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NCT06303349
The objective is to create a dynamic clinical prediction model that includes routinely measured care and biological biomarkers to predict cerebral vasospasm within 14 days of bleeding in patients treated in the neurosurgical intensive care unit for subarachnoid hemorrhage. Patients admitted to intensive care will be followed for up to 14 days (D14 time horizon of interest), or until discharge from intensive care if earlier. Blood samples will be taken from D1 to D10 to isolate the blood biomarkers of interest for each patient. The measurement of biomarkers and cerebral vasospasm will be blinded to each other.
NCT02389634
The purpose of the study is to identify novel genetic and protein markers for the process of cerebral vasospasm following aneurysmal subarachnoid hemorrhage.
NCT04691271
At present, cerebral vasospasm (cVS) is the main cause of delayed cerebral infarction (DCI), which leads to high disability and mortality rate after aneurysmal subarachnoid hemorrhage. As a consequence, the key of reducing DCI is to prevent cVS. But unfortunately, despite years of efforts, the prevention and treatment of cVS is still a major clinical dilemma and various ways of treatment are still being explored. Recent studies have shown that stellate ganglion block (SGB) can dilate cerebral vessels and alleviate the impact of existing cVS. However, there is no study to evaluate the effect of early application of SGB on the improvement and prevention of cVS after aSAH.
NCT04208477
Blood flow through the brain is reduced after brain damage. Secondary brain ischemia caused by hypoxia and hypotension, further increase the susceptibility of the ischemically compromised brain to secondary impairment during this period. In order to determine whether and to what extent blockage of the stellate ganglion (BSG) affects the blood flow to the injured brain, the investigators will measure the variables of brain blood flow before and after BSG using computed tomography angiography (CTA), trans-cranial Doppler ultrasound (TCD), intracranial pressure (ICP) and perfusion computed tomography (PCT) of the brain. At the same time, the investigators would like to evaluate whether and to what extent BSG affects the aseptic inflammatory brain injury response and the biochemical indicators of brain damage in patients with moderate and severe brain injury.
NCT03611790
The objective of the study is to assess the safety and probable benefit of the Neva VS device in patients presenting with symptomatic cerebral vasospasm despite maximal medical management following aSAH.
NCT04613960
A randomized clinical trial investigating magnesium sulphate ability to reduce risk of cerebral vasospasm after acute subarachnoid hemorrhage hence improving outcome particularly in haptoglobin 2-2 patients who are highly susceptible for severe complications after subarachnoid hemorrhage.
NCT03517670
The aim of this study is to evaluate the tolerance of intravenous milrinone combined to the current standard treatment for cerebral vasospasm following subarachnoid hemorrhage. Assessment of IV milrinone safety in this setting is mandatory before the conduction of a large study assessing its effectiveness.
NCT04512859
To investigate whether the stellate ganglion block is helpful in relieving cerebral vasospasm during aneurysmal coil embolism surgery. The effect was assessed by Transcranial Doppler (TCD).
NCT01158508
Rupture of brain aneurysms is a common cause of death and disability, accounting for as many as 10% of stroke cases in the United States. While much of the resulting injury to the nervous system is caused by the initial bleeding from the aneurysm, many of these patients develop cerebral vasospasm, pathological constriction of the blood vessels supplying the brain, several days following hemorrhage. As many as a third of patients can suffer a resulting neurological deficit and stroke, presumably caused by the decreased blood flow to the brain (ischemia). This delayed brain injury accounts for a significant percentage of poor outcomes following aneurysm rupture. Studies have shown that remote ischemia to many organs can precondition other tissues (including the brain) to be more tolerant to decreases in blood flow. This "remote ischemic preconditioning" has the promise of protecting the brain from ischemic injury. Whereas in other forms of stroke the onset of ischemia cannot be predicted in the general population, following aneurysm rupture the investigators know which patients are likely to develop vasospasm and when. Therefore, ischemic preconditioning following aneurysm rupture may help prevent some of the ischemic injury caused by vasospasm. Remote ischemic preconditioning by transient limb ischemia (produced by inflation of a blood pressure cuff on the arm or leg) has been shown to minimize injury to other organs, most notably the heart. Remote ischemic preconditioning of the brain following aneurysm rupture has not yet been investigated.
NCT02775318
The present study has been designed to assess the efficacy and safety of Stellate Ganglion Block (SGB) in relieving symptomatic cerebral vasospasm following aneurysmal clipping. The effect was assessed by both Digital Subtraction Angiography(DSA) and Transcranial Doppler (TCD).
NCT01343537
Aneurysmal subarachnoid hemorrhage (bleeding on the brain due to a ruptured aneurysm) is a serious condition with a high morbidity (incidence of having ill health) and mortality (death). There are approximately 11 cases per 100,000 in the population per year, and approximately 40% of these cases are fatal. (Ingall) Among the fortunate subjects who survive the initial bleed, vasospasm and subsequent stroke are a major cause of morbidity. Vasospasm is defined as a prolonged severe, although reversible cause of arterial narrowing that occurs after bleeding into the subarachnoid space, most commonly after aneurysmal rupture. (Youman) The reduced arterial diameter inhibits blood flow and deprives the brain of oxygen, which often results in a stroke. Vasospasm is a major problem when treating subjects with aneurysmal subarachnoid hemorrhage. For these reasons, it is essential to diagnose cerebral vasospasm early, before permanent deficits develop. There may be another option to solve this dilemma. The field of neuro-monitoring (neurological monitoring) has the technology available to continuously monitor brain activity of these sedated ICU subjects. This may allow for early diagnosis and possibly identify changes in neurologic function before they become symptomatic. In the past, neuro-monitoring was primarily used in the operating room to monitor neurologic function during surgery in and around the spinal cord. Surgery to the spine or spinal cord also carries its own form of risk, either from mechanical trauma to the spinal cord or its nerve roots, or from interruption of the blood supply to these structures. Should damage to nerve fibers occur, the end result could be paralysis, loss of sensation, and onset of severe burning (i.e. neuropathic) pain. The field of intraoperative neuro-monitoring (IOM) was developed to address these risks during spine surgery, whereby nerves rostral (toward the head) or caudal (toward the feet) to the site of surgery are stimulated (usually via electrical pulses) and signals are recorded from the side opposite to the site of stimulation. Thus, the signals carried by nerve fibers are forced to pass through the region at risk from the surgery. In the event that changes in nerve responses are seen, the surgical team is notified, and they can change what they're doing to try and restore signals, thereby preserving function in the nerve fibers. This same technology has been used in the neurosurgical ICU to monitor subjects with severe brain injury from trauma, stroke, intracranial hemorrhage and subarachnoid hemorrhage. Using continuous electroencephalogram (EEG) monitoring combined with somatosensory evoked potentials (SSEPs) (a type of neuro monitoring) has been used to determine prognosis, identify subjects in subclinical status epilepticus (state of brain being in a constant seizure), predict elevations in the intracranial pressure Increased pressure within the skull), and diagnose cerebral hypoxia (not enough oxygen in the brain) (Amantini)
NCT00582868
The purpose of this study is to investigate if brain oxygen levels, levels of a specific protein in the cerebrospinal fluid and blood (Cleaved-tau protein), and brain blood flow can predict spasm of brain blood vessels after bleeding in the brain from a ruptured aneurysm.
NCT01091870
A Randomized Clinical Trial with security and dose testing of Sildenafil Citrate in patients with subarachnoid hemorrhage due to a rupture of a cerebral aneurism for prevention of cerebral vasospasm. The cerebral vasospasm is a decrease in blood flow that occurs when the intracranial vessels lose their capability of self-control of dilations and contractions. Patients with subarachnoid hemorrhage without neurological deficits who underwent endovascular or surgical correction of the aneurysm can participate in this trial. They will be randomized to a daily doses of 75 mg of Sildenafil, 150 mg of Sildenafil or Placebo from the third to the 14th day post bleeding. Today there is no proven clinical treatment for prevention of cerebral vasospasm.
NCT02129413
The purpose of this study is to evaluate the safety and performance of the Delta system in the treatment of cerebral vasospasm post aneurysmal subarachnoid hemorrhage (aSAH) patients.
NCT00692744
In all the Western populations, the annual incidence of subarachnoid hemorrhage (SAH) increase with age. In patients older than 70 years, the occurrence of SAH exposes them to high risk of morbidity and a poor quality of life. In this age bracket, the single randomized which compared endovascular coiling to microsurgical clipping (ISAT Study) showed that the relative risk of morbidity increased after coiling. Moreover, some prospectives studies about endovascular coiling described favorable outcome in 48% to 63% of patients, complete occlusion in 51% to 69% and a procedural complication rate in 13% to 19%. From prospectives series, the proportion of favorable outcome after microsurgical clipping was estimated around 66% but the procedural complications are few reported. The outcome for patients treated conservatively was catastrophic. Lastly, the hydrocephalus in this age class is common, occurring in 55% of patients. The study hypothesis is that, in this age class, no difference exists between the 2 obliteration procedures. An accurate evaluation of result in term of functional disability, quality of life and prognosis predictive factors seems a judicious question.