Iron; Multimodal neuromonitoring; Neurocritical care

Funding

  1. University of Innsbruck
  2. Medical University of Innsbruck

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This study found that iron accumulates in the cerebral white matter of patients with severe SAH, and iron levels may be associated with disease progression and neurologic metabolic abnormalities.
Background The amount of intracranial blood is a strong predictor of poor outcome after subarachnoid hemorrhage (SAH). Here, we aimed to measure iron concentrations in the cerebral white matter, using the cerebral microdialysis (CMD) technique, and to associate iron levels with the local metabolic profile, complications, and functional outcome. Methods For the observational cohort study, 36 patients with consecutive poor grade SAH (Hunt & Hess grade of 4 or 5, Glasgow Coma Scale Score <= 8) undergoing multimodal neuromonitoring were analyzed for brain metabolic changes, including CMD iron levels quantified by graphite furnace atomic absorption spectrometry. The study time encompassed 14 days after admission. Statistical analysis was performed using generalized estimating equations. Results Patients were admitted in a poor clinical grade (n = 26, 72%) or deteriorated within 24 h (n = 10, 28%). The median blood volume in the subarachnoid space was high (SAH sum score = 26, interquartile range 20-28). Initial CMD iron was 44 mu g/L (25-65 mu g/L), which significantly decreased to a level of 25 mu g/L (14-30 mu g/L) at day 4 and then constantly increased over the remaining neuromonitoring days (p < 0.01). A higher intraventricular hemorrhage sum score (>= 5) was associated with higher CMD iron levels (Wald-statistic = 4.1, df = 1, p = 0.04) but not with the hemorrhage load in the subarachnoid space (p = 0.8). In patients developing vasospasm, the CMD iron load was higher, compared with patients without vasospasm (Wald-statistic = 4.1, degree of freedom = 1, p = 0.04), which was not true for delayed cerebral infarction (p = 0.4). Higher iron concentrations in the brain extracellular fluid (34 mu g/L, 36-56 mu g/L vs. 23 mu g/L, 15-37 mu g/L) were associated with mitochondrial dysfunction (CMD lactate to pyruvate ratio > 30 and CMD-pyruvate > 70 mu M/L, p < 0.001). Brain extracellular iron load was not associated with functional outcome after 3 months (p > 0.5). Conclusions This study suggests that iron accumulates in the cerebral white matter in patients with poor grade SAH. These findings may support trials aiming to scavenger brain extracellular iron based on the hypothesis that iron-mediated neurotoxicity may contribute to acute and secondary brain injury following SAH.

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