Cerebral Small Vessel Disease and OCT Angio Clinical Trial
Official title:
Optical Coherence Tomography Angiography in Patients With Cerebral Small Vessel Disease.
The aim of the study is to: - detect changes in retinal structure and microvasculature in patients with cerebral small vessel disease using optical coherence tomography angiography , correlate these changes with brain imaging markers and determine if ( OCTA ) can be used as a screening tool for cerebral small vessel disease.
Cerebral small vessel disease ( CSVD ) refers to all pathological changes affecting the small vasculature of the brain including; small perforating arterioles,capillaries and venules. Vascular risk factors that are commonly found in large vessel disease have shown to contribute to CSVD, as well, including hypertension, diabetes mellitus, smoking and dyslipidemia.Also old age is considered to be a risk factor as the prevelance of CSVD increases with age affecting nearly 5 % of people aged 50 years and almost 100% in those older than 90 years . Cerebral amyloid angiopathy is one of the suggested underlying pathologies in some cases of CSVD. Clinically, CSVD accounts for 25% of ischemic strokes and 50% of dementias . It may present as acute events (focal neurological deficit ) known as lacunar syndrome or chronic events as mild cognitive dysfunction, dementia, mood disorders, gait disturbance, sleep disorder and urinary incontinence. Also, it may be a symptomatic. Although CSVD is a common reason for strokes and vascular dementia, pathogenesis is still poorly understood . It is suggested that the endothelial dysfunction in cerebral microvessels may be a key problem. Endothelial failure leads to increased permeability and increased leakage into the vessel wall and the surrounding tissue , damaging of the vessel wall , inflammation, demyelination, glial scar formation , thickening and stiffness of vessels leading to failure of autoregulation, narrowing of the lumen and occlusion , causing featured focal ischemic lesions in the brain parenchyma. Neuroimaging markers seen on MRI are classified into: Recent small subcortical infarct (DWI), Lacune of presumed vascular origin (FLAIR), White matter hyperintensity of presumed vascular origin (FLAIR), Perivascular space (T1 , T2), cerebral microbleed (T2*-weighted GRE/SWI). The changes in brain microvasculature are difficult to be visualized in vivo . Because of similarities between brain and retina in anatomy , embryology and physiology , investigating the retinal vessels network may reflect the brain condition. Optical coherence tomography angiography ( OCTA ) is a novel, real-time and noninvasive technique to detect retinal and choroidal blood flow in vivo. The retinal capillary network is arranged anatomically into several layers as following ; 3 macular plexuses, 4 plexuses in peripapillary region and one capillary layer in midequatorial and anterior zones where the retina is thinner. OCTA devices are based on (en face) approach to get information of the superficial and deep plexuses. 4 en face zones are detected ; superfacial plexus in ganglion cell layer, deep plexus, photoreceptors(outer retina) and choroiocapillaries. For each en face zone , the indices of perfusion could be reached. OCTA has a big advantage over classic methods as retinal microvasculature are segmented into layers and can be visualized and quantified more accurately . It is a safe and rapid technique giving a vascular map of retinal blood flow without using intravenous dye. ;