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Non‐Invasive Assessment of Damping of Blood Flow Velocity Pulsatility in Cerebral Arteries With MRI

Arts, Tine ; Onkenhout, Laurien P. ; Amier, Raquel P. ; [et al.]

Wiley ; 2022

In: Journal of Magnetic Resonance Imaging Vol. 55, No. 6 ( 2022-06), p. 1785-1794

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In: Journal of Magnetic Resonance Imaging, Wiley, Vol. 55, No. 6 ( 2022-06), p. 1785-1794

Abstract: Damping of heartbeat‐induced pressure pulsations occurs in large arteries such as the aorta and extends to the small arteries and microcirculation. Since recently, 7 T MRI enables investigation of damping in the small cerebral arteries. Purpose To investigate flow pulsatility damping between the first segment of the middle cerebral artery (M1) and the small perforating arteries using magnetic resonance imaging. Study Type Retrospective. Subjects Thirty‐eight participants (45% female) aged above 50 without history of heart failure, carotid occlusive disease, or cognitive impairment. Field Strength/Sequence 3 T gradient echo (GE) T1‐weighted images, spin‐echo fluid‐attenuated inversion recovery images, GE two‐dimensional (2D) phase‐contrast, and GE cine steady‐state free precession images were acquired. At 7 T, T1‐weighted images, GE quantitative‐flow, and GE 2D phase‐contrast images were acquired. Assessment Velocity pulsatilities of the M1 and perforating arteries in the basal ganglia (BG) and semi‐oval center (CSO) were measured. We used the damping index between the M1 and perforating arteries as a damping indicator (velocity pulsatility M1 /velocity pulsatility CSO/BG ). Left ventricular stroke volume (LVSV), mean arterial pressure (MAP), pulse pressure (PP), and aortic pulse wave velocity (PWV) were correlated with velocity pulsatility in the M1 and in perforating arteries, and with the damping index of the CSO and BG. Statistical Tests Correlations of LVSV, MAP, PP, and PWV with velocity pulsatility in the M1 and small perforating arteries, and correlations with the damping indices were evaluated with linear regression analyses. Results PP and PWV were significantly positively correlated to M1 velocity pulsatility. PWV was significantly negatively correlated to CSO velocity pulsatility, and PP was unrelated to CSO velocity pulsatility ( P = 0.28). PP and PWV were uncorrelated to BG velocity pulsatility ( P = 0.25; P = 0.68). PWV and PP were significantly positively correlated with the CSO damping index. Data Conclusion Our study demonstrated a dynamic damping of velocity pulsatility between the M1 and small cerebral perforating arteries in relation to proximal stress. Level of Evidence 4 Technical Efficacy Stage 1

Type of Medium: Online Resource

ISSN: 1053-1807 , 1522-2586

URL: Issue

URL: Article

DOI: 10.1002/jmri.v55.6

DOI: 10.1002/jmri.27989

Language: English

Publisher: Wiley

Publication Date: 2022

detail.hit.zdb_id: 1497154-9

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Gray matter atrophy, but not vascular brain injury is related to cognitive impairment in patients with heart failure : Neuropsychology/Neuropsychological correlates of physiologic markers of cognitive decline/Dementia

Leeuwis, Anna E. ; Amier, Raquel P. ; Marcks, Nick ; [et al.]

Wiley ; 2020

In: Alzheimer's & Dementia Vol. 16, No. S6 ( 2020-12)

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In: Alzheimer's & Dementia, Wiley, Vol. 16, No. S6 ( 2020-12)

Abstract: Cognitive impairment in heart failure (HF) interferes with the capacity to self‐care and is associated with adverse health outcomes. This underlines the importance of detecting the extent and nature of cognitive impairment in HF. We report on the presence and mutual association of neuroimaging markers and cognitive impairment in patients with HF. Method We included 147 patients with HF (69±10yrs; 32%F; MMSE 29±1) and 121 reference participants (66±8yrs; 46%F; MMSE 29±1) from the Dutch multicenter Heart‐Brain study. Brain MRI scans were rated for (lacunar) infarcts and microbleeds. Total grey and white matter volume, hippocampal volume and white matter hyperintensity (WMH) volume were calculated. We used a standardized neuropsychological test battery to measure cognition and calculated compound z‐scores for each cognitive domain. Associations between neuroimaging markers and cognitive functioning were investigated using linear regression analyses, with separate models for each cognitive domain. We adjusted for participant group, age, sex and education. To investigate whether associations differed according to participant group, interaction terms were included in our analyses. Result Patients with HF had lower total grey matter volume and more vascular brain injury compared to the reference group, including WMH (median (interquartile range) 1.7(40) versus 0.6(1.8), p 〈 0.001), (sub‐)cortical infarcts (13% versus 3%, p 〈 0.01) and lacunar infarcts (28% versus 10%, p 〈 0.001). Cognitive impairment was found in 18% of HF, most often in the domains of memory and attention/psychomotor speed. Overall, we found associations between smaller total grey matter volume and worse global cognition, more cortical and lacunar infarcts (standardized beta [stβ]=‐0.14‐0.56, p 〈 0.05). Stratification for participant group showed associations between worse global cognition and smaller total (stβ=0.43, p 〈 0.01) and hippocampal (stβ=0.22, p 〈 0.05) grey matter volumes in HF. We found no association between cognition and vascular brain injury. Conclusion Patients with HF exhibit cognitive deficits more pronounced in the domains of memory and attention/psychomotor speed. Grey matter atrophy, but not vascular brain injury seems to be related to cognitive impairment in HF.

Type of Medium: Online Resource

ISSN: 1552-5260 , 1552-5279

URL: Issue

URL: Article

DOI: 10.1002/alz.v16.S6

DOI: 10.1002/alz.042892

Language: English

Publisher: Wiley

Publication Date: 2020

detail.hit.zdb_id: 2201940-6

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