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Cerebrovascular Circulation clinical trials

View clinical trials related to Cerebrovascular Circulation.

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NCT ID: NCT06446622 Recruiting - Clinical trials for Magnetic Resonance Imaging

Brain Blood Flow Responses During Exercise: Younger Cohort

Start date: April 18, 2023
Phase: N/A
Study type: Interventional

Brain blood flow will be measured during exercise using magnetic resonance imaging.

NCT ID: NCT06368635 Recruiting - Clinical trials for Coronary Artery Disease

The Cerebral Microcirculation Diseases and Coronary Microcirculation Disease Study

CCMD
Start date: January 1, 2024
Phase:
Study type: Observational

Ischaemic heart disease (IHD) and degenerative brain disease are two major sources of death and disability affecting all countries. While the consequences of obstructive disease in major vessels supplying blood to both organs have been widely documented, less attention has been paid to disease processes affecting the microcirculation that may affect cardiac and cerebral function. Yet, over the last decade significant progress has been made in understanding the substrate of microvascular disease in both organs. In the heart, arteriolar thickening and capillary rarefaction that reduce the conductance of the microvasculature and its ability to vasodilate in response to increased myocardial oxygen demands constitute the leading cause of coronary microvascular dysfunction (CMD). In the brain, concentric hyaline thickening of deep penetrating small arteries (arteriolosclerosis) with associated fibrosis of the vessel wall constitutes the most frequent substrate for cerebral small vessel disease (CSVD). Of note, both CMD and CSVD share common risk factors, such as age, hypertension, and diabetes.3 These factors might have a common effect on the microvascular domain of cardiac and cerebral vascular beds. Although a potential link between both conditions has been hypothesized based on the similarities between pathological changes and risk factors, advance in knowledge exploring this has been hampered by lacking objective evidence of CMD and pathological brain changes indicative of CSVD in prior research studies. Thus, the relationship between CMD and CSVD is unknown. The main objective of this study was to analyse the relationship between cerebrovascular disease and CMD in patients with atherosclerotic coronary artery disease (CAD).

NCT ID: NCT05920759 Recruiting - Clinical trials for Cerebrovascular Circulation

Sex-specific Effect of Restricted Sleep on Brain Health

Start date: October 1, 2023
Phase: N/A
Study type: Interventional

The goal of this clinical trial is to compare the impact of restricted sleep on brain blood health in healthy men and women. The main question[s] it aims to answer are: - Whether morning cerebral blood flow velocity is greater following a night of normal sleep compared to restricted sleep - Whether the effect of sleep restriction on cerebral blood flow will be greater in males compared to females Participants will complete one 1-hour screening visit and two 2.5-hour study visits. Study visits will be conducted on two separate days.

NCT ID: NCT05893407 Recruiting - Ischemic Stroke Clinical Trials

Brain PERfusion Evaluation by Contrast-Enhanced UltraSound

PerCEUS
Start date: July 21, 2023
Phase:
Study type: Observational

The objective of the study is to assess brain tissue perfusion by contrast-enhanced ultrasound perfusion imaging (PerCEUS) in acute brain injuries. More precisely, it aims : - to evaluate the heterogeneity of brain perfusion and thus diagnose brain tissue hypoperfusion with contrast-enhanced ultrasound. - to correlate contrast-enhanced ultrasound with perfusion measurements by usual multimodal monitoring.

NCT ID: NCT05864950 Recruiting - Clinical trials for Magnetic Resonance Imaging

Brain Blood Flow Responses During Exercise

Start date: March 6, 2024
Phase: N/A
Study type: Interventional

Brain blood flow will be measured during exercise using magnetic resonance imaging.

NCT ID: NCT05394935 Recruiting - Exercise Clinical Trials

The Effects of High-intensity and Moderate-intensity Exercise on Polycystic Ovary Syndrome

Start date: January 1, 2020
Phase: N/A
Study type: Interventional

This study will investigate the impact of high- and moderate-intensity exercise on the cardiometabolic and brain health of women with Polycystic Ovary syndrome (PCOS). The aim is to measure and compare normal, healthy women without PCOS, to those with the condition. All participants will undergo a blood test. The investigators will then assess the participants cardiovascular fitness by means of a maximal exercise test and measure body composition through height, weight, and hip-to-waist ratio. Participants will undergo an MRI, where the investigators will assess the participants brain structure and how the brain responds to a number of tests. The investigators will also conduct some tests that will assess the participants cognition, such as IQ, memory etc. The investigators will measure the blood vessels leading to the brain and the blood flow through them to measure how much blood the brain receives when rested, using ultrasound. The investigators will use a number of tests to look at brain function, measure the responses to these tests, and compare them between the normal, healthy women and those with PCOS. This will show if women with PCOS have a similar brain function when rested and when their brains are tested to those without the condition. The investigators will use exercise as an intervention, where the aim will be to investigate whether women with PCOS respond similarly to those without the condition to both high-intensity and moderate-intensity exercise. The tests of brain function will be repeated following the exercise, and see if both normal, healthy women and those with PCOS have a similar response to the brain function tests. All tests and measures will be compared between the PCOS group, and the healthy control group to establish any potential differences or similarities as a result of the condition.

NCT ID: NCT05051397 Recruiting - Anesthesia, General Clinical Trials

CO2 Modulation in Endovascular Thrombectomy for Acute Ischemic Stroke

COMET-AIS
Start date: July 20, 2022
Phase: Phase 2
Study type: Interventional

Acute ischemic stroke due to large vessel occlusion is responsible of cerebral blood flow impairment with a progressive and extensive ischemic process. Cerebral collateral circulation may preserve an ischemic penumbra that could recover providing timely reperfusion of the occluded vessel. Mechanical thrombectomy is the standard of care for anterior circulation large vessel reperfusion. Strategy to promote cerebral blood flow in collateral circulation before reperfusion is scarce and rely mainly on blood pressure maintenance. Carbon dioxide is a potent cerebral vasodilator that could enhance collateral circulation blood flow and cerebral protection before reperfusion. General anesthesia with endotracheal mechanical ventilation could be used for thrombectomy and give the opportunity to modulate and control carbon dioxide tension in the blood. This study will test the effect of moderate hypercapnia on penumbral collateral circulation before reperfusion during mechanical thrombectomy for anterior circulation acute ischemic stroke under general anesthesia.

NCT ID: NCT04391465 Recruiting - Clinical trials for Cerebrovascular Circulation

Assessment of the Relationship Between Cerebral Blood Flow and Heart Rate

Start date: August 11, 2021
Phase: N/A
Study type: Interventional

The investigators will seek to determine the relationship between heart rate and middle cerebral artery (MCA) cerebral blood flow (CBF), as well as better understand the hemodynamic determinants of MCA CBF velocity. In order to manipulate heart rate, the investigators will recruit patients already scheduled for clinically indicated elective electrophysiological studies, where temporary pacing catheters placed in the right atrium can be used to artificially pace the heart at controlled rates. MCA CBF will be measured by transcranial Doppler ultrasound.

NCT ID: NCT03591523 Recruiting - Clinical trials for Cerebrovascular Circulation

Blood Flow Measurement Using Quantitative Magnetic Resonance Angiography and Duplex Sonography

Start date: August 6, 2018
Phase:
Study type: Observational

The aim of the study is to assess the correlation of blood flow measurement in cervical and intracranial arteries between quantitative magnetic resonance angiography (qMRA) and duplex sonography (DS) and inter-/intra-investigators reliability of both methods in common clinical practice. A total of 21 subjects indicated to qMRA or DS for suspicion of cervical or intracranial vascular pathology will be included. All patients will undergo qMRA and DS of the cervical and intracranial arteries with measurement of blood flow in bilateral common carotid artery (CCA), internal carotid artery in proximal part distally to carotid bulb (ICA) and in distal carotid siphon (ICA-siphon), external carotid artery (ECA), vertebral artery in V2 (V2-VA) and V4 (V4-VA) segments, middle cerebral artery (MCA), anterior cerebral artery in pre-communicant (ACA1) and post-communicant (ACA2) part, posterior cerebral artery in pre-communicant (PCA1) and post-communicant (PCA2) part and basilar artery (BA) the cerebral artery. Correlations between measurements will be evaluated using Spearman's correlation coefficient or kappa coefficient and inter-class correlation coefficient (ICC).

NCT ID: NCT03512613 Recruiting - Clinical trials for Congenital Heart Defect

A Pilot Study- Monitoring Cerebral Blood Flow in Neonates With Congenital Heart Defects

Start date: May 29, 2018
Phase:
Study type: Observational

Congenital heart defects have an incidence of 9/1000 live births. Infants with congenital heart defects such as Transposition of Great Arteries / Hypoplastic Left Heart are at risk for brain injury because of concomitant brain malformations. Previous studies of cerebral MRI in infants with congenital heart defects showed that in 20-40% of cases there was preoperative brain injury and post operative with the same incidence. These findings are strongly associated with early and long-term neurodevelopmental injury. There is a necessity for a non invasive device who will monitor the cerebral blood flow during the hospitalization prior and post the cardiac defect repair surgery. The previous modal of the study device has been cleared for marketing by the FDA (k150268). The main goal of this study is to demonstrate that the new design of Ornim's c-FLOW 3310-P is easy to operate and effective in monitoring changes in cerebral blood flow in neonates as demonstrated in adults.