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1. Effect of physical exercise on the hippocampus and global grey matter volume in breast cancer patients: A randomized controlled trial (PAM study)

Author

Haringhuizen, Annebeth W., van der Steeg, Wim A., Terheggen, Frederiek, Blanken-Peeters, Charlotte, Fliervoet, Harold, Schlooz-Vries, Margrethe S., Frakking, Tanja G., van Tilburg, Marc W.A., Oldenhuis, Corina, Sier, Maartje F., van der Pol, Carmen C., Tick, Lidwine W., van Holsteijn, Nel A., Koevoets, E.W., Geerlings, M.I., Monninkhof, E.M., Mandl, R., Witlox, L., van der Wall, E., Stuiver, M.M., Sonke, G.S., Velthuis, M.J., Jobsen, J.J., van der Palen, J., Bos, M.E.M.M., Göker, E., Menke-Pluijmers, M.B.E., Sommeijer, D.W., May, A.M., de Ruiter, M.B., and Schagen, S.B.

Published
2023
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5. Association of amyloid-beta with depression or depressive symptoms in older adults without dementia: a systematic review and meta-analysis

Author

Twait, E.L, Wu, J.H., Kamarioti, M., Basten, M., van der Flier, W.M., Gerritsen, L., Geerlings, M.I., Twait, E.L, Wu, J.H., Kamarioti, M., Basten, M., van der Flier, W.M., Gerritsen, L., and Geerlings, M.I.

Abstract

Several lines of evidence have indicated that depression might be a prodromal symptom of Alzheimer's disease (AD). This systematic review and meta-analysis investigated the cross-sectional association between amyloid-beta, one of the key pathologies defining AD, and depression or depressive symptoms in older adults without dementia. A systematic search in PubMed yielded 689 peer-reviewed articles. After full-text screening, nine CSF studies, 11 PET studies, and five plasma studies were included. No association between amyloid-beta and depression or depressive symptoms were found using cerebrospinal fluid (CSF) (0.15; 95% CI: -0.08; 0.37), positron emission topography (PET) (Cohen's d: 0.09; 95% CI: -0.05; 0.24), or plasma (-0.01; 95% CI: -0.23; 0.22). However, subgroup analyses revealed an association in plasma studies of individuals with cognitive impairment. A trend of an association was found in the studies using CSF and PET. This systematic review and meta-analysis suggested that depressive symptoms may be part of the prodromal stage of dementia.

Published
2024

7. Imaging of intracranial arterial disease: a comparison between MRI and unenhanced CT

Author

Lucci, C., Rissanen, I., Takx, R.A.P., Kolk, A.G. van der, Harteveld, A.A., Dankbaar, J.W., Geerlings, M.I., Jong, Pa. de, Hendrikse, J., Lucci, C., Rissanen, I., Takx, R.A.P., Kolk, A.G. van der, Harteveld, A.A., Dankbaar, J.W., Geerlings, M.I., Jong, Pa. de, and Hendrikse, J.

Abstract

Contains fulltext : 305366.pdf (Publisher’s version ) (Open Access), BACKGROUND AND PURPOSE: Arterial calcifications on unenhanced CT scans and vessel wall lesions on MRI are often used interchangeably to portray intracranial arterial disease. However, the extent of pathology depicted with each technique is unclear. We investigated the presence and distribution of these two imaging findings in patients with a history of cerebrovascular disease. MATERIALS AND METHODS: We analyzed CT and MRI data from 78 patients admitted for stroke or TIA at our institution. Vessel wall lesions were assessed on 7 T MRI sequences, while arterial calcifications were assessed on CT scans. The number of vessel wall lesions, severity of intracranial internal carotid artery (iICA) calcifications, and overall presence and distribution of the two imaging findings were visually assessed in the intracranial arteries. RESULTS: At least one vessel wall lesion or arterial calcification was assessed in 69 (88%) patients. Only the iICA and vertebral arteries (VA) showed a substantial number of both calcifications and vessel wall lesions. The other vessels showed almost exclusively vessel wall lesions. The number of vessel wall lesions was associated with the severity of iICA calcification (p = 0.013). CONCLUSIONS: The number of vessel wall lesions increases with the severity of iICA calcifications. Nonetheless, the distribution of vessel wall lesions on MRI and arterial calcifications on CT shows remarkable differences. These findings support the need for a combined approach to examine intracranial arterial disease.

Published
2024

8. Prediction of Lifetime and 10-Year Risk of Cancer in Individual Patients With Established Cardiovascular Disease

Author

Asselbergs, F.W., Nathoe, H.M., de Borst, G.J., Bots, M.L., Geerlings, M.I., Emmelot, M.H., de Jong, P.A., Leiner, T., Lely, A.T., van der Kaaij, N.P., Kappelle, L.J., Ruigrok, Y., Verhaar, M.C., Westerink, J., van ’t Klooster, Cilie C., Ridker, Paul M., Cook, Nancy R., Aerts, Joachim G.J.V., Westerink, Jan, Asselbergs, Folkert W., van der Graaf, Yolanda, and Visseren, Frank L.J.

Published
2020
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9. Late-life depression, allostatic load, and risk of dementia: The AGES-Reykjavik study

Author

Twait, E.L., Basten, M., Gerritsen, L., Gudnason, V., Launer, L.J., Geerlings, M.I., Twait, E.L., Basten, M., Gerritsen, L., Gudnason, V., Launer, L.J., and Geerlings, M.I.

Abstract

BACKGROUND: The current study aimed to assess if the relation between depression and dementia could be explained by allostatic load (AL) profiles, as well as assessing their risk on incident all-cause dementia, Alzheimer's disease (AD), and non-AD dementias.METHODS: The study included individuals without dementia at baseline from the population-based AGES-Reykjavik Study. Depressive symptoms assessed with the Geriatric Depression Scale-15 and AL markers were collected at baseline. Latent profile analysis (LPA) was performed on the AL markers. Incident dementia was measured during 12-years of follow-up. Cox regressions adjusted for AL profiles were performed to evaluate if AL could explain the relation between depressive symptoms and incident dementia. Additional Cox regressions exploring the interaction with depressive symptoms and AL profiles were also performed.RESULTS: LPA revealed four profiles based on AL factors: 'Low cardiovascular dysregulation' (43 %), 'Average' (42 % prevalence), 'High cardiovascular dysregulation' (11 %), and 'Multisystem dysregulation' (4 %). Cox regression analyses found an increased risk for dementia in the 'Multisystem dysregulation' group (HR 1.72; 95 % CI 1.26-2.33), as well as for AD (HR 1.75; 95 % CI: 1.12-2.71) and non-AD dementias (HR 1.87; 95 % CI: 1.23-2.84). AL profiles did not mediate the risk of all-cause dementia with depressive symptoms; however, there was evidence of additive interaction with depressive symptoms and the 'Multisystem dysregulation' profile and all-cause dementia (RERI 0.15; 95 % CI 0.03-0.26).CONCLUSION: AL profiles and depressive symptoms were independently related to dementia. Individuals with multisystem dysregulation could be more susceptible to the negative effects of depressive symptomology on incident dementia.

Published
2023

10. Effect of physical exercise on the hippocampus and global grey matter volume in breast cancer patients: A randomized controlled trial (PAM study).

Author

Koevoets, E.W., Geerlings, M.I., Monninkhof, E.M., Mandl, R., Witlox, L., Wall, E. van der, Stuiver, M.M., Sonke, G.S., Velthuis, M.J., Jobsen, J.J., Palen, J. van der, Bos, Merijn, Göker, E., Menke-Pluijmers, M.B., Sommeijer, D.W., May, A.M., Schlooz-Vries, M.S., Ruiter, M.B de, Schagen, S.B., Koevoets, E.W., Geerlings, M.I., Monninkhof, E.M., Mandl, R., Witlox, L., Wall, E. van der, Stuiver, M.M., Sonke, G.S., Velthuis, M.J., Jobsen, J.J., Palen, J. van der, Bos, Merijn, Göker, E., Menke-Pluijmers, M.B., Sommeijer, D.W., May, A.M., Schlooz-Vries, M.S., Ruiter, M.B de, and Schagen, S.B.

Abstract

Item does not contain fulltext, BACKGROUND: Physical exercise in cancer patients is a promising intervention to improve cognition and increase brain volume, including hippocampal volume. We investigated whether a 6-month exercise intervention primarily impacts total hippocampal volume and additionally hippocampal subfield volumes, cortical thickness and grey matter volume in previously physically inactive breast cancer patients. Furthermore, we evaluated associations with verbal memory. METHODS: Chemotherapy-exposed breast cancer patients (stage I-III, 2-4 years post diagnosis) with cognitive problems were included and randomized in an exercise intervention (n = 70, age = 52.5 ± 9.0 years) or control group (n = 72, age = 53.2 ± 8.6 years). The intervention consisted of 2x1 hours/week of supervised aerobic and strength training and 2x1 hours/week Nordic or power walking. At baseline and at 6-month follow-up, volumetric brain measures were derived from 3D T1-weighted 3T magnetic resonance imaging scans, including hippocampal (subfield) volume (FreeSurfer), cortical thickness (CAT12), and grey matter volume (voxel-based morphometry CAT12). Physical fitness was measured with a cardiopulmonary exercise test. Memory functioning was measured with the Hopkins Verbal Learning Test-Revised (HVLT-R total recall) and Wordlist Learning of an online cognitive test battery, the Amsterdam Cognition Scan (ACS Wordlist Learning). An explorative analysis was conducted in highly fatigued patients (score of ≥ 39 on the symptom scale 'fatigue' of the European Organisation for Research and Treatment of Cancer Quality of Life Questionnaire), as previous research in this dataset has shown that the intervention improved cognition only in these patients. RESULTS: Multiple regression analyses and voxel-based morphometry revealed no significant intervention effects on brain volume, although at baseline increased physical fitness was significantly related to larger brain volume (e.g., total hippocampal volume: R = 0.32, B = 21

Published
2023

13. Effect of physical exercise on the hippocampus and global grey matter volume in breast cancer patients: A randomized controlled trial (PAM study)

Author

Koevoets, E.W., primary, Geerlings, M.I., additional, Monninkhof, E.M., additional, Mandl, R., additional, Witlox, L., additional, van der Wall, E., additional, Stuiver, M.M., additional, Sonke, G.S., additional, Velthuis, M.J., additional, Jobsen, J.J., additional, van der Palen, J., additional, Bos, M.E.M.M., additional, Göker, E., additional, Menke-Pluijmers, M.B.E., additional, Sommeijer, D.W., additional, May, A.M., additional, de Ruiter, M.B., additional, Schagen, S.B., additional, Haringhuizen, Annebeth W., additional, van der Steeg, Wim A., additional, Terheggen, Frederiek, additional, Blanken-Peeters, Charlotte, additional, Fliervoet, Harold, additional, Schlooz-Vries, Margrethe S., additional, Frakking, Tanja G., additional, van Tilburg, Marc W.A., additional, Oldenhuis, Corina, additional, Sier, Maartje F., additional, van der Pol, Carmen C., additional, Tick, Lidwine W., additional, and van Holsteijn, Nel A., additional

Published
2023
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15. Depressive symptom profiles predict dementia onset and brain pathology in older persons. The AGES-Reykjavik study

Author

Gerritsen, L., Sigurdsson, S., Jonsson, P.V., Gudnason, V., Launer, L.J., Geerlings, M.I., Leerstoel Engelhard, and Experimental psychopathology

Subjects
Male, Aging, Pathology, medicine.medical_specialty, hippocampus, Neuroscience(all), Apathy, Clinical Neurology, late-life depression, Humans, Medicine, Dementia, Depression (differential diagnoses), Depressive symptoms, Aged, Aged, 80 and over, Depression, business.industry, Proportional hazards model, white matter lesions, General Neuroscience, Incidence (epidemiology), Patient Acuity, Organ Size, Alzheimer's disease, medicine.disease, White Matter, Hippocampal atrophy, Ageing, Hippocampal volume, Female, Gene-Environment Interaction, Neurology (clinical), Geriatrics and Gerontology, medicine.symptom, business, Forecasting, dementia, Developmental Biology
Abstract

Late-life depression (LLD) increases risk for dementia and brain pathology, but possibly this is only true for one or more symptom profiles of LLD. In 4354 participants (76±5 years; 58% female) from the Age, Gene/Environment Susceptibility (AGES)-Reykjavik Study, we identified five LLD symptom profiles, based on the Geriatric Depression Scale-15 (no LLD(57%); apathy(31%); apathy with emptiness(2%), mild LLD(8%) and severe LLD(2%)). Cox regression analyses showed that severe LLD, mild LLD and apathy increased risk of dementia up to 12 years, compared to no LLD. Additionally, hippocampal volume loss and white matter lesion increase, were assessed on 1.5 T MR images, at baseline and after 5 years follow-up. Only severe LLD showed increased WML volume over time, but not on hippocampal volume loss. WML increase over time mediated partially the relation between mild LLD and dementia but not for the other symptom profiles. It appears that hippocampal atrophy and LLD are independent predictors for dementia incidence, whereas for mild LLD the risk for dementia is partially mediated by WML changes.

Published
2022
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16. White matter hyperintensity shape is associated with cognitive functioning - the SMART-MR study

Author

Zwartbol, M.H.T., Ghaznawi, R., Jaarsma-Coes, M., Kuijf, H., Hendrikse, J., Bresser, J. de, Geerlings, M.I., UCC-SMART Study Grp, General practice, APH - Aging & Later Life, APH - Personalized Medicine, Amsterdam Neuroscience - Mood, Anxiety, Psychosis, Stress & Sleep, and Amsterdam Neuroscience - Neurodegeneration

Subjects
Aging, SMART-MR study, General Neuroscience, Brain, Neuropsychological Tests, White Matter, Magnetic Resonance Imaging, Cognitive functioning, Shape analysis, SMART -MR study, Executive Function, Cognition, White matter hyperintensities, Humans, Neurology (clinical), Geriatrics and Gerontology, Developmental Biology, MRI
Abstract

White matter hyperintensity (WMH) shape has been associated with the severity of the underlying brain pathology, suggesting it is a potential neuroimaging marker of WMH impact on brain function.In 563 patients with vascular disease (58 +/- 10 years), we examined the relationship between WMH volume, shape, and cognitive functioning. WMH volume and shape were automatically determined on 1.5T brain MRI data. Standardized linear regression analyses estimated the association between WMH volume and shape (concavity index, solidity, convexity, fractal dimension, and eccentricity) and memory and executive functioning, adjusted for age, sex, educational level, and reading ability.Larger WMH volumes were associated with lower executive functioning Z-scores ( b (95%-CI):-0.09 (-0.17;-0.01)). Increased shape complexity of periventricular/confluent WMH associated with lower exec-utive functioning (concavity index + 1SD:-0.13 (-0.20;-0.06); solidity-1SD:-0.09 (-0.17;-0.02)) and lower memory function (fractal dimension + 1SD:-0.10 (-0.18;-0.02)). Of note, the association between concav-ity index and executive functioning was independent of WMH volume (-0.12 (-0.19;-0.04)). Our results suggest that WMH shape contains additional information about WMH burden, not other-wise captured by WMH volume.(c) 2022 The Author(s). Published by Elsevier Inc. This is an open access article under the CC BY license ( http://creativecommons.org/licenses/by/4.0/ )

Published
2022

17. Low-grade carotid artery stenosis is associated with progression of brain atrophy and cognitive decline. The SMART-MR study

Author

Ghaznawi, R., Vonk, J.M.J., Zwartbol, M.H.T., Bresser, J. de, Rissanen, I., Hendrikse, J., Geerlings, M.I., UCC-SMART Study Group, General practice, APH - Aging & Later Life, APH - Personalized Medicine, ANS - Mood, Anxiety, Psychosis, Stress & Sleep, and ANS - Neurodegeneration

Subjects
Brain atrophy, Neurology, cohort studies, white matter hyperintensity, Neurology (clinical), low-grade carotid artery stenosis, Cardiology and Cardiovascular Medicine, cognitive decline
Abstract

Asymptomatic low-grade carotid artery stenosis (LGCS) is a common finding in patients with manifest arterial disease, however its relationship with brain MRI changes and cognitive decline is unclear. We included 902 patients (58 ± 10 years; 81% male) enrolled in the Second Manifestations of Arterial Disease – Magnetic Resonance (SMART-MR) study without a history of cerebrovascular disease. LGCS was defined as 1–49% stenosis on baseline carotid ultrasound, whereas no LGCS (reference category) was defined as absence of carotid plaque. Brain and white matter hyperintensity (WMH) volumes and cognitive function were measured at baseline and after 4 (n = 480) and 12 years (n = 222) of follow-up. Using linear mixed-effects models, we investigated associations of LGCS with progression of brain atrophy, WMH, and cognitive decline. LGCS was associated with greater progression of global brain atrophy (estimate −0.03; 95%CI, −0.06 to −0.01; p = 0.002), and a greater decline in executive functioning (estimate −0.02; 95%CI, −0.031 to −0.01; p

Published
2022

18. Depression, anxiety and the risk of breast cancer among premenopausal and postmenopausal women: an individual participant data meta-analysis

Author

Basten, M., primary, van Tuijl, L.A., additional, Pan, K.Y., additional, Spaan, M., additional, de Graeff, A., additional, Dekker, J., additional, Hoogendoorn, A.W., additional, Lamers, F., additional, Ranchor, A.V., additional, Vermeulen, R., additional, Voogd, A.C., additional, and Geerlings, M.I., additional

Published
2022
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20. Carotid artery stenosis and progression of hemispheric brain atrophy

Author

Ghaznawi, R., Rissanen, I., Bresser, J. de, Kuijf, H.J., Zuithoff, N.P.A., Hendrikse, J., Geerlings, M.I., UCC-SMART-Study Grp, General practice, APH - Aging & Later Life, APH - Personalized Medicine, Amsterdam Neuroscience - Mood, Anxiety, Psychosis, Stress & Sleep, and Amsterdam Neuroscience - Neurodegeneration

Subjects
Brain atrophy, Neurology, Cohort studies, Carotid artery stenosis, Neurology (clinical), Cardiology and Cardiovascular Medicine, MRI
Abstract

Introduction: It has been hypothesized that carotid artery stenosis (CAS) may lead to greater atrophy of subserved brain regions; however, prospective studies on the impact of CAS on progression of hemispheric brain atrophy are lacking. We examined the association between CAS and progression of hemispheric brain atrophy. Methods: We included 654 patients (57 ± 9 years) of the SMART-MR study, a prospective cohort study of patients with manifest arterial disease. Patients had baseline CAS duplex measurements and a 1.5T brain MRI at baseline and after 4 years of follow-up. Mean change in hemispheric brain volumes (% of intracranial volume [ICV]) was estimated between baseline and follow-up for left-sided and right-sided CAS across three degrees of stenosis (mild [≤29%], moderate [30–69%], and severe [≥70%]), adjusting for demographics, cerebrovascular risk factors, and brain infarcts. Results: Mean decrease in left and right hemispheric brain volumes was 1.15% ICV and 0.82% ICV, respectively, over 4 years of follow-up. Severe right-sided CAS, compared to mild CAS, was associated with a greater decrease in volume of the left hemisphere (B = −0.49% ICV, 95% CI: −0.86 to −0.13) and more profoundly of the right hemisphere (B = −0.90% ICV, 95% CI: −1.27 to −0.54). This pattern was independent of cerebrovascular risk factors, brain infarcts, and white matter hyperintensities on MRI, and was also observed when accounting for the presence of severe bilateral CAS. Increasing degrees of left-sided CAS, however, was not associated with greater volume loss of the left or right hemisphere. Conclusions: Our data indicate that severe (≥70%) CAS could represent a risk factor for greater ipsilateral brain volume loss, independent of cerebrovascular risk factors, brain infarcts, or white matter hyperintensities on MRI. Further longitudinal studies in other cohorts are warranted to confirm this novel finding.

Published
2022

21. Depression and Dementia: The Role of Cortisol and Vascular Brain Lesions. AGES-Reykjavik Study

Author

Gerritsen, L., Twait, E.L., Jonsson, P.V., Gudnason, V., Launer, L.J., Geerlings, M.I., Gerritsen, L., Twait, E.L., Jonsson, P.V., Gudnason, V., Launer, L.J., and Geerlings, M.I.

Abstract

Background: Late-life depression (LLD) is related to an increased risk of developing dementia; however, the biological mechanisms explaining this relationship remain unclear. Objective: To determine whether the relationship between LLD and dementia can be best explained by the glucocorticoid cascade or vascular hypothesis. Methods: Data are from 4,354 persons (mean age 76±5 years) without dementia at baseline from the AGES-Reykjavik Study. LLD was assessed with the MINI diagnostic interview (current and remitted major depressive disorder [MDD]) and the Geriatric Depression Scale-15. Morning and evening salivary cortisol were collected (glucocorticoid cascade hypothesis). White matter hyperintensities (WMH; vascular hypothesis) volume was assessed using 1.5T brain MRI. Using Cox proportional hazard models, we estimated the associations of LLD, cortisol levels, and WMH volume with incident all-cause dementia, AD, and non-AD dementia. Results: During 8.8±3.2 years of follow-up, 843 persons developed dementia, including 397 with AD. Current MDD was associated with an increased risk of developing all-cause dementia (HR = 2.17; 95% CI 1.66-2.67), with risks similar for AD and non-AD, while remitted MDD was not (HR = 1.02; 95% CI 0.55-1.49). Depressive symptoms were also associated with increased risk of dementia, in particular non-AD dementias. Higher levels of evening cortisol increased risk of dementia, but this was independent of MDD. WMH partially explained the relation between current MDD and dementia risk but remained increased (HR = 1.71; 95% CI 1.34-2.08). Conclusion: The current study highlights the importance of LLD in developing dementia. However, neither the glucocorticoid cascade nor the vascular hypotheses fully explained the relation between depression and dementia.

Published
2022

23. Stroke genetics informs drug discovery and risk prediction across ancestries

Author

Mishra, A, Malik, R., Hachiya, T., Jürgenson, T., Namba, S., Posner, D.C., Kamanu, F.K., Koido, M., Grand, Q. Le, Shi, M., He, Y., Georgakis, M.K., Caro, I., Krebs, K., Liaw, Y.C., Vaura, F.C., Lin, K., Winsvold, B.S., Srinivasasainagendra, V., Parodi, L., Bae, H.J., Chauhan, G., Chong, M.R., Tomppo, L., Akinyemi, R., Roshchupkin, G.V., Habib, N., Jee, Y.H., Thomassen, J.Q., Abedi, V., Cárcel-Márquez, J., Nygaard, M., Leonard, H.L., Yang, C., Yonova-Doing, E., Knol, M.J., Lewis, A.J., Judy, R.L., Ago, T., Amouyel, P., Armstrong, N.D., Bakker, M.K., Bartz, T.M., Bennett, D.A., Bis, J.C., Bordes, C., Børte, S., Cain, A., Ridker, P.M., Cho, K., Chen, Z., Cruchaga, C., Cole, J.W., Jager, P.L., Cid, R. de, Endres, M., Ferreira, L.E., Geerlings, M.I., Gasca, N.C., Gudnason, V., Hata, J., He, J., Heath, A.K., Ho, Y.L., Havulinna, A.S., Hopewell, J.C., Hyacinth, H.I., Inouye, M., Jacob, M.A., Jeon, C.E., Jern, C., Kamouchi, M., Keene, K.L., Kitazono, T., Kittner, S.J., Konuma, T., Kumar, A., Lacaze, P., Launer, L.J., Lee, K.J., Lepik, K., Li, J, Li, L, Manichaikul, A., Markus, H.S., Marston, N.A., Meitinger, T., Mitchell, B.D., Montellano, F.A., Morisaki, T., Mosley, T.H., Nalls, M.A., Nordestgaard, B.G., O'Donnell, M.J., Okada, Y., Onland-Moret, N.C., Ovbiagele, B., Peters, A., Psaty, B.M., Rich, S.S., Tuladhar, A.M., Leeuw, F.E. de, Dichgans, M., Debette, S., Mishra, A, Malik, R., Hachiya, T., Jürgenson, T., Namba, S., Posner, D.C., Kamanu, F.K., Koido, M., Grand, Q. Le, Shi, M., He, Y., Georgakis, M.K., Caro, I., Krebs, K., Liaw, Y.C., Vaura, F.C., Lin, K., Winsvold, B.S., Srinivasasainagendra, V., Parodi, L., Bae, H.J., Chauhan, G., Chong, M.R., Tomppo, L., Akinyemi, R., Roshchupkin, G.V., Habib, N., Jee, Y.H., Thomassen, J.Q., Abedi, V., Cárcel-Márquez, J., Nygaard, M., Leonard, H.L., Yang, C., Yonova-Doing, E., Knol, M.J., Lewis, A.J., Judy, R.L., Ago, T., Amouyel, P., Armstrong, N.D., Bakker, M.K., Bartz, T.M., Bennett, D.A., Bis, J.C., Bordes, C., Børte, S., Cain, A., Ridker, P.M., Cho, K., Chen, Z., Cruchaga, C., Cole, J.W., Jager, P.L., Cid, R. de, Endres, M., Ferreira, L.E., Geerlings, M.I., Gasca, N.C., Gudnason, V., Hata, J., He, J., Heath, A.K., Ho, Y.L., Havulinna, A.S., Hopewell, J.C., Hyacinth, H.I., Inouye, M., Jacob, M.A., Jeon, C.E., Jern, C., Kamouchi, M., Keene, K.L., Kitazono, T., Kittner, S.J., Konuma, T., Kumar, A., Lacaze, P., Launer, L.J., Lee, K.J., Lepik, K., Li, J, Li, L, Manichaikul, A., Markus, H.S., Marston, N.A., Meitinger, T., Mitchell, B.D., Montellano, F.A., Morisaki, T., Mosley, T.H., Nalls, M.A., Nordestgaard, B.G., O'Donnell, M.J., Okada, Y., Onland-Moret, N.C., Ovbiagele, B., Peters, A., Psaty, B.M., Rich, S.S., Tuladhar, A.M., Leeuw, F.E. de, Dichgans, M., and Debette, S.

Abstract

Item does not contain fulltext, Previous genome-wide association studies (GWASs) of stroke - the second leading cause of death worldwide - were conducted predominantly in populations of European ancestry(1,2). Here, in cross-ancestry GWAS meta-analyses of 110,182 patients who have had a stroke (five ancestries, 33% non-European) and 1,503,898 control individuals, we identify association signals for stroke and its subtypes at 89 (61 new) independent loci: 60 in primary inverse-variance-weighted analyses and 29 in secondary meta-regression and multitrait analyses. On the basis of internal cross-ancestry validation and an independent follow-up in 89,084 additional cases of stroke (30% non-European) and 1,013,843 control individuals, 87% of the primary stroke risk loci and 60% of the secondary stroke risk loci were replicated (P < 0.05). Effect sizes were highly correlated across ancestries. Cross-ancestry fine-mapping, in silico mutagenesis analysis(3), and transcriptome-wide and proteome-wide association analyses revealed putative causal genes (such as SH3PXD2A and FURIN) and variants (such as at GRK5 and NOS3). Using a three-pronged approach(4), we provide genetic evidence for putative drug effects, highlighting F11, KLKB1, PROC, GP1BA, LAMC2 and VCAM1 as possible targets, with drugs already under investigation for stroke for F11 and PROC. A polygenic score integrating cross-ancestry and ancestry-specific stroke GWASs with vascular-risk factor GWASs (integrative polygenic scores) strongly predicted ischaemic stroke in populations of European, East Asian and African ancestry(5). Stroke genetic risk scores were predictive of ischaemic stroke independent of clinical risk factors in 52,600 clinical-trial participants with cardiometabolic disease. Our results provide insights to inform biology, reveal potential drug targets and derive genetic risk prediction tools across ancestries.

Published
2022

24. Effect of physical exercise on cognitive function after chemotherapy in patients with breast cancer: a randomized controlled trial (PAM study)

Author

Koevoets, E.W., Schagen, S.B., Ruiter, M.B de, Geerlings, M.I., Witlox, L., Wall, E. van der, Stuiver, M.M., Sonke, G.S., Velthuis, M.J., Jobsen, J.J., Menke-Pluijmers, M.B., Göker, E., Pol, C.C. van der, Bos, M., Tick, L.W., Holsteijn, N.A. van, Palen, J. van der, Schlooz-Vries, M.S., May, A.M., Monninkhof, E.M., Koevoets, E.W., Schagen, S.B., Ruiter, M.B de, Geerlings, M.I., Witlox, L., Wall, E. van der, Stuiver, M.M., Sonke, G.S., Velthuis, M.J., Jobsen, J.J., Menke-Pluijmers, M.B., Göker, E., Pol, C.C. van der, Bos, M., Tick, L.W., Holsteijn, N.A. van, Palen, J. van der, Schlooz-Vries, M.S., May, A.M., and Monninkhof, E.M.

Abstract

Item does not contain fulltext, BACKGROUND: Up to 60% of breast cancer patients treated with chemotherapy is confronted with cognitive problems, which can have a significant impact on daily activities and quality of life (QoL). We investigated whether exercise training improves cognition in chemotherapy-exposed breast cancer patients 2-4 years after diagnosis. METHODS: Chemotherapy-exposed breast cancer patients, with both self-reported cognitive problems and lower than expected performance on neuropsychological tests, were randomized to an exercise or control group. The 6-month exercise intervention consisted of supervised aerobic and strength training (2 h/week), and Nordic/power walking (2 h/week). Our primary outcome was memory functioning (Hopkins Verbal Learning Test-Revised; HVLT-R). Secondary outcomes included online neuropsychological tests (Amsterdam Cognition Scan; ACS), self-reported cognition (MD Anderson Symptom Inventory for multiple myeloma; MDASI-MM), physical fitness (relative maximum oxygen uptake; VO(2peak)), fatigue (Multidimensional Fatigue Inventory), QoL (European Organisation for Research and Treatment of Cancer Quality of Life Questionnaire; EORTC QLQ C-30), depression (Patient Health Questionnaire-9, Hospital Anxiety and Depression Scale; HADS), and anxiety (HADS). HVLT-R total recall was analyzed with a Fisher exact test for clinically relevant improvement (≥ 5 words). Other outcomes were analyzed using multiple regression analyses adjusted for baseline and stratification factors. RESULTS: We randomized 181 patients to the exercise (n = 91) or control group (n = 90). Two-third of the patients attended ≥ 80% of the exercise sessions, and physical fitness significantly improved compared to control patients (B VO(2peak) 1.4 ml/min/kg, 95%CI:0.6;2.2). No difference in favor of the intervention group was seen on the primary outcome. Significant beneficial intervention effects were found for self-reported cognitive functioning [MDASI-MM severity (B-0.7, 95% CI - 1.2; - 0.1)]

Published
2022

26. Chronic neuropsychiatric sequelae of SARS‐CoV‐2: Protocol and methods from the Alzheimer's Association Global Consortium

Author

de Erausquin, G.A., Snyder, H., Brugha, T.S., Seshadri, S., Carrillo, M., Sagar, R., Huang, Y., Newton, C., Tartaglia, C., Teunissen, C., Håkanson, K., Akinyemi, R., Prasad, K., D'Avossa, G., Gonzalez‐Aleman, G., Hosseini, A., Vavougios, G.D., Sachdev, P., Bankart, J., Mors, N.P.O., Lipton, R., Katz, M., Fox, P.T., Katshu, M.Z., Iyengar, M.S., Weinstein, G., Sohrabi, H.R., Jenkins, R., Stein, D.J., Hugon, J., Mavreas, V., Blangero, J., Cruchaga, C., Krishna, M., Wadoo, O., Becerra, R., Zwir, I., Longstreth, W.T., Kroenenberg, G., Edison, P., Mukaetova‐Ladinska, E., Staufenberg, E., Figueredo‐Aguiar, M., Yécora, A., Vaca, F., Zamponi, H.P., Re, V.L., Majid, A., Sundarakumar, J., Gonzalez, H.M., Geerlings, M.I., Skoog, I., Salmoiraghi, A., Boneschi, F.M., Patel, V.N., Santos, J.M., Arroyo, G.R., Moreno, A.C., Felix, P., Gallo, C., Arai, H., Yamada, M., Iwatsubo, T., Sharma, M., Chakraborty, N., Ferreccio, C., Akena, D., Brayne, C., Maestre, G., Blangero, S.W., Brusco, L.I., Siddarth, P., Hughes, T.M., Zuñiga, A.R., Kambeitz, J., Laza, A.R., Allen, N., Panos, S., Merrill, D., Ibáñez, A., Tsuang, D., Valishvili, N., Shrestha, S., Wang, S., Padma, V., Anstey, K.J., Ravindrdanath, V., Blennow, K., Mullins, P., Łojek, E., Pria, A., Mosley, T.H., Gowland, P., Girard, T.D., Bowtell, R., Vahidy, F.S., de Erausquin, G.A., Snyder, H., Brugha, T.S., Seshadri, S., Carrillo, M., Sagar, R., Huang, Y., Newton, C., Tartaglia, C., Teunissen, C., Håkanson, K., Akinyemi, R., Prasad, K., D'Avossa, G., Gonzalez‐Aleman, G., Hosseini, A., Vavougios, G.D., Sachdev, P., Bankart, J., Mors, N.P.O., Lipton, R., Katz, M., Fox, P.T., Katshu, M.Z., Iyengar, M.S., Weinstein, G., Sohrabi, H.R., Jenkins, R., Stein, D.J., Hugon, J., Mavreas, V., Blangero, J., Cruchaga, C., Krishna, M., Wadoo, O., Becerra, R., Zwir, I., Longstreth, W.T., Kroenenberg, G., Edison, P., Mukaetova‐Ladinska, E., Staufenberg, E., Figueredo‐Aguiar, M., Yécora, A., Vaca, F., Zamponi, H.P., Re, V.L., Majid, A., Sundarakumar, J., Gonzalez, H.M., Geerlings, M.I., Skoog, I., Salmoiraghi, A., Boneschi, F.M., Patel, V.N., Santos, J.M., Arroyo, G.R., Moreno, A.C., Felix, P., Gallo, C., Arai, H., Yamada, M., Iwatsubo, T., Sharma, M., Chakraborty, N., Ferreccio, C., Akena, D., Brayne, C., Maestre, G., Blangero, S.W., Brusco, L.I., Siddarth, P., Hughes, T.M., Zuñiga, A.R., Kambeitz, J., Laza, A.R., Allen, N., Panos, S., Merrill, D., Ibáñez, A., Tsuang, D., Valishvili, N., Shrestha, S., Wang, S., Padma, V., Anstey, K.J., Ravindrdanath, V., Blennow, K., Mullins, P., Łojek, E., Pria, A., Mosley, T.H., Gowland, P., Girard, T.D., Bowtell, R., and Vahidy, F.S.

Abstract

Introduction Coronavirus disease 2019 (COVID-19) has caused >3.5 million deaths worldwide and affected >160 million people. At least twice as many have been infected but remained asymptomatic or minimally symptomatic. COVID-19 includes central nervous system manifestations mediated by inflammation and cerebrovascular, anoxic, and/or viral neurotoxicity mechanisms. More than one third of patients with COVID-19 develop neurologic problems during the acute phase of the illness, including loss of sense of smell or taste, seizures, and stroke. Damage or functional changes to the brain may result in chronic sequelae. The risk of incident cognitive and neuropsychiatric complications appears independent from the severity of the original pulmonary illness. It behooves the scientific and medical community to attempt to understand the molecular and/or systemic factors linking COVID-19 to neurologic illness, both short and long term. Methods This article describes what is known so far in terms of links among COVID-19, the brain, neurological symptoms, and Alzheimer's disease (AD) and related dementias. We focus on risk factors and possible molecular, inflammatory, and viral mechanisms underlying neurological injury. We also provide a comprehensive description of the Alzheimer's Association Consortium on Chronic Neuropsychiatric Sequelae of SARS-CoV-2 infection (CNS SC2) harmonized methodology to address these questions using a worldwide network of researchers and institutions. Results Successful harmonization of designs and methods was achieved through a consensus process initially fragmented by specific interest groups (epidemiology, clinical assessments, cognitive evaluation, biomarkers, and neuroimaging). Conclusions from subcommittees were presented to the whole group and discussed extensively. Presently data collection is ongoing at 19 sites in 12 countries representing Asia, Africa, the Americas, and Europe. Discussion The Alzheimer's Association Global Consortium harmoni

Published
2022

30. Reduced parenchymal cerebral blood flow is associated with greater progression of brain atrophy: The SMART-MR study

Author

Ghaznawi, R., Zwartbol, M.H.T., Zuithoff, N.P.A., Bresser, J. de, Hendrikse, J., Geerlings, M.I., and UCC-SMART Study Grp

Subjects
Adult, Male, medicine.medical_specialty, 03 medical and health sciences, 0302 clinical medicine, Atrophy, cohort studies, Internal medicine, Parenchyma, medicine, Humans, magnetic resonance imaging, Longitudinal Studies, Prospective Studies, Prospective cohort study, Aged, 030304 developmental biology, 0303 health sciences, medicine.diagnostic_test, business.industry, Brain, Magnetic resonance imaging, Original Articles, Middle Aged, Cerebral blood flow, medicine.disease, Neurology, Cerebrovascular Circulation, Brain size, Disease Progression, Etiology, Cardiology, Female, epidemiology, Neurology (clinical), Cardiology and Cardiovascular Medicine, business, brain atrophy, 030217 neurology & neurosurgery, Cohort study
Abstract

Global cerebral hypoperfusion may be involved in the aetiology of brain atrophy; however, long-term longitudinal studies on this relationship are lacking. We examined whether reduced cerebral blood flow was associated with greater progression of brain atrophy. Data of 1165 patients (61 ± 10 years) from the SMART-MR study, a prospective cohort study of patients with arterial disease, were used of whom 689 participated after 4 years and 297 again after 12 years. Attrition was substantial. Total brain volume and total cerebral blood flow were obtained from magnetic resonance imaging scans and expressed as brain parenchymal fraction (BPF) and parenchymal cerebral blood flow (pCBF). Mean decrease in BPF per year was 0.22% total intracranial volume (95% CI: –0.23 to –0.21). Mean decrease in pCBF per year was 0.24 ml/min per 100 ml brain volume (95% CI: –0.29 to –0.20). Using linear mixed models, lower pCBF at baseline was associated with a greater decrease in BPF over time ( p = 0.01). Lower baseline BPF, however, was not associated with a greater decrease in pCBF ( p = 0.43). These findings indicate that reduced cerebral blood flow is associated with greater progression of brain atrophy and provide further support for a role of cerebral blood flow in the process of neurodegeneration.

Published
2020
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31. Depression in stroke survivors

Author

Bekker, A. de, Geerlings, M.I., Uitewaal-Poslawsky, I.E., and Man-van Ginkel, J.M. de

Subjects
Natural course, Physical function, PHQ-9, Post stroke depression
Abstract

Objectives: Stroke is the second most common cause of death and a major cause of disability. Besides the physical consequences, depressive symptoms are frequent in the aftermath after stroke. Every year, approximately 15 million stroke survivors worldwide are at risk of developing post-stroke depression. In this study we describe the natural course of depressive symptoms in stroke patients over a long period of time post stroke and identify associated determinants. Materials and methods: From the Second Manifestations of ARTerial disease-Memory, depression and aging (SMART-Medea) study, an observational prospective cohort study, we selected patients with cerebrovascular disease, and used the biannually collected data of the Patient Health Questionnaire-9 for depressive symptoms. A score of >10 indicated the presence of depressive symptoms. A multinomial logistic regression analysis was used to identify prognostic determinants for courses of depressive symptoms after stroke. Results: During a mean follow-up time of 7.9 years, 62% of the 172 participants was never depressed, 19% had a single episode and 19% had recurrent depressive symptoms. Physical function was associated with increased risk for single episode and recurrent depressive symptoms (OR=1.06 [1.01-1.11]). OR's for social, mental and (vascular) comorbidities variables were not significant. Participants' physical function was only measured at baseline. Several relevant variables were not present in this dataset, including information about clinical events during follow-up. Conclusion: Nearly 40% of the participants are confronted with depressive symptoms on the long-term. Physical function plays a substantial part for stroke survivors in the development of these symptoms.

Published
2022

32. Depression and Dementia:The Role of Cortisol and Vascular Brain Lesions. AGES-Reykjavik Study

Author

Gerritsen, L., Twait, E.L., Jonsson, P.V., Gudnason, V., Launer, L.J., Geerlings, M.I., Leerstoel Engelhard, Experimental psychopathology, General practice, Psychiatry, and Epidemiology and Data Science

Subjects
Male, Depressive Disorder, Major, Hydrocortisone, Cerebrovascular disorders, General Neuroscience, Neuroscience(all), Iceland, Brain, General Medicine, Magnetic Resonance Imaging, White Matter, Interviews as Topic, Clinical Psychology, Psychiatry and Mental health, cohort studies, Risk Factors, mental disorders, depression, Humans, Female, Longitudinal Studies, Geriatrics and Gerontology, Aged, dementia
Abstract

BACKGROUND: Late-life depression (LLD) is related to an increased risk of developing dementia; however, the biological mechanisms explaining this relationship remain unclear.OBJECTIVE: To determine whether the relationship between LLD and dementia can be best explained by the glucocorticoid cascade or vascular hypothesis.METHODS: Data are from 4,354 persons (mean age 76±5 years) without dementia at baseline from the AGES-Reykjavik Study. LLD was assessed with the MINI diagnostic interview (current and remitted major depressive disorder [MDD]) and the Geriatric Depression Scale-15. Morning and evening salivary cortisol were collected (glucocorticoid cascade hypothesis). White matter hyperintensities (WMH; vascular hypothesis) volume was assessed using 1.5T brain MRI. Using Cox proportional hazard models, we estimated the associations of LLD, cortisol levels, and WMH volume with incident all-cause dementia, AD, and non-AD dementia.RESULTS: During 8.8±3.2 years of follow-up, 843 persons developed dementia, including 397 with AD. Current MDD was associated with an increased risk of developing all-cause dementia (HR = 2.17; 95% CI 1.66-2.67), with risks similar for AD and non-AD, while remitted MDD was not (HR = 1.02; 95% CI 0.55-1.49). Depressive symptoms were also associated with increased risk of dementia, in particular non-AD dementias. Higher levels of evening cortisol increased risk of dementia, but this was independent of MDD. WMH partially explained the relation between current MDD and dementia risk but remained increased (HR = 1.71; 95% CI 1.34-2.08).CONCLUSION: The current study highlights the importance of LLD in developing dementia. However, neither the glucocorticoid cascade nor the vascular hypotheses fully explained the relation between depression and dementia.

Published
2022
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34. The Role of Cognitive and Brain Reserve in Memory Decline and Atrophy Rate in Mid and Late-life: The SMART-MR study

Author

Vonk, Jet M.J., primary, Ghaznawi, Rashid, additional, Zwartbol, Maarten H.T., additional, Stern, Yaakov, additional, Geerlings, Mirjam I., additional, Asselbergs, F.W., additional, Nathoe, H.M., additional, de Borst, G.J., additional, Bots, M.L., additional, Geerlings, M.I., additional, Emmelot, M.H., additional, de Jong, P.A., additional, Leiner, T., additional, Lely, A.T., additional, van der Kaaij, N.P., additional, Kappelle, L.J., additional, Ruigrok, Y., additional, Verhaar, M.C., additional, Visseren, F.L.J., additional, and Westerink, J., additional

Published
2022
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35. Chronic kidney disease and atrial fibrillation: A dangerous combination

Author

Ocak, G., Khairoun, M., Khairoun, O., Bos, W.J.W., Fu, E.L., Cramer, M.J., Westerink, J., Verhaar, M.C., Visseren, F.L., Asselbergs, F.W., Nathoe, H.M., Borst, G.J. de, Bots, M.L., Geerlings, M.I., Emmelot, M.H., Jong, P.A. de, Leiner, T., Lely, A.T., Kaaij, N.P. van der, Kappelle, L.J., Ruigrok, Y.M., Visseren, F.L.J., and UCC-SMART Study Grp

Subjects
Stroke, Multidisciplinary, Risk Factors, Atrial Fibrillation, Anticoagulants, Humans, Hemorrhage, Renal Insufficiency, Chronic, Ischemic Stroke
Abstract

Background Chronic kidney disease (CKD) and atrial fibrillation (AF) are both risk factors for bleeding, stroke and mortality. The aim of our study was to investigate the interaction between CKD and atrial fibrillation and outcomes. Methods We included 12,394 subjects referred to the University Medical Center Utrecht (the Netherlands) from September 1996 to February 2018 for an out-patient visit (Utrecht Cardiovascular Cohort Second Manifestation of Arterial disease cohort). Hazard ratios (HRs) with 95% confidence intervals (CIs) for bleeding, ischemic stroke or mortality were calculated with Cox proportional hazard analyses. Presence of interaction between AF and CKD was examined by calculating the relative excess risk due to interaction (RERI), the attributable proportion (AP) due to interaction and the synergy index (S). Results Of the 12,394 patients, 699 patients had AF, 2,752 patients had CKD and 325 patients had both AF and CKD. Patients with both CKD and AF had a 3.0-fold (95% CI 2.0–4.4) increased risk for bleeding, a 4.2-fold (95% CI 3.0–6.0) increased ischemic stroke risk and a 2.2-fold (95% CI 1.9–2.6) increased mortality risk after adjustment as compared with subjects without atrial fibrillation and CKD. We did not find interaction between AF and CKD for bleeding and mortality. However, we found interaction between AF and CKD for ischemic stroke risk (RERI 1.88 (95% CI 0.31–3.46), AP 0.45 (95% CI 0.17–0.72) and S 2.40 (95% CI 1.08–5.32)). Conclusion AF and CKD are both associated with bleeding, ischemic stroke and mortality. There is a positive interaction between AF and CKD for ischemic stroke risk, but not for bleeding or mortality.

Published
2021

36. Association of white matter hyperintensity markers on MRI and long-term risk of mortality and ischemic stroke the SMART-MR study

Author

Ghaznawi, R., Geerlings, M.I., Jaarsma-Coes, M., Hendrikse, J., Bresser, J. de, and UCC-Smart Study Grp

Subjects
Male, 0301 basic medicine, medicine.medical_specialty, Article, Brain Ischemia, 03 medical and health sciences, 0302 clinical medicine, Risk Factors, Internal medicine, medicine, Risk of mortality, Humans, Aged, Ischemic Stroke, business.industry, Proportional hazards model, Hazard ratio, Leukoaraiosis, Middle Aged, Magnetic Resonance Imaging, White Matter, Confidence interval, Stroke, Long term risk, Cerebrovascular Disorders, 030104 developmental biology, White matter hyperintensity, Automated algorithm, Ischemic stroke, Cardiology, Female, Neurology (clinical), business, Biomarkers, 030217 neurology & neurosurgery
Abstract

ObjectiveTo determine whether white matter hyperintensity (WMH) markers on MRI are associated with long-term risk of mortality and ischemic stroke.MethodsWe included consecutive patients with manifest arterial disease enrolled in the Second Manifestations of Arterial Disease–Magnetic Resonance (SMART-MR) study. We obtained WMH markers (volume, type, and shape) from brain MRI scans performed at baseline using an automated algorithm. During follow-up, occurrence of death and ischemic stroke was recorded. Using Cox regression, we investigated associations of WMH markers with risk of mortality and ischemic stroke, adjusting for demographics, cardiovascular risk factors, and cerebrovascular disease.ResultsWe included 999 patients (59 ± 10 years; 79% male) with a median follow-up of 12.5 years (range 0.2–16.0 years). A greater periventricular or confluent WMH volume was independently associated with a greater risk of vascular death (hazard ratio [HR] 1.29, 95% confidence interval [CI] 1.13–1.47) for a 1-unit increase in natural log-transformed WMH volume and ischemic stroke (HR 1.53, 95% CI 1.26–1.86). A confluent WMH type was independently associated with a greater risk of vascular (HR 1.89, 95% CI 1.15-3.11) and nonvascular death (HR 1.65, 95% CI 1.01–2.73) and ischemic stroke (HR 2.83, 95% CI 1.36-5.87). A more irregular shape of periventricular or confluent WMH, as expressed by an increase in concavity index, was independently associated with a greater risk of vascular (HR 1.20, 95% CI 1.05–1.38 per SD increase) and nonvascular death (HR 1.21, 95% CI 1.03–1.42) and ischemic stroke (HR 1.28, 95% CI 1.05–1.55).ConclusionsWMH volume, type, and shape are associated with long-term risk of mortality and ischemic stroke in patients with manifest arterial disease.

Published
2021

37. Cortical cerebral microinfarcts on 7T MRI: Risk factors, neuroimaging correlates and cognitive functioning - The Medea-7T study

Author

Zwartbol, M.H.T., Rissanen, I., Ghaznawi, R., Bresser, J. de, Kuijf, H.J., Blom, K., Witkamp, T.D., Koek, H.L., Biessels, G.J., Hendrikse, J., Geerlings, M.I., and UCC-SMART Study Grp

Subjects
cardiovascular risk factors, Brain Infarction, Male, Large vessel, Neuroimaging, Disease, 030204 cardiovascular system & hematology, Neuropsychological Tests, cognitive functioning, Cohort Studies, 03 medical and health sciences, 0302 clinical medicine, Cognition, Memory, cerebrovascular disease, cognitive functioning, dementia, cardiovascular risk factors, Medicine, Humans, Cognitive skill, Aged, Netherlands, Aged, 80 and over, Cerebral Cortex, business.industry, Original Articles, Middle Aged, Magnetic Resonance Imaging, cerebrovascular disease, Stroke, Cerebrovascular Disorders, Microinfarcts, Neurology, Heart Disease Risk Factors, Ischemic Attack, Transient, Cerebrovascular Circulation, Dementia, Female, Neurology (clinical), Cardiology and Cardiovascular Medicine, business, Neuroscience, 030217 neurology & neurosurgery
Abstract

We determined the occurrence and association of cortical cerebral microinfarcts (CMIs) at 7 T MRI with risk factors, neuroimaging markers of small and large vessel disease, and cognitive functioning. Within the Medea-7T study, a diverse cohort of older persons with normal cognition, patients with vascular disease, and memory clinic patients, we included 386 participants (68 ± 9 years) with available 7 T and 1.5 T/3T brain MRI, and risk factor and neuropsychological data. CMIs were found in 10% of participants and were associated with older age (RR = 1.79 per +10 years, 95%CI 1.28–2.50), history of stroke or TIA (RR = 4.03, 95%CI 2.18–7.43), cortical infarcts (RR = 5.28, 95%CI 2.91–9.55), lacunes (RR = 5.66, 95%CI 2.85–11.27), cerebellar infarcts (RR = 2.73, 95%CI 1.27–5.84) and decreased cerebral blood flow (RR = 1.35 per −100 ml/min, 95%CI 1.00–1.83), after adjustment for age and sex. Furthermore, participants with >2 CMIs had 0.5 SD (95%CI 0.05–0.91) lower global cognitive performance, compared to participants without CMIs. Our results indicate that CMIs on 7 T MRI are observed in vascular and memory clinic patients with similar frequency, and are associated with older age, history of stroke or TIA, other brain infarcts, and poorer global cognitive functioning.

Published
2021
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39. Dietary intake of [B.sub.6-9-12] vitamins, serum homocysteine levels and their association with depressive symptoms: the Zutphen Elderly study

Author

Kamphuis, M.H., Geerlings, M.I., Grobbee, D.E., and Kromhout, D.

Subjects
Folic acid -- Properties, Homocysteine -- Measurement, Aged men -- Food and nutrition, Depression, Mental -- Influence
Abstract

Objective: Low B-vitamin status and high levels of serum homocysteine are found in depressed inpatients, but results of population-based studies of this association are inconclusive. We investigated whether a low dietary intake of [B.sub.6-9-12] vitamins and high levels of serum homocysteine are associated with depressive symptoms in elderly men. Methods: The study sample included a total of 332 men aged 70-90 years who were free from cardiovascular diseases and diabetes at baseline in 1990. Depressive symptoms were measured with the Zung Self-rating Depression Scale at baseline in 1990 and dietary factors with the crosscheck dietary history method in 1985 and 1990. Serum levels of homocysteine were obtained in 1985. Multiple linear and logistic regression analyses were performed. Results: Dietary intake of folate (-1.19, 95% CI -2.03; -0.36) and vitamin [B.sub.6] (-2.09, 95% CI -2.92; -1.26) per standard deviation increase was associated with lower levels of serum homocysteine, while vitamin [B.sub.12] was not associated with serum homocysteine. Intake of folate, vitamin [B.sub.6], vitamin [B.sub.12] and levels of serum homocysteine were not related to depressive symptoms. Conclusions: Our results do not support the hypothesis that a low dietary intake of [B.sub.6-9-12] vitamins and high levels of serum homocysteine are related to depression in healthy elderly men. doi:10.1038/sj.ejcn.1602804; published online 30 May 2007 Keywords: depressive symptoms; folate; vitamin 136; vitamin 1312; homocysteine, Introduction A low status of folate, vitamin [B.sub.6], vitamin [B.sub.12] ([B.sub.6-9-12] vitamins) and high levels of serum homocysteine may be related to depression. [B.sub.6-9-12] vitamins are co-enzymes and cofactors in [...]

Published
2008

40. Prediction of Lifetime and 10-Year Risk of Cancer in Individual Patients With Established Cardiovascular Disease

Author

van ’t Klooster, Cilie C., primary, Ridker, Paul M., additional, Cook, Nancy R., additional, Aerts, Joachim G.J.V., additional, Westerink, Jan, additional, Asselbergs, Folkert W., additional, van der Graaf, Yolanda, additional, Visseren, Frank L.J., additional, Asselbergs, F.W., additional, Nathoe, H.M., additional, de Borst, G.J., additional, Bots, M.L., additional, Geerlings, M.I., additional, Emmelot, M.H., additional, de Jong, P.A., additional, Leiner, T., additional, Lely, A.T., additional, van der Kaaij, N.P., additional, Kappelle, L.J., additional, Ruigrok, Y., additional, Verhaar, M.C., additional, and Westerink, J., additional

Published
2020
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41. Reply

Author

Zwartbol, M.H.T., primary, van der Kolk, A.G., additional, and Geerlings, M.I., additional

Published
2020
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42. Genetic and lifestyle risk factors for MRI-defined brain infarcts in a population-based setting

Author

Chauhan, G., Adams, H.H.H., Satizabal, C.L., Bis, J.C., Teumer, A., Sargurupremraj, M., Hofer, E., Trompet, S., Hilal, S., Smith, A.V., Jian, X.Q., Malik, R., Traylor, M., Pulit, S.L., Amouyel, P., Mazoyer, B., Zhu, Y.C., Kaffashian, S., Schilling, S., Beecham, G.W., Montine, T.J., Schellenberg, G.D., Kjartansson, O., Gudnason, V., Knopman, D.S., Griswold, M.E., Windham, B.G., Gottesman, R.F., Mosley, T.H., Schmidt, R., Saba, Y., Schmidt, H., Takeuchi, F., Yamaguchi, S., Nabika, T., Kato, N., Rajan, K.B., Aggarwal, N.T., Jager, P.L. de, Evans, D.A., Psaty, B.M., Rotter, J.I., Rice, K., Lopez, O.L., Liao, J.M., Chen, C., Cheng, C.Y., Wong, T.Y., Ikram, M.K., Lee, S.J. van der, Amin, N., Chouraki, V., DeStefano, A.L., Aparicio, H.J., Romero, J.R., Maillard, P., DeCarli, C., Wardlaw, J.M., Hernandez, M.D.V., Luciano, M., Liewald, D., Deary, I.J., Starr, J.M., Bastin, M.E., Maniega, S.M., Slagboom, P.E., Beekman, M., Deelen, J., Uh, H.W., Lemmens, R., Brodaty, H., Wright, M.J., Ames, D., Boncoraglio, G.B., Hopewell, J.C., Beecham, A.H., Blanton, S.H., Wright, C.B., Sacco, R.L., Wen, W., Thalamuthu, A., Armstrong, N.J., Chong, E., Schofield, P.R., Kwok, J.B., Grond, J. van der, Stott, D.J., Ford, I., Jukema, J.W., Vernooij, M.W., Hofman, A., Uitterlinden, A.G., Lugt, A. van der, Wittfeld, K., Grabe, H.J., Hosten, N., Sarnowski, B. von, Volker, U., Levi, C., Jimenez-Conde, J., Sharma, P., Sudlow, C.L.M., Rosand, J., Woo, D., Cole, J.W., Meschia, J.F., Slowik, A., Thijs, V., Lindgren, A., Melander, O., Grewal, R.P., Rundek, T., Rexrode, K., Rothwell, P.M., Arnett, D.K., Jern, C., Johnson, J.A., Benavente, O.R., Wasssertheil-Smoller, S., Lee, J.M., Wong, Q., Mitchell, B.D., Rich, S.S., McArdle, P.F., Geerlings, M.I., Graaf, Y. van der, Bakker, P.I.W. de, Asselbergs, F.W., Srikanth, V., Thomson, R., McWhirter, R., Moran, C., Callisaya, M., Phan, T., Rutten-Jacobs, L.C.A., Bevan, S., Tzourio, C., Mather, K.A., Sachdev, P.S., Duijn, C.M. van, Worrall, B.B., Dichgans, M., Kittner, S.J., Markus, H.S., Ikram, M.A., Fornage, M., Launer, L.J., Seshadri, S., Longstreth, W.T., Debette, S., Stroke Genetics Network SiGN, ISGC, METASTROKE, ADGC, and CHARGE Consortium

Subjects
Meta-analysis, Mendelian Randomization, Blood Pressure, Polymorphisms, Genome-wide Association, Silent, Insights, Small Vessel Disease, Matter Hyperintensity Volume, Ischemic Stroke, Doenças Cardio e Cérebro-vasculares
Abstract

Collaborators (845): Astrid M. Vicente Free PMC article:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6369905/ Objective: To explore genetic and lifestyle risk factors of MRI-defined brain infarcts (BI) in large population-based cohorts. Methods: We performed meta-analyses of genome-wide association studies (GWAS) and examined associations of vascular risk factors and their genetic risk scores (GRS) with MRI-defined BI and a subset of BI, namely, small subcortical BI (SSBI), in 18 population-based cohorts (n = 20,949) from 5 ethnicities (3,726 with BI, 2,021 with SSBI). Top loci were followed up in 7 population-based cohorts (n = 6,862; 1,483 with BI, 630 with SBBI), and we tested associations with related phenotypes including ischemic stroke and pathologically defined BI. Results: The mean prevalence was 17.7% for BI and 10.5% for SSBI, steeply rising after age 65. Two loci showed genome-wide significant association with BI: FBN2, p = 1.77 × 10-8; and LINC00539/ZDHHC20, p = 5.82 × 10-9. Both have been associated with blood pressure (BP)-related phenotypes, but did not replicate in the smaller follow-up sample or show associations with related phenotypes. Age- and sex-adjusted associations with BI and SSBI were observed for BP traits (p value for BI, p [BI] = 9.38 × 10-25; p [SSBI] = 5.23 × 10-14 for hypertension), smoking (p [BI] = 4.4 × 10-10; p [SSBI] = 1.2 × 10-4), diabetes (p [BI] = 1.7 × 10-8; p [SSBI] = 2.8 × 10-3), previous cardiovascular disease (p [BI] = 1.0 × 10-18; p [SSBI] = 2.3 × 10-7), stroke (p [BI] = 3.9 × 10-69; p [SSBI] = 3.2 × 10-24), and MRI-defined white matter hyperintensity burden (p [BI] = 1.43 × 10-157; p [SSBI] = 3.16 × 10-106), but not with body mass index or cholesterol. GRS of BP traits were associated with BI and SSBI (p ≤ 0.0022), without indication of directional pleiotropy. Conclusion: In this multiethnic GWAS meta-analysis, including over 20,000 population-based participants, we identified genetic risk loci for BI requiring validation once additional large datasets become available. High BP, including genetically determined, was the most significant modifiable, causal risk factor for BI. info:eu-repo/semantics/publishedVersion

Published
2019

44. Genetic and lifestyle risk factors for MRI-defined brain infarcts in a population-based setting.

Author

Aparicio H.J., Del C. Valdes Hernandez M., Luciano M., Liewald D., Deary I.J., Starr J.M., Bastin M.E., Maniega S.M., Slagboom P.E., Beekman M., Deelen J., Uh H.-W., Lemmens R., Brodaty H., Wright M.J., Ames D., Boncoraglio G.B., Hopewell J.C., Beecham A.H., Blanton S.H., Wright C.B., Sacco R.L., Wen W., Thalamuthu A., Armstrong N.J., Chong E., Schofield P.R., Kwok J.B., van der Grond J., Stott D.J., Ford I., Jukema J.W., Vernooij M.W., Hofman A., Uitterlinden A.G., van der Lugt A., Wittfeld K., Grabe H.J., Hosten N., von Sarnowski B., Volker U., Levi C., Jimenez-Conde J., Sharma P., Sudlow C.L.M., Rosand J., Woo D., Cole J.W., Meschia J.F., Slowik A., Thijs V., Lindgren A., Melander O., Grewal R.P., Rundek T., Rexrode K., Rothwell P.M., Arnett D.K., Jern C., Johnson J.A., Benavente O.R., Wasssertheil-Smoller S., Lee J.-M., Wong Q., Mitchell B.D., Rich S.S., McArdle P.F., Geerlings M.I., van der Graaf Y., de Bakker P.I.W., Asselbergs F.W., Srikanth V., Thomson R., McWhirter R., Moran C., Callisaya M., Phan T., Rutten-Jacobs L.C.A., Bevan S., Tzourio C., Mather K.A., Sachdev P.S., van Duijn C.M., Worrall B.B., Dichgans M., Kittner S.J., Markus H.S., Ikram M.A., Fornage M., Launer L.J., Seshadri S., Longstreth W.T., Debette S., Chauhan G., Adams H.H.H., Satizabal C.L., Bis J.C., Teumer A., Sargurupremraj M., Hofer E., Trompet S., Hilal S., Smith A.V., Jian X., Malik R., Traylor M., Pulit S.L., Amouyel P., Mazoyer B., Zhu Y.-C., Kaffashian S., Schilling S., Beecham G.W., Montine T.J., Schellenberg G.D., Kjartansson O., Gudnason V., Knopman D.S., Griswold M.E., Windham B.G., Gottesman R.F., Mosley T.H., Schmidt R., Saba Y., Schmidt H., Takeuchi F., Yamaguchi S., Nabika T., Kato N., Rajan K.B., Aggarwal N.T., De Jager P.L., Evans D.A., Psaty B.M., Rotter J.I., Rice K., Lopez O.L., Liao J., Chen C., Cheng C.-Y., Wong T.Y., Ikram M.K., van der Lee S.J., Amin N., Chouraki V., Destefano A.L., Romero J.R., Maillard P., Decarli C., Wardlaw J.M., Aparicio H.J., Del C. Valdes Hernandez M., Luciano M., Liewald D., Deary I.J., Starr J.M., Bastin M.E., Maniega S.M., Slagboom P.E., Beekman M., Deelen J., Uh H.-W., Lemmens R., Brodaty H., Wright M.J., Ames D., Boncoraglio G.B., Hopewell J.C., Beecham A.H., Blanton S.H., Wright C.B., Sacco R.L., Wen W., Thalamuthu A., Armstrong N.J., Chong E., Schofield P.R., Kwok J.B., van der Grond J., Stott D.J., Ford I., Jukema J.W., Vernooij M.W., Hofman A., Uitterlinden A.G., van der Lugt A., Wittfeld K., Grabe H.J., Hosten N., von Sarnowski B., Volker U., Levi C., Jimenez-Conde J., Sharma P., Sudlow C.L.M., Rosand J., Woo D., Cole J.W., Meschia J.F., Slowik A., Thijs V., Lindgren A., Melander O., Grewal R.P., Rundek T., Rexrode K., Rothwell P.M., Arnett D.K., Jern C., Johnson J.A., Benavente O.R., Wasssertheil-Smoller S., Lee J.-M., Wong Q., Mitchell B.D., Rich S.S., McArdle P.F., Geerlings M.I., van der Graaf Y., de Bakker P.I.W., Asselbergs F.W., Srikanth V., Thomson R., McWhirter R., Moran C., Callisaya M., Phan T., Rutten-Jacobs L.C.A., Bevan S., Tzourio C., Mather K.A., Sachdev P.S., van Duijn C.M., Worrall B.B., Dichgans M., Kittner S.J., Markus H.S., Ikram M.A., Fornage M., Launer L.J., Seshadri S., Longstreth W.T., Debette S., Chauhan G., Adams H.H.H., Satizabal C.L., Bis J.C., Teumer A., Sargurupremraj M., Hofer E., Trompet S., Hilal S., Smith A.V., Jian X., Malik R., Traylor M., Pulit S.L., Amouyel P., Mazoyer B., Zhu Y.-C., Kaffashian S., Schilling S., Beecham G.W., Montine T.J., Schellenberg G.D., Kjartansson O., Gudnason V., Knopman D.S., Griswold M.E., Windham B.G., Gottesman R.F., Mosley T.H., Schmidt R., Saba Y., Schmidt H., Takeuchi F., Yamaguchi S., Nabika T., Kato N., Rajan K.B., Aggarwal N.T., De Jager P.L., Evans D.A., Psaty B.M., Rotter J.I., Rice K., Lopez O.L., Liao J., Chen C., Cheng C.-Y., Wong T.Y., Ikram M.K., van der Lee S.J., Amin N., Chouraki V., Destefano A.L., Romero J.R., Maillard P., Decarli C., and Wardlaw J.M.

Abstract

Objective To explore genetic and lifestyle risk factors of MRI-defined brain infarcts (BI) in large population-based cohorts. Methods We performed meta-analyses of genome-wide association studies (GWAS) and examined associations of vascular risk factors and their genetic risk scores (GRS) with MRI-defined BI and a subset of BI, namely, small subcortical BI (SSBI), in 18 population-based cohorts (n=20,949) from 5 ethnicities (3,726 with BI, 2,021 with SSBI). Top loci were followed up in 7 population-based cohorts (n = 6,862; 1,483 with BI, 630 with SBBI), and we tested associations with related phenotypes including ischemic stroke and pathologically defined BI. Results The mean prevalence was 17.7% for BI and 10.5% for SSBI, steeply rising after age 65. Two loci showed genome-wide significant association with BI: FBN2, p = 1.77 x 10-8; and LINC00539/ZDHHC20, p = 5.82 x 10-9. Both have been associated with blood pressure (BP)-related phenotypes, but did not replicate in the smaller follow-up sample or show associations with related phenotypes. Age- and sex-adjusted associations with BI and SSBI were observed for BP traits (p value for BI, p[BI] = 9.38 x 10-25; p [SSBI] = 5.23 x 10-14 for hypertension), smoking (p[BI]= 4.4 x 10-10; p [SSBI] = 1.2 x 10 -4), diabetes (p[BI] = 1.7 x 10 -8; p [SSBI] = 2.8 x 10 -3), previous cardiovascular disease (p [BI] = 1.0 x 10-18; p [SSBI] = 2.3 x 10-7), stroke (p [BI] = 3.9 x 10-69; p [SSBI] = 3.2 x 10 -24), and MRI-defined white matter hyperintensity burden (p [BI]=1.43 x 10-157; p [SSBI] = 3.16 x 10-106), but not with body mass index or cholesterol. GRS of BP traits were associated with BI and SSBI (p <= 0.0022), without indication of directional pleiotropy. Conclusion In this multiethnic GWAS meta-analysis, including over 20,000 population-based participants, we identified genetic risk loci for BI requiring validation once additional large datasets become available. High BP, including genetically determined, was the most significa

Published
2019

45. MRI phenotypes of the brain are related to future stroke and mortality in patients with manifest arterial disease: The SMART-MR study

Author

Jaarsma-Coes, M.G., Ghaznawi, R., Hendrikse, J., Slump, C., Witkamp, T.D., Graaf, Y. van der, Geerlings, M.I., Bresser, J. de, Algra, A., Grobbee, D.E., Rutten, G.E.H.M., Visseren, F.L.J., Borst, G.J. de, Kappelle, L.J., Leiner, T., Doevendans, P.A., and Second Manifestn ARTerial Dis SMAR

Subjects
Male, medicine.medical_specialty, Arterial disease, Clinical Neurology, Brain imaging, 03 medical and health sciences, 0302 clinical medicine, Neuroimaging, Risk Factors, Internal medicine, medicine, Journal Article, Humans, In patient, Prospective Studies, Mortality, Stroke, Aged, medicine.diagnostic_test, business.industry, Brain, Magnetic resonance imaging, Cerebral Infarction, Original Articles, Middle Aged, medicine.disease, Neurovascular bundle, Phenotype, Magnetic Resonance Imaging, Neurology, Patient outcomes, Cardiology, Female, Neurology (clinical), atherosclerosis, business, Cardiology and Cardiovascular Medicine, 030217 neurology & neurosurgery, patient outcome, cluster analysis
Abstract

Neurodegenerative and neurovascular diseases lead to heterogeneous brain abnormalities. A combined analysis of these abnormalities by phenotypes of the brain might give a more accurate representation of the underlying aetiology. We aimed to identify different MRI phenotypes of the brain and assessed the risk of future stroke and mortality within these subgroups. In 1003 patients (59 ± 10 years) from the Second Manifestations of ARTerial disease-Magnetic Resonance (SMART-MR) study, different quantitative 1.5T brain MRI markers were used in a hierarchical clustering analysis to identify 11 distinct subgroups with a different distribution in brain MRI markers and cardiovascular risk factors, and a different risk of stroke (Cox regression: from no increased risk compared to the reference group with relatively few brain abnormalities to HR = 10.34; 95% CI 3.80↔28.12 for the multi-burden subgroup) and mortality (from no increased risk compared to the reference group to HR = 4.00; 95% CI 2.50↔6.40 for the multi-burden subgroup). In conclusion, within a group of patients with manifest arterial disease, we showed that different MRI phenotypes of the brain can be identified and that these were associated with different risks of future stroke and mortality. These MRI phenotypes can possibly classify individual patients and assess their risk of future stroke and mortality.

Published
2018

46. The association between lacunes and white matter hyperintensity features on MRI: The SMART-MR study

Author

Ghaznawi, R., Geerlings, M.I., Jaarsma-Coes, M.G., Zwartbol, M.H.T., Kuijf, H.J., Graaf, Y. van der, Witkamp, T.D., Hendrikse, J., Bresser, J. de, Petersen, R. van, Dinther, B.G.F., Algra, A., Grobbee, D.E., Rutten, G.E.H.M., Visseren, F.L.J., Borst, G.J. de, Kappelle, L.J., Leiner, T., Doevendans, P.A., and SMART Study Grp

Subjects
Male, medicine.medical_specialty, Neurology, Clinical Neurology, lacunes, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Internal medicine, medicine, Humans, In patient, Poisson regression, Aged, medicine.diagnostic_test, business.industry, Vascular disease, Leukoaraiosis, Magnetic resonance imaging, Original Articles, Middle Aged, white matter hyperintensities, medicine.disease, Magnetic Resonance Imaging, White Matter, Hyperintensity, Small vessel disease, cerebrovascular disease, Increased risk, White matter hyperintensity, Cerebral Small Vessel Diseases, symbols, Cardiology, Female, Neurology (clinical), business, Cardiology and Cardiovascular Medicine, 030217 neurology & neurosurgery
Abstract

Lacunes and white matter hyperintensities (WMHs) are features of cerebral small vessel disease (CSVD) that are associated with poor functional outcomes. However, how the two are related remains unclear. In this study, we examined the association between lacunes and several WMH features in patients with a history of vascular disease. A total of 999 patients (mean age 59 ± 10 years) with a 1.5 T brain magnetic resonance imaging (MRI) scan were included from the SMART-MR study. Lacunes were scored visually and WMH features (volume, subtype and shape) were automatically determined. Analyses consisted of linear and Poisson regression adjusted for age, sex, and total intracranial volume (ICV). Patients with lacunes (n = 188; 19%) had greater total (B = 1.03, 95% CI: 0.86 to 1.21), periventricular/confluent (B = 1.08, 95% CI: 0.89 to 1.27), and deep (B = 0.71, 95% CI: 0.44 to 0.97) natural log-transformed WMH volumes than patients without lacunes. Patients with lacunes had an increased risk of confluent type WMHs (RR = 2.41, 95% CI: 1.98 to 2.92) and deep WMHs (RR = 1.41, 95% CI: 1.22 to 1.62) and had a more irregular shape of confluent WMHs than patients without lacunes, independent of total WMH volume. In conclusion, we found that lacunes on MRI were associated with WMH features that correspond to more severe small vessel changes, mortality, and poor functional outcomes.

Published
2018

49. Longitudinal Relationship Between Cerebral Small-Vessel Disease and Cerebral Blood Flow

Author

Veen, P.H. van der, Muller, M., Vincken, K.L., Hendrikse, J., Mali, W.P.T.M., Graaf, Y. van der, Geerlings, M.I., SMART Study Grp, Internal medicine, and ICaR - Circulation and metabolism

Subjects
Male, Pathology, Arterial disease, Disease, AMYLOID ANGIOPATHY, Cohort Studies, Risk Factors, SMART-MR, PERFUSION, WHITE-MATTER HYPERINTENSITIES, magnetic resonance imaging, Longitudinal Studies, Prospective Studies, BRAIN, medicine.diagnostic_test, cerebral small vessel disease, OXYGEN-METABOLISM, Age Factors, CEREBROVASCULAR REACTIVITY, Middle Aged, White Matter, Cerebral blood flow, Cerebrovascular Circulation, Brain size, Cardiology, Female, Cerebral Arterial Diseases, Cardiology and Cardiovascular Medicine, Perfusion, medicine.medical_specialty, CIRCULATION, COGNITIVE PERFORMANCE, Sex Factors, Internal medicine, Journal Article, medicine, Humans, Aged, Advanced and Specialized Nursing, LESIONS, business.industry, Magnetic resonance imaging, Hyperintensity, Cerebral Small Vessel Diseases, Stroke, Lacunar, Neurology (clinical), Small vessel, atherosclerosis, business, Follow-Up Studies
Abstract

Background and Purpose— Cerebral small-vessel disease and cerebral blood flow (CBF) are interrelated. However, the direction of the relationship is unknown, and longitudinal studies are scarce. We investigated the longitudinal relationship between CBF and white matter hyperintensities (WMHs) and lacunes, as representatives of cerebral small-vessel disease, in patients with manifest arterial disease. Methods— Within the Second Manifestations of Arterial Disease-Magnetic Resonance (SMART-MR) study, 1.5T brain magnetic resonance imaging, including an MR angiography, was obtained at baseline and after on ≈3.9 years of follow-up in 575 patients with manifest arterial disease (mean age, 57±10 years). Longitudinal associations of WMHs and lacunes with parenchymal CBF (pCBF; per 100-mL brain volume) were estimated using regression analyses, adjusted for age, sex, follow-up time, and baseline brain measures. Results— Baseline pCBF was not associated with progression of WMHs and lacunes over time. However, periventricular and deep WMHs at baseline were associated with decline in pCBF; mean (95% confidence interval) decline in pCBF per % intracranial volume increase in periventricular and deep WMH volume was −0.70 (−1.40 to −0.00) and −1.01 (−1.64 to −0.38) mL/min per 100-mL brain volume, respectively. These associations were partly explained by cardiovascular risk factors but remained significant for deep WMHs (mean decline [95% confidence interval] in pCBF per % intracranial volume increase in deep WMH volume was −0.92 [−1.56 to −0.28] mL/min per 100-mL brain volume). Lacunes were not associated with change in pCBF. Conclusions— In patients with manifest arterial disease, baseline periventricular and deep WMH volumes were associated with decline in pCBF over time, but baseline pCBF was not associated with progression of WMHs and lacunes over time.

Published
2015
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