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NCT06621329
The study titled \"Transnasal sphenopalatine ganglion block for treatment of acute subarachnoid hemorrhage associated headache\" is a randomized controlled pilot study aimed at evaluating the efficacy of a transnasal sphenopalatine ganglion (SPG) block in addition to standard pain medication for reducing headache severity in patients with acute subarachnoid hemorrhage (aSAH). The study also examines whether this intervention can reduce opioid requirements during hospitalization and upon discharge.
NCT06723717
Subarachnoid hemorrhage due to aneurysm rupture (SAH) results in high mortality, while survivors frequently suffer reduced quality of life and even loss of autonomy, particularly in the active population. A significant proportion of this morbidity and mortality is linked to the occurrence of delayed cerebral ischemia (DCI), defined as a new focal neurological deficit or reduced level of consciousness unrelated to the treatment of the aneurysm or a concomitant condition. DCI mainly occurs between days 4 and 14 after SAH, with an estimated incidence of 30%, and is significantly associated with an unfavorable functional prognosis at 3 months. Currently, the only treatment for post-SAH DCI is to prevent or reverse the onset of vasospasm, with limited efficacy, for example through nimodipine administration or hemodynamic optimization. However, according to existing data, vasospasm is not the only cause of DCI, as it may occur elsewhere than in the arterial territory affected by vasospasm, or even in the absence of any vasospasm at all. Recent reviews of the literature highlight the role of microvascular thrombo-inflammation in the pathophysiology of DCI. This phenomenon begins as soon as SAH occurs, with the appearance of multiple microvascular obstructions responsible for ischemia of downstream territories and loss of distal autoregulatory capacity. Among the effectors of thrombo-inflammation, the NETose phenomenon (production of NETs - Neutrophil Extracellular Traps or extracellular DNA network) has recently been associated with the onset of DCI. Indeed, the concentration of NETs increases in the cerebrospinal fluid (CSF) and blood of SAH patients, and correlates with the severity of the hemorrhage. Furthermore, intravenous or intraperitoneal administration of DNAse in an animal model of SAH has been shown to reduce NET concentration and improve functional prognosis by acting directly on cerebral perfusion through the reduction of micro-thrombosis. In humans, recombinant DNAse (dornase alfa, Pulmozyme®) has marketing authorization for inhaled administration in cystic fibrosis. The toxicology report accompanying the marketing authorization demonstrates the absence of serious side effects following administration of high IV doses of Pulmozyme® in monkeys and rats. Other studies evaluating IV administration of bovine DNAse at high doses report no complications. In 1999, a study was published evaluating intravenous (IV) Pulmozyme® in lupus patients, reporting no serious adverse events (SAEs) among the 14 patients receiving the treatment. We are currently conducting a clinical trial of the same molecule in IV administration in patients treated with mechanical thrombectomy and IV thrombolysis for ischemic stroke (NCT04785066). This study is the first randomized clinical trial to target NETs as effectors of the thrombo-inflammation responsible for post-HSA DCI.