Blood–Brain Barrier Disruption and Perivascular Spaces in Small Vessel Disease and Neurodegenerative Diseases: A Review on <scp>MRI</scp> Methods and Insights

Voorter, Paulien H. M.; van Dinther, Maud; Jansen, Willemijn J.; Postma, Alida A.; Staals, Julie; Jansen, Jacobus F. A.; van Oostenbrugge, Robert J.; van der Thiel, Merel M.; Backes, Walter H.

doi:10.1002/jmri.28989

Cited by 8 publications

(3 citation statements)

References 101 publications

(331 reference statements)

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“…As GBCAs passively traverse BBB mainly via the paracellular pathway, an increase in K trans (when Vp does not change) indicates damage of endothelial cells (ECs), tight junctions (TJs), or pericytes. 20 , 21 In contrast, water passes across BBB through various pathways, including passive transport, aquaporin‐4 (AQP4) assisted exchange, and some cotransport proteins. 22 , 23 , 24 , 25 Therefore, k w may be altered in a range of BBB pathologies.…”

Section: Discussionmentioning

confidence: 99%

Heterogeneous blood‐brain barrier dysfunction in cerebral small vessel diseases

Ying,

Li,

Yao

et al. 2024

Alzheimer's & Dementia

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INTRODUCTIONWe explored how blood‐brain barrier (BBB) leakage rate of gadolinium chelates (Ktrans) and BBB water exchange rate (kw) varied in cerebral small vessel disease (cSVD) subtypes.METHODSThirty sporadic cSVD, 40 cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL), and 13 high‐temperature requirement factor A serine peptidase 1 (HTRA) ‐related cSVD subjects were investigated parallel to 40 healthy individuals. Subjects underwent clinical, cognitive, and MRI assessment.RESULTSIn CADASIL, no difference in Ktrans, but lower kw was observed in multiple brain regions. In sporadic cSVD, no difference in kw, but higher Ktrans was found in the whole brain and normal‐appearing white matter. In HTRA1‐related cSVD, both higher Ktrans in the whole brain and lower kw in multiple brain regions were observed. In each patient group, the altered BBB measures were correlated with lesion burden or clinical severity.DISCUSSIONIn cSVD subtypes, distinct alterations of kw and Ktrans were observed. The combination of Ktrans and kw can depict the heterogeneous BBB dysfunction.Highlights We measured BBB leakage to gadolinium‐based contrast agent (Ktrans) and water exchange rate (kw) across BBB in three subtypes of cSVD. CADASIL is characterized by lower kw, HTRA1‐related cSVD exhibits both higher Ktrans and lower kw, while sporadic cSVD is distinguished by higher Ktrans. There are distinct alterations in kw and Ktrans among subtypes of cSVD, indicating the heterogeneous nature of BBB dysfunction.

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Section: Discussionmentioning

confidence: 99%

Heterogeneous blood‐brain barrier dysfunction in cerebral small vessel diseases

Ying,

Li,

Yao

et al. 2024

Alzheimer's & Dementia

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“…Nonetheless, studies in CADASIL patients have produced contradictory results ( 125 , 130 ). Analyzing water exchange across the BBB using arterial spin labeling MRI is another promising approach for assessing subtle BBB dysfunction since water’s molecular weight (~18 Da) is much smaller than that of gadolinium-based contrast agents ( 131 , 132 ). Using arterial spin labeling MRI, Yang and colleagues recently reported a diffuse alteration (in the whole brain) in the water exchange rate across the BBB in patients with CADASIL or HTRA1-related cSVD, suggestive of an increase in the BBB’s permeability to water ( 133 ).…”

Section: Regulation Of Fluids In the Brainmentioning

confidence: 99%

Pathophysiology of cerebral small vessel disease: a journey through recent discoveries

Dupré,

Drieu,

Joutel

2024

Journal of Clinical Investigation

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Cerebral small vessel disease (cSVD) encompasses a heterogeneous group of age-related small vessel pathologies that affect multiple regions. Disease manifestations range from lesions incidentally detected on neuroimaging (white matter hyperintensities, small deep infarcts, microbleeds, or enlarged perivascular spaces) to severe disability and cognitive impairment. cSVD accounts for approximately 25% of ischemic strokes and the vast majority of spontaneous intracerebral hemorrhage and is also the most important vascular contributor to dementia. Despite its high prevalence and potentially long therapeutic window, there are still no mechanism-based treatments. Here, we provide an overview of the recent advances in this field. We summarize recent data highlighting the remarkable continuum between monogenic and multifactorial cSVDs involving NOTCH3 , HTRA1 , and COL4A1/A2 genes. Taking a vessel-centric view, we discuss possible cause-and-effect relationships between risk factors, structural and functional vessel changes, and disease manifestations, underscoring some major knowledge gaps. Although endothelial dysfunction is rightly considered a central feature of cSVD, the contributions of smooth muscle cells, pericytes, and other perivascular cells warrant continued investigation.

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“… 4 Although the pathophysiology of the enlargement of PVS is still not fully understood, it has been shown to be associated with a higher level of aquaporin‐4, breakdown of the blood–brain barrier (BBB), cerebral amyloid angiopathy (CAA), hypertension, and small vessel disease (SVD). 5 , 6 , 7 , 8 , 9 We hypothesized an impaired drainage could be a potential cause of enlarged PVS due to fluid residue and stasis. The enlargement of PVS might further decrease the CSF flow due to more fluid away from the vessel wall and fluid accumulation.…”

Section: Introductionmentioning

confidence: 99%

Parenchymal CSF fraction is a measure of brain glymphatic clearance and positively associated with amyloid beta deposition on PET

Zhou,

Nguyen,

Chiang

et al. 2024

Alzheimer's & Dementia

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INTRODUCTIONMapping of microscopic changes in the perivascular space (PVS) of the cerebral cortex, beyond magnetic resonance‐visible PVS in white matter, may enhance our ability to diagnose Alzheimer's disease (AD) early.METHODSWe used the cerebrospinal fluid (CSF) water fraction (CSFF), a magnetic resonance imaging–based biomarker, to characterize brain parenchymal CSF water, reflecting microscopic PVS in parenchyma. We measured CSFF and amyloid beta (Aβ) using 11C Pittsburgh compound B positron emission tomography to investigate their relationship at both the subject and voxel levels.RESULTSOur research has demonstrated a positive correlation between the parenchymal CSFF, a non‐invasive imaging biomarker indicative of parenchymal glymphatic clearance, and Aβ deposition, observed at both individual and voxel‐based assessments in the posterior cingulate cortex.DISCUSSIONThis study shows that an increased parenchymal CSFF is associated with Aβ deposition, suggesting that CSFF could serve as a biomarker for brain glymphatic clearance, which can be used to detect early fluid changes in PVS predisposing individuals to the development of AD.Highlights Cerebrospinal fluid fraction (CSFF) could be a biomarker of parenchymal perivascular space. CSFF is positively associated with amyloid beta (Aβ) deposition at subject level. CSFF in an Aβ+ region is higher than in an Aβ– region in the posterior cingulate cortex. Correspondence is found between Aβ deposition and glymphatic clearance deficits measured by CSFF.

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Blood–Brain Barrier Disruption and Perivascular Spaces in Small Vessel Disease and Neurodegenerative Diseases: A Review on MRI Methods and Insights

Cited by 8 publications

References 101 publications

Heterogeneous blood‐brain barrier dysfunction in cerebral small vessel diseases

Heterogeneous blood‐brain barrier dysfunction in cerebral small vessel diseases

Pathophysiology of cerebral small vessel disease: a journey through recent discoveries

Parenchymal CSF fraction is a measure of brain glymphatic clearance and positively associated with amyloid beta deposition on PET

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