Abstract
In recent decades, a large body of research has focused on the role of nitric oxide (NO) in the development of cerebral vasospasm (CV) following subarachnoid hemorrhage (SAH). Literature searches were therefore conducted regarding the role of NO in cerebral vasospasm, specifically focusing on NO donors, reactive nitrogen species, and peroxynitrite in manifestation of vasospasm. Based off the assessment of available evidence, two competing theories are reviewed regarding the role of NO in vasospasm. One school of thought describes a deficiency in NO due to scavenging by hemoglobin in the cisternal space, leading to an NO signaling deficit and vasospastic collapse. A second hypothesis focuses on the dysfunction of nitric oxide synthase, an enzyme that synthesizes NO, and subsequent generation of reactive nitrogen species. Both theories have strong experimental evidence behind them and hold promise for translation into clinical practice. Furthermore, NO donors show definitive promise for preventing vasospasm at the angiographic and clinical level. However, NO augmentation may also cause systemic hypotension and worsen vasospasm due to oxidative distress. Recent evidence indicates that targeting NOS dysfunction, for example, through erythropoietin or statin administration, also shows promise at preventing vasospasm and neurotoxicity. Ultimately, the role of NO in neurovascular disease is complex. Neither of these theories is mutually exclusive, and both should be considered for future research directions and treatment strategies.
Highlights
Subarachnoid hemorrhage (SAH) is a form of stroke that affects 28,000 individuals in North America each year [1]
Adenoviral mediated transfer of the eNOS gene has been attempted in preclinical models following injection of the viral inoculum into the CSF [95,96,97]. These experimental approaches suggest that the viral expression is limited to cerebral arteries and shows vasodilatory effects in SAH models [95,96,97]
Additional studies, involving ex vivo preparations of human cerebral blood vessels collected from patients undergoing temporal lobectomy, demonstrate that NOS gene transfer can transform human cerebral blood vessels [98]
Summary
Subarachnoid hemorrhage (SAH) is a form of stroke that affects 28,000 individuals in North America each year [1]. Clinical manifestations of vasospasm generally follow a characteristic progression, beginning with mental status changes, proceeding to motor and speech impairments, and culminating in permanent neurological damage or death [1]. One promising mechanism to prevent clinical vasospasm involves enhancement of nitric oxide (NO) signaling in the cerebral vasculature [10]. An improved understanding of NO can, provide insight into additional mechanisms underlying neurologic damage after SAH and direct future interventions. The objective of our review is to (1) assess the physiological role of NO in control of cerebral blood flow, (2) discuss the evidence supporting NO in the pathophysiology of SAH, at the level of vasospastic collapse and oxidative damage, and (3) report the experimental and clinical findings regarding interventions for SAH, ranging from enhancement of NO signaling directly to indirect stimulation of NO synthase.
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