Subarachnoid haemorrhage clinical and epidemiological studies
Sammanfattning: Background: Subarachnoid haemorrhage (SAH) is a severe stroke that in 85% of all cases is caused by the rupture of a cerebral aneurysm. The median age at onset is 50-55 years and the overall mortality is approximately 45%.Sufficient cortisol levels are important for survival. After SAH hypothalamic/pituitary blood flow may be hampered this could result in inadequate secretion of cortisol. SAH is also associated with a substantial inflammatory response. Asymmetric dimethyl arginine (ADMA), an endogenous inhibitor of nitric oxide synthase, mediates vasoconstriction and increased ADMA levels may be involved in inflammation and endothelial dysfunction. Continuous electroencephalogram (EEG) monitoring can be used to detect non-convulsive seizures, leading to ischemic insults in sedated SAH patients. Elevated ADMA levels are risk factors for vascular diseases. Vascular disease has been linked to stress, inflammation and endothelial dysfunction. SAH possesses all those clinical features and theoretically SAH could thus induce vascular disease.Aims: 1. Assess cortisol levels after SAH, and evaluate associations between cortisol and clinical parameters. 2. Assess ADMA levels and arginine/ADMA ratios after SAH and evaluate associations between ADMA levels and arginine/ADMA ratios with severity of disease, co-morbidities, sex, age and clinical parameters. 3. Investigate occurrence of subclinical seizures in sedated SAH patients. 4. Evaluate if patients that survive a SAH ? one year have an increased risk of vascular causes of death compared to a normal population.Results: Continuous infusion of sedative drugs was the strongest predictor for a low (<200 nmol/L) serum cortisol. The odds ratio for a sedated patient to have a serum cortisol < 200 nmol/L was 18.0 times higher compared to an un-sedated patient (p < 0.001). Compared to admission values, 0-48 hours after SAH, CRP increased significantly already in the time-interval 49-72 hours (p<0.05), peaked in the time-interval 97-120 hours after SAH and thereafter decreased. ADMA started to increase in the time-interval 97-120 hours (p<0.05). ADMA and CRP levels were significantly higher, and arginine/ADMA ratios were significantly lower in patients with a more severe condition (p<0.05). Epileptic seizure activity, in sedated SAH patients, was recorded in 2/28 (7.1%) patients during 5/5468 (0.09%) hours of continuous EEG monitoring. Cerebrovascular disease was significantly more common as a cause of death in patients that had survived a SAH ? one year, compared to the population from the same area (p<0.0001).Conclusions: Continuous infusion of sedative drugs was associated with low (<200 nmol/L) cortisol levels. ADMA increased significantly after SAH, after CRP had peaked, indicating that endothelial dysfunction, with ADMA as a marker, is induced by a systemic inflammation. Patients with a more severe condition had significantly higher ADMA and CRP levels, and significantly lower arginine/ADMA ratio. Continuous sedation in sedated SAH patients seems to be beneficial in protecting from subclinical seizures. Cerebrovascular causes of death are more common in SAH survivors.
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