View clinical trials related to Cerebral Small Vessel Diseases.
Filter by:Cerebral small vessel disease (CSVD) is a major cause of cognitive impairment and disability in the general population, secondary to the accumulation of asymptomatic elementary lesions. CSVD is directly correlated with age and cardiovascular risk factors and therefore would be challenging in term of public health care in the future. While HIV patients share the same cardiovascular risk factors and they are often diagnosed with cognitive impairment and frailty, CSVD has not been yet described in this population. The global aim is to study and describe the CSVD in the HIV+ population by: (1) correlating the CSVD and the macro-vascular disease of the head and brain; (2) correlating the CSVD with the ocular (structural sentinel organ) and kidney (functional sentinel organ) micro-vascular disease. HIV+/CSVD+ patients will have a complementary work-up with conventional MRI/MRA, thorough vascular explorations, and neurologic examination to evaluate the severity of the CSVD, the macro-vascular disease and the cerebral atrophy. They will have a full ophthalmic examination and specific kidney explorations to evaluate the micro-vascular disease of this two sentinel organs. The same number of HIV+/CSVD- matched patients will have the same work-up. We are expecting to show the relationship between CSVD and cardiovascular risk factors in order to propose specific prevention. We will correlate the CSVD with the neurologic and cognitive function as it is already proved in the general population. We will correlate the CSVD with the ocular and kidney micro-vascular disease to propose fast, easy and cheap screening tools for the CSVD in the HIV+ population.
Previous studies in animals and humans has shown that brief periods of reduced blood flow to one organ or tissue in the body can help protect other tissues from subsequent injury caused by reduced blood flow such as a stroke. This phenomenon is known as remote ischemic preconditioning and may help protect brain cells after a stroke. The investigators are studying a specific stroke type called subcortical stroke that is very common and has a high rate of recurrent stroke and cognition problems despite intensive prevention measures.
Cerebral small vessel disease (CSVD) is a major cause of cognitive impairment and disability in the general population, secondary to the accumulation of asymptomatic elementary lesions. CSVD is directly correlated with age and cardiovascular risk factors and therefore would be challenging in term of public health care in the future. While HIV patients share the same cardiovascular risk factors and they are often diagnosed with cognitive impairment and frailty, CSVD has not been yet described in this population. The global aim is to compare the prevalence of CSVD in a well controlled HIV+ population compared to HIV- controls matched with age and sex. 500 HIV+ patients and 250 age- and sex- matched controls will undergo a screening of the CSVD with a 10 minutes MRI (FLAIR and T2*). Prevalence of the CSVD will be compared between HIV+ patients and controls. General and HIV-specific parameters from their electronic medical records will be compared between HIV+/CSVD+ and HIV+/CSVD- patients. We are expecting to prove that CSVD is more frequent in HIV+ population.
Silent ischemic, also known as "covert stroke vascular disease" (CSVD), contributes to neurological deficits that are caused by damage to small blood vessels in the brain. CSVD occurs six to ten times more often that an acute stroke. It is misleading to think, however, that CSVD is an inevitable part of "getting old" because people with CSVD are at high risk of developing an acute stroke or dementia. In fact, people with more CSVD lesion volume are more likely to develop day to day problems in planning, decision-making and speed of thinking. Unfortunately, there are no proven therapies designed to address CSVD. We propose to test whether aerobic exercise is an intervention that can combat CSVD because the disease is fundamentally a blood flow problem that may be improved by aerobic exercise. We will recruit CSVD adults with moderate to severe lesion burden and use magnetic resonance imaging (MRI) to study the brain in terms of structure, perfusion and function. Participants will be randomly assigned to either our established aerobic exercise program or a control stretching program. Both groups will take part in lab exercise sessions, which are designed to monitor progress and assess adherence to the program. The duration and intensity of their exercise will increase as participants progress. We will use activity log books, phone calls and extra "booster" exercise sessions, as needed, to maximize retention and adherence. We aim to show that aerobic exercise increases cerebral blood flow (CBF) in frontal-subcortical grey matter, supports regional tissue growth, and improves cognitive function in CSVD adults with substantial risk of acute stroke and dementia. A positive outcome of this research will provide strong support for additional clinical trials aimed at sustaining cognition and maintaining independent living.
Cerebral small vessel disease (cSVD) encompasses all pathological processes that affect the small vessels of the brain. On brain-MRI cSVD is characterized by structural brain abnormalities such as white matter lesions (WMLs). Clinically, cSVD is related to acute syndromes as lacunar stroke but also to more chronic health problems such as cognitive decline. Recent literature suggests that a disrupted blood brain barrier (BBB), leading to elevated BBB permeability, may play a pivotal role in the aetiology of cSVD and lacunar stroke. The BBB is a complex system of neuronal, glial and vascular cells which main function is to shield the brain from toxic components and regulate the homeostasis. Elucidating the role of the BBB may have far reaching consequences for the treatment of cSVD patients and the reduction of recurrence rate of the disease. This could lead to a better quality of life among cSVD patients and reduce the economic burden on society. Currently the exact contribution and extent of a possibly defective BBB in cSVD remains largely unclear, due to the lack of a reliable method to accurately quantify the BBB permeability in cSVD patients. As a result, the current treatment consists of treating the cardiovascular risk factors, often with poor results. Quantification of the BBB permeability provides an objective measure of the integrity of the BBB and as such aids the study of the role of the BBB. The aim of this study is to realize a clinically applicable MRI-method to quantify the BBB permeability. Moreover, the method can be used to study the involvement of BBB disruption in other neuropathologies including Alzheimer's disease, vascular dementia, hypertension and diabetes. Primary Study Objective: To realize a clinically applicable quantification of BBB permeability using DCE-MRI by determining the reproducibility of the DCE-MRI method Secondary Study Objective: To achieve the shortest scan duration without compromising the reliability of the BBB permeability quantification. Hypotheses: 1. Using an optimized DCE-MRI method to quantify the BBB permeability, the BBB permeability can be reliably determined in cSVD patients. 2. The scan duration can be shortened without compromising the reliability of the BBB permeability quantification.
There may be a difference in efficacy of cilostazol and aspirin on progression of white matter changes in cerebral small vessel disease.
The aim of the study is to investigate whether there is a polarity-specific influence of tDCS on cerebral vasomotor reactivity monitored by transcranial doppler sonography.
A. the controlling of the blood pressure, especially the variation of blood pressure, can slow down the development of the small vessel disease. B intensive BP control is more effective than normal control of blood pressure in slowing down the small vessel disease. C drugs of Calcium Channel Blocker(CCB) and Angiotensin-Converting Enzyme Inhibitor(ACEI) have no significant difference in lowing the blood pressure and variability of blood pressure
Hypertension in midlife is an independent risk factor of late life cognitive dysfunction or dementia. Chronic hypertension cause vascular damage and cerebral ischemia, which ultimately gives rise to the cognitive dysfunction or dementia. A recent study showed that high visit-to-visit variability in clinic systolic blood pressure (BP) was a strong independent predictor of stroke. This finding suggests that high clinic systolic BP variability itself as well as chronic hypertension may cause vascular damage and cerebral ischemia. Therefore, high clinic SBP variability may be also an independent risk factor of cognitive dysfunction or dementia. Vascular damage leads to the diminished autoregulatory capacities of cerebral arteries. The brain with the reduced autoregulatory capacity may be more vulnerable to BP fluctuation. Therefore, high BP variability may be more harmful in patients with damaged vessels (for example, in patients with cerebral small vessel disease). Previous data about BP variability and cognition revealed very controversial. Some studies showed poor cognition in patients with high BP variability, but others did not. The previous studies were mostly based on cross-sectional designs, and performed in small-sized heterogeneous population for primary prevention. The harmful effect of high BP variability may be clearer in the population with damaged vascular bed, such as cerebral small vessel disease. The previous studies usually used ambulatory BP monitoring (ABPM). However, recent data suggested that variability in BP on ABPM may be a weaker predictor of vascular events than be visit-to-visit variability in clinic BP. The investigators sought to find whether high visit-to-visit variability in clinic BP is related with poor cognitive function in patients with cerebral small vessel disease.
The hypothesis of this study is that remote ischemic preconditioning (RIPC) might have a beneficial effect on outcomes of cerebral small vessel disease (CSV).