Background and Purose Disruption of the blood-brain barrier (BBB) has been proposed to be important in vascular cognitive impairment (VCI). Increased cerebrospinal fluid (CSF) albumin and contrast-enhanced MRI provide supporting evidence, but quantification of the BBB permeability in patients with VCI is lacking. Therefore, we acquired dynamic contrast-enhanced MRI (DCEMRI) to quantify BBB permeability in VCI. Method We studied 60 patients with suspected VCI. They had neurological and neuropsychological testing, permeability measurements with DCEMRI and lumbar puncture to measure albumin index (Qalb). Patients were separated clinically into subcortical ischemic vascular disease (SIVD), multiple and lacunar infarcts (MI/LAC), and leukoaraiosis (LA). Twenty volunteers were controls for the DCEMRI studies, and control CSF was obtained from 20 individuals undergoing spinal anesthesia for non-neurological problems. Results Thirty-six patients were classified as SIVD, 8 as MI/LAC and 9 as LA. The Qalb was significantly increased in the SIVD group compared to 20 controls. Permeabilities for the VCI patients measured by DCEMRI were significantly increased over controls (p<0.05). Patient age correlated with neither the BBB permeability nor Qalb. Highest Qalb values were seen in SIVD group (p<0.05), and were significantly increased over MI/LAC. Ki values were elevated over controls in SIVD, but were similar to MI/LAC. Conclusions There was abnormal permeability in white matter in patients with SIVD as shown by DCEMRI and Qalb. Future studies will be needed to determine the relationship of BBB damage and development of WMHs.
Chronic kidney disease (CKD) is an independent risk factor for the development of cerebrovascular disease, particularly small vessel disease which can manifest in a variety of phenotypes ranging from lacunes to microbleeds. Small vessel disease likely contributes to cognitive dysfunction in the CKD population. Non-traditional risk factors for vascular injury in uremia include loss of calcification inhibitors, hyperphosphatemia, increased blood pressure variability, elastinolysis, platelet dysfunction, and chronic inflammation. In this review, we discuss the putative pathways by which these mechanisms may promote cerebrovascular disease and thus increase risk of future stroke in CKD patients.
Background and Purpose The blood brain-barrier (BBB) is disrupted in small vessel disease (SVD) patients with lacunes and white matter hyperintensities (WMHs). The relationship of WMHs and regional BBB permeability changes has not been studied. We hypothesized that BBB disruption occurs in normal appearing WM (NAWM) and regions near the WMHs. To test the hypothesis, we repeated BBB permeability measurements in patients with extensive WMHs related to Binswanger’s disease (BD). Methods We selected a subset of 22 BD subjects from a well-characterized larger prospective vascular cognitive impairment cohort. We used 16 age-matched controls for comparison. The abnormal WM permeability (WMP) was measured twice over several years using dynamic contrast-enhanced MRI (DCEMRI). WMP maps were constructed from voxels above a predetermined threshold. Scans from first and second visits were co-registered. WM was divided into 3 regions: NAWM, WMH ring and WMH core. The ring was defined as 2mm on each side of the WMH border. WMP was calculated in each of the three specific regions. We used paired t-test, ANOVA and Fisher’s exact test to compare individual changes. Results WMP was significantly higher in subjects than controls (p<0.001). There was no correlation between WMH load and WMP. High permeability regions had minimal overlap between first and second scans. Nine percent of WMP was within the WMHs, 49% within the NAWM, and 52% within the WMH ring (p<0.001; ANOVA). Conclusions Increased BBB permeability in NAWM and close to the WMH borders supports a relationship between BBB disruption and development of WMHs.
BackgroundVascular cognitive impairment (VCI) is a heterogeneous entity with multiple aetiologies, all linked to underlying vascular disease. Among these, VCI related to subcortical small vessel disease (SSVD) is emerging as a major homogeneous subtype. Its progressive course raises the need for biomarker identification and/or development for adequate therapeutic interventions to be tested. In order to shed light in the current status on biochemical markers for VCI-SSVD, experts in field reviewed the recent evidence and literature data.MethodThe group conducted a comprehensive search on Medline, PubMed and Embase databases for studies published until 15.01.2017. The proposal on current status of biochemical markers in VCI-SSVD was reviewed by all co-authors and the draft was repeatedly circulated and discussed before it was finalized.ResultsThis review identifies a large number of biochemical markers derived from CSF and blood. There is a considerable overlap of VCI-SSVD clinical symptoms with those of Alzheimer’s disease (AD). Although most of the published studies are small and their findings remain to be replicated in larger cohorts, several biomarkers have shown promise in separating VCI-SSVD from AD. These promising biomarkers are closely linked to underlying SSVD pathophysiology, namely disruption of blood-CSF and blood–brain barriers (BCB-BBB) and breakdown of white matter myelinated fibres and extracellular matrix, as well as blood and brain inflammation. The leading biomarker candidates are: elevated CSF/blood albumin ratio, which reflects BCB/BBB disruption; altered CSF matrix metalloproteinases, reflecting extracellular matrix breakdown; CSF neurofilment as a marker of axonal damage, and possibly blood inflammatory cytokines and adhesion molecules. The suggested SSVD biomarker deviations contrasts the characteristic CSF profile in AD, i.e. depletion of amyloid beta peptide and increased phosphorylated and total tau.ConclusionsCombining SSVD and AD biomarkers may provide a powerful tool to identify with greater precision appropriate patients for clinical trials of more homogeneous dementia populations. Thereby, biomarkers might promote therapeutic progress not only in VCI-SSVD, but also in AD.
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