Your search keyword '"Gesierich, B."' showing total 102 results

1. Disentangling the effects of Alzheimer's and small vessel disease on white matter fibre tracts.

Author

Dewenter, A., Jacob, M.A., Cai, M., Gesierich, B., Hager, P., Kopczak, A., Biel, D., Ewers, M., Tuladhar, A.M., Leeuw, F.E. de, Dichgans, M., Franzmeier, N., Duering, M., Dewenter, A., Jacob, M.A., Cai, M., Gesierich, B., Hager, P., Kopczak, A., Biel, D., Ewers, M., Tuladhar, A.M., Leeuw, F.E. de, Dichgans, M., Franzmeier, N., and Duering, M.

Abstract

Item does not contain fulltext, Alzheimer's disease and cerebral small vessel disease are the two leading causes of cognitive decline and dementia and coexist in most memory clinic patients. White matter damage as assessed by diffusion MRI is a key feature in both Alzheimer's and cerebral small vessel disease. However, disease-specific biomarkers of white matter alterations are missing. Recent advances in diffusion MRI operating on the fixel level (fibre population within a voxel) promise to advance our understanding of disease-related white matter alterations. Fixel-based analysis allows derivation of measures of both white matter microstructure, measured by fibre density, and macrostructure, measured by fibre-bundle cross-section. Here, we evaluated the capacity of these state-of-the-art fixel metrics to disentangle the effects of cerebral small vessel disease and Alzheimer's disease on white matter integrity. We included three independent samples (total n = 387) covering genetically defined cerebral small vessel disease and age-matched controls, the full spectrum of biomarker-confirmed Alzheimer's disease including amyloid- and tau-PET negative controls and a validation sample with presumed mixed pathology. In this cross-sectional analysis, we performed group comparisons between patients and controls and assessed associations between fixel metrics within main white matter tracts and imaging hallmarks of cerebral small vessel disease (white matter hyperintensity volume, lacune and cerebral microbleed count) and Alzheimer's disease (amyloid- and tau-PET), age and a measure of neurodegeneration (brain volume). Our results showed that (i) fibre density was reduced in genetically defined cerebral small vessel disease and strongly associated with cerebral small vessel disease imaging hallmarks; (ii) fibre-bundle cross-section was mainly associated with brain volume; and (iii) both fibre density and fibre-bundle cross-section were reduced in the presence of amyloid, but not further exacerbated by abno

Published

2023

2. Resting-state global functional connectivity as a biomarker of cognitive reserve in mild cognitive impairment

Author

Franzmeier, N., Caballero, M. Á. Araque, Taylor, A. N. W., Simon-Vermot, L., Buerger, K., Ertl-Wagner, B., Mueller, C., Catak, C., Janowitz, D., Baykara, E., Gesierich, B., Duering, M., Ewers, M., and for the Alzheimer’s Disease Neuroimaging Initiative

Published

2017

3. Systematic validation of structural brain networks in cerebral small vessel disease

Author

Dewenter, A., Gesierich, B., Telgte, A. ter, Wiegertjes, K., Cai, M., Jacob, M.A., Marques, J.P., Norris, D.G., Franzmeier, N., Leeuw, F.E. de, Tuladhar, A.M., Duering, M., Dewenter, A., Gesierich, B., Telgte, A. ter, Wiegertjes, K., Cai, M., Jacob, M.A., Marques, J.P., Norris, D.G., Franzmeier, N., Leeuw, F.E. de, Tuladhar, A.M., and Duering, M.

Abstract

Contains fulltext : 252107.pdf (Publisher’s version ) (Open Access), Cerebral small vessel disease (SVD) is considered a disconnection syndrome, which can be quantified using structural brain network analysis obtained from diffusion MRI. Network analysis is a demanding analysis approach and the added benefit over simpler diffusion MRI analysis is largely unexplored in SVD. In this pre-registered study, we assessed the clinical and technical validity of network analysis in two non-overlapping samples of SVD patients from the RUN DMC study (n = 52 for exploration and longitudinal analysis and n = 105 for validation). We compared two connectome pipelines utilizing single-shell or multi-shell diffusion MRI, while also systematically comparing different node and edge definitions. For clinical validation, we assessed the added benefit of network analysis in explaining processing speed and in detecting short-term disease progression. For technical validation, we determined test-retest repeatability.Our findings in clinical validation show that structural brain networks provide only a small added benefit over simpler global white matter diffusion metrics and do not capture short-term disease progression. Test-retest reliability was excellent for most brain networks. Our findings question the added value of brain network analysis in clinical applications in SVD and highlight the utility of simpler diffusion MRI based markers.

Published

2022

4. Assessing cortical cerebral microinfarcts on iron-sensitive MRI in cerebral small vessel disease

Author

Wiegertjes, K., Chan, K., Telgte, A. ter, Gesierich, B., Norris, D.G., Klijn, C.J.M., Duering, M., Tuladhar, A.M., Marques, J.P., Leeuw, H.F. de, Wiegertjes, K., Chan, K., Telgte, A. ter, Gesierich, B., Norris, D.G., Klijn, C.J.M., Duering, M., Tuladhar, A.M., Marques, J.P., and Leeuw, H.F. de

Abstract

Item does not contain fulltext, Recent studies suggest that a subset of cortical microinfarcts may be identifiable on T2* but invisible on T1 and T2 follow-up images. We aimed to investigate whether cortical microinfarcts are associated with iron accumulation after the acute stage. The RUN DMC - InTENse study is a serial MRI study including individuals with cerebral small vessel disease (SVD). 54 Participants underwent 10 monthly 3 T MRIs, including diffusion-weighted imaging, quantitative R1 (=1/T1), R2 (=1/T2), and R2* (=1/T2*) mapping, from which MRI parameters within areas corresponding to microinfarcts and control region of interests (ROIs) were retrieved within 16 participants. Finally, we compared pre- and post-lesional values with repeated measures ANOVA and post-hoc paired t-tests using the mean difference between lesion and control ROI values. We observed 21 acute cortical microinfarcts in 7 of the 54 participants (median age 69 years [IQR 66-74], 63% male). R2* maps demonstrated an increase in R2* values at the moment of the last available follow-up MRI (median [IQR], 5 [5-14] weeks after infarction) relative to prelesional values (p = .08), indicative of iron accumulation. Our data suggest that cortical microinfarcts are associated with increased R2* values, indicative of iron accumulation, possibly due to microhemorrhages, neuroinflammation or neurodegeneration, awaiting histopathological verification.

Published

2021

5. Cellular and Molecular Probing of Intact Human Organs.

Author

Wolf E., Lipfert J., Puelles V.G., Bechmann I., Erturk A., Zhao S., Todorov M.I., Cai R., Maskari R.A., Steinke H., Kemter E., Mai H., Rong Z., Warmer M., Stanic K., Schoppe O., Paetzold J.C., Gesierich B., Wong M.N., Huber T.B., Duering M., Bruns O.T., Menze B., Wolf E., Lipfert J., Puelles V.G., Bechmann I., Erturk A., Zhao S., Todorov M.I., Cai R., Maskari R.A., Steinke H., Kemter E., Mai H., Rong Z., Warmer M., Stanic K., Schoppe O., Paetzold J.C., Gesierich B., Wong M.N., Huber T.B., Duering M., Bruns O.T., and Menze B.

Abstract

Zhao et al. present an approach for intact human organ mapping that uses a new tissue permeabilization method to clear and deeply label whole organs followed by light-sheet microscopy imaging and a deep learning-based pipeline for 3D reconstruction and data analysis. Optical tissue transparency permits scalable cellular and molecular investigation of complex tissues in 3D. Adult human organs are particularly challenging to render transparent because of the accumulation of dense and sturdy molecules in decades-aged tissues. To overcome these challenges, we developed SHANEL, a method based on a new tissue permeabilization approach to clear and label stiff human organs. We used SHANEL to render the intact adult human brain and kidney transparent and perform 3D histology with antibodies and dyes in centimeters-depth. Thereby, we revealed structural details of the intact human eye, human thyroid, human kidney, and transgenic pig pancreas at the cellular resolution. Furthermore, we developed a deep learning pipeline to analyze millions of cells in cleared human brain tissues within hours with standard lab computers. Overall, SHANEL is a robust and unbiased technology to chart the cellular and molecular architecture of large intact mammalian organs.Copyright © 2020 Elsevier Inc.

Published

2020

6. Contribution of acute infarcts to cerebral small vessel disease progression

Author

Telgte, A. ter, Wiegertjes, K., Gesierich, B., Marques, J.P., Huebner, M., Klerk, J.J. de, Schreuder, F.H.B.M., Araque Caballero, M.A., Kuijf, H.J., Norris, D.G., Klijn, C.J.M., Dichgans, M., Tuladhar, A.M., Duering, M., Leeuw, F.E. de, Telgte, A. ter, Wiegertjes, K., Gesierich, B., Marques, J.P., Huebner, M., Klerk, J.J. de, Schreuder, F.H.B.M., Araque Caballero, M.A., Kuijf, H.J., Norris, D.G., Klijn, C.J.M., Dichgans, M., Tuladhar, A.M., Duering, M., and Leeuw, F.E. de

Abstract

Contains fulltext : 208985.pdf (publisher's version ) (Closed access), OBJECTIVE: To determine the contribution of acute infarcts, evidenced by diffusion-weighted imaging positive (DWI+) lesions, to progression of white matter hyperintensities (WMH) and other cerebral small vessel disease (SVD) markers. METHODS: We performed monthly 3T magnetic resonance imaging (MRI) for 10 consecutive months in 54 elderly individuals with SVD. MRI included high-resolution multishell DWI, and 3-dimensional fluid-attenuated inversion recovery, T1, and susceptibility-weighted imaging. We determined DWI+ lesion evolution, WMH progression rate (ml/mo), and number of incident lacunes and microbleeds, and calculated for each marker the proportion of progression explained by DWI+ lesions. RESULTS: We identified 39 DWI+ lesions on 21 of 472 DWI scans in 9 of 54 subjects. Of the 36 DWI+ lesions with follow-up MRI, 2 evolved into WMH, 4 evolved into a lacune (3 with cavity <3mm), 3 evolved into a microbleed, and 27 were not detectable on follow-up. WMH volume increased at a median rate of 0.027 ml/mo (interquartile range = 0.005-0.073), but was not significantly higher in subjects with DWI+ lesions compared to those without (p = 0.195). Of the 2 DWI+ lesions evolving into WMH on follow-up, one explained 23% of the total WMH volume increase in one subject, whereas the WMH regressed in the other subject. DWI+ lesions preceded 4 of 5 incident lacunes and 3 of 10 incident microbleeds. INTERPRETATION: DWI+ lesions explain only a small proportion of the total WMH progression. Hence, WMH progression seems to be mostly driven by factors other than acute infarcts. DWI+ lesions explain the majority of incident lacunes and small cavities, and almost one-third of incident microbleeds, confirming that WMH, lacunes, and microbleeds, although heterogeneous on MRI, can have a common initial appearance on MRI. ANN NEUROL 2019;86:582-592.

Published

2019

7. Investigating the origin and evolution of cerebral small vessel disease: The RUN DMC - InTENse study

Author

Telgte, A. ter, Wiegertjes, K., Tuladhar, A.M., Noz, M.P., Marques, J.P., Gesierich, B., Hübner, M., Mutsaerts, H.J.M.M., Elias-Smale, S.E., Beelen, M.J., Ropele, S., Kessels, R.P.C., Riksen, N.P., Klijn, C.J.M., Norris, D.G., Düring, M., Leeuw, H.F. de, Telgte, A. ter, Wiegertjes, K., Tuladhar, A.M., Noz, M.P., Marques, J.P., Gesierich, B., Hübner, M., Mutsaerts, H.J.M.M., Elias-Smale, S.E., Beelen, M.J., Ropele, S., Kessels, R.P.C., Riksen, N.P., Klijn, C.J.M., Norris, D.G., Düring, M., and Leeuw, H.F. de

Abstract

Contains fulltext : 197971.pdf (publisher's version ) (Open Access), Background: Neuroimaging in older adults commonly reveals signs of cerebral small vessel disease (SVD). SVD is believed to be caused by chronic hypoperfusion based on animal models and longitudinal studies with inter-scan intervals of years. Recent imaging evidence, however, suggests a role for acute ischaemia, as indicated by incidental diffusion-weighted imaging lesions (DWI+ lesions), in the origin of SVD. Furthermore, it becomes increasingly recognised that focal SVD lesions likely affect the structure and function of brain areas remote from the original SVD lesion. However, the temporal dynamics of these events are largely unknown. Aims: (1) To investigate the monthly incidence of DWI+ lesions in subjects with SVD; (2) to assess to which extent these lesions explain progression of SVD imaging markers; (3) to investigate their effects on cortical thickness, structural and functional connectivity and cognitive and motor performance; and (4) to investigate the potential role of the innate immune system in the pathophysiology of SVD. Design/methods: The RUN DMC -InTENse study is a longitudinal observational study among 54 non-demented RUN DMC survivors with mild to severe SVD and no other presumed cause of ischaemia. We performed MRI assessments monthly during 10 consecutive months (totalling up to 10 scans per subject), complemented with clinical, motor and cognitive examinations. Discussion: Our study will provide a better understanding of the role of DWI+ lesions in the pathophysiology of SVD and will further unravel the structural and functional consequences and clinical importance of these lesions, with an unprecedented temporal resolution. Understanding the role of acute, potentially ischaemic, processes in SVD may provide new strategies for therapies.

Published

2018

8. Free water determines diffusion alterations and clinical status in cerebral small vessel disease

Author

Duering, M., Finsterwalder, Sofia, Baykara, E., Tuladhar, A.M., Gesierich, B., Konieczny, Marek J., Leeuw, F.E. de, Pasternak, Ofer, Dichgans, M., Duering, M., Finsterwalder, Sofia, Baykara, E., Tuladhar, A.M., Gesierich, B., Konieczny, Marek J., Leeuw, F.E. de, Pasternak, Ofer, and Dichgans, M.

Abstract

Contains fulltext : 192607.pdf (publisher's version ) (Closed access)

Published

2018

9. A Novel Imaging Marker for Small Vessel Disease Based on Skeletonization of White Matter Tracts and Diffusion Histograms

Author

Baykara, E., Gesierich, B., Adam, R., Tuladhar, A.M., Biesbroek, J.M., Koek, H.L., Ropele, S., Jouvent, E., Chabriat, H., Ertl-Wagner, B., Ewers, M., Schmidt, R., Leeuw, F.E. de, Biessels, G.J., Dichgans, M., and Duering, M.

Subjects

Medicine(all), Neurology, Clinical Neurology, Journal Article, Validation Studies, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3]

Abstract

Item does not contain fulltext OBJECTIVE: To establish a fully automated, robust imaging marker for cerebral small vessel disease (SVD) and related cognitive impairment that is easy to implement, reflects disease burden, and is strongly associated with processing speed, the predominantly affected cognitive domain in SVD. METHODS: We developed a novel magnetic resonance imaging marker based on diffusion tensor imaging, skeletonization of white matter tracts, and histogram analysis. The marker (peak width of skeletonized mean diffusivity [PSMD]) was assessed along with conventional SVD imaging markers. We first evaluated associations with processing speed in patients with genetically defined SVD (n = 113). Next, we validated our findings in independent samples of inherited SVD (n = 57), sporadic SVD (n = 444), and memory clinic patients with SVD (n = 105). The new marker was further applied to healthy controls (n = 241) and to patients with Alzheimer's disease (n = 153). We further conducted a longitudinal analysis and interscanner reproducibility study. RESULTS: PSMD was associated with processing speed in all study samples with SVD (p-values between 2.8 x 10(-3) and 1.8 x 10(-10) ). PSMD explained most of the variance in processing speed (R(2) ranging from 8.8% to 46%) and consistently outperformed conventional imaging markers (white matter hyperintensity volume, lacune volume, and brain volume) in multiple regression analyses. Increases in PSMD were linked to vascular but not to neurodegenerative disease. In longitudinal analysis, PSMD captured SVD progression better than other imaging markers. INTERPRETATION: PSMD is a new, fully automated, and robust imaging marker for SVD. PSMD can easily be applied to large samples and may be of great utility for both research studies and clinical use. Ann Neurol 2016;80:581-592.

Published

2016

10. Lower Magnetization Transfer Ratio in the Forceps Minor Is Associated with Poorer Gait Velocity in Older Adults

Author

Seiler, S., primary, Pirpamer, L., additional, Gesierich, B., additional, Hofer, E., additional, Duering, M., additional, Pinter, D., additional, Jouvent, E., additional, Fazekas, F., additional, Mangin, J.-F., additional, Chabriat, H., additional, Ropele, S., additional, and Schmidt, R., additional

Published

2016

11. Nonfluent/agrammatic PPA with in-vivo cortical amyloidosis and Pick's disease pathology

Author

Caso F, Gesierich B, Henry M, Sidhu M, LaMarre A, Babiak M, Miller BL, Rabinovici GD, Huang EJ, Magnani G, FILIPPI , MASSIMO, COMI , GIANCARLO, Seeley WW, Gorno Tempini ML, Caso, F, Gesierich, B, Henry, M, Sidhu, M, Lamarre, A, Babiak, M, Miller, Bl, Rabinovici, Gd, Huang, Ej, Magnani, G, Filippi, Massimo, Comi, Giancarlo, Seeley, Ww, and Gorno Tempini, Ml

Subjects

Aging, Fluorine Radioisotopes, Clinical Sciences, apraxia of speech, Neurodegenerative, Neuropsychological Tests, Alzheimer's Disease, behavioral disciplines and activities, Pick's disease, Rare Diseases, Pick Disease of the Brain, Clinical Research, Alzheimer Disease, Fluorodeoxyglucose F18, mental disorders, Acquired Cognitive Impairment, Aphasia, 2.1 Biological and endogenous factors, Humans, Primary Progressive Nonfluent Aphasia, Carbon Radioisotopes, Aetiology, Alzheimer's Disease Related Dementias (ADRD), Aged, screening and diagnosis, Aniline Compounds, Functional Neuroimaging, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Experimental Psychology, Amyloidosis, Nonfluent primary progressive aphasia, Voxel-based morphometry, Magnetic Resonance Imaging, Brain Disorders, Frontal Lobe, Frontotemporal Dementia (FTD), Detection, Thiazoles, Positron-Emission Tomography, Neurological, Disease Progression, Dementia, Female, Cognitive Sciences, PiB-PET, PPA, Frontotemporal dementia, 4.2 Evaluation of markers and technologies

Abstract

The role of biomarkers in predicting pathological findings in the frontotemporal dementia (FTD) clinical spectrum disorders is still being explored. We present comprehensive, prospective longitudinal data for a 66 year old, right-handed female who met current criteria for the nonfluent/agrammatic variant of primary progressive aphasia (nfvPPA). She first presented with a 3-year history of progressive speech and language impairment mainly characterized by severe apraxia of speech. Neuropsychological and general motor functions remained relatively spared throughout the clinical course. Voxel-based morphometry (VBM) showed selective cortical atrophy of the left posterior inferior frontal gyrus (IFG) and underlying insula that worsened over time, extending along the left premotor strip. Five years after her first evaluation, she developed mild memory impairment and underwent PET-FDG and PiB scans that showed left frontal hypometabolism and cortical amyloidosis. Three years later (11 years from first symptom), post-mortem histopathological evaluation revealed Pick's disease, with severe degeneration of left IFG, mid-insula, and precentral gyrus. Alzheimer's disease (AD) (CERAD frequent/Braak Stage V) was also detected. This patient demonstrates that biomarkers indicating brain amyloidosis should not be considered conclusive evidence that AD pathology accounts for a typical FTD clinical/anatomical syndrome. © 2013 - IOS Press and the authors. All rights reserved.

Published

2013

12. Acute infarcts cause focal thinning in remote cortex via degeneration of connecting fiber tracts

Author

Duering, M., primary, Righart, R., additional, Wollenweber, F. A., additional, Zietemann, V., additional, Gesierich, B., additional, and Dichgans, M., additional

Published

2015

13. Human gaze behaviour during execution and observation. Concepts, actions and objects: Functional and neuronal perspectives

Author

Gesierich, B., Bruzzo, A., Ottoboni, G., and Finos, Livio

Published

2007

14. Study of Kinematics and Eye Movements during Imitation

Author

Gesierich, B, Canto, R, FABBRI DESTRO, M, Fadiga, L, Finos, Livio, Oliynyk, and A. AND CRAIGHERO L.

Published

2006

15. Spike Sorting with Linear Algebraic Transformation of Spike Shapes Shapes using LabVIEW Software: An Application for Single Unit Recordings

Author

Oliynik, A, Bonifazzi, C, Gesierich, B, Finos, Livio, and Fadiga, L.

Published

2006

16. Strategic white matter tracts for processing speed deficits in age-related small vessel disease

Author

Duering, M., primary, Gesierich, B., additional, Seiler, S., additional, Pirpamer, L., additional, Gonik, M., additional, Hofer, E., additional, Jouvent, E., additional, Duchesnay, E., additional, Chabriat, H., additional, Ropele, S., additional, Schmidt, R., additional, and Dichgans, M., additional

Published

2014

17. In vivo signatures of nonfluent/agrammatic primary progressive aphasia caused by FTLD pathology

Author

Caso, F., primary, Mandelli, M. L., additional, Henry, M., additional, Gesierich, B., additional, Bettcher, B. M., additional, Ogar, J., additional, Filippi, M., additional, Comi, G., additional, Magnani, G., additional, Sidhu, M., additional, Trojanowski, J. Q., additional, Huang, E. J., additional, Grinberg, L. T., additional, Miller, B. L., additional, Dronkers, N., additional, Seeley, W. W., additional, and Gorno-Tempini, M. L., additional

Published

2013

18. Practical utility of amyloid and FDG-PET in an academic dementia center

Author

Sanchez-Juan, P., primary, Ghosh, P. M., additional, Hagen, J., additional, Gesierich, B., additional, Henry, M., additional, Grinberg, L. T., additional, O'Neil, J. P., additional, Janabi, M., additional, Huang, E. J., additional, Trojanowski, J. Q., additional, Vinters, H. V., additional, Gorno-Tempini, M., additional, Seeley, W. W., additional, Boxer, A. L., additional, Rosen, H. J., additional, Kramer, J. H., additional, Miller, B. L., additional, Jagust, W. J., additional, and Rabinovici, G. D., additional

Published

2013

19. Incident lacunes preferentially localize to the edge of white matter hyperintensities: insights into the pathophysiology of cerebral small vessel disease

Author

Duering, M., primary, Csanadi, E., additional, Gesierich, B., additional, Jouvent, E., additional, Herve, D., additional, Seiler, S., additional, Belaroussi, B., additional, Ropele, S., additional, Schmidt, R., additional, Chabriat, H., additional, and Dichgans, M., additional

Published

2013

20. Clinical, Neuroimaging, and Pathologic Features in a Group of Nonfluent Variant Primary Progressive Aphasia (nfvPPA) Studied Prospectively (P07.172)

Author

Caso, F., primary, Henry, M., additional, Gesierich, B., additional, Wilson, S., additional, Dronkers, N., additional, Miller, B., additional, Seeley, W., additional, and Gorno-Tempini, M. L., additional

Published

2012

21. Nonfluent/Agrammatic Variant of PPA with a PIB Positive PET Scan and Pick's Disease Pathology (P07.171)

Author

Caso, F., primary, Gesierich, B., additional, Henry, M., additional, LaMarre, A., additional, Rabinovici, G., additional, Wilson, S., additional, Miller, B., additional, Seeley, W., additional, and Gorno-Tempini, M. L., additional

Published

2012

22. APOE ɛ2 is associated with white matter hyperintensity volume in CADASIL

Author

Gesierich B, Opherk C, Rosand J, Gonik M, Malik R, Jouvent E, Hervé D, Adib-Samii P, Steve Bevan, Pianese L, Silvestri S, Mt, Dotti, De Stefano N, van der Grond J, Em, Boon, Pescini F, Rost N, Pantoni L, Sa, Lesnik Oberstein, and Federico A

23. Permutation entropy to detect vigilance changes and preictal states from scalp EEG in epileptic patients. A preliminary study

Author

Niels Birbaumer, Benno Gesierich, Angela Bruzzo, Guido Rubboli, Carlo Alberto Tassinari, Maurizio Santi, Bruzzo AA, Gesierich B, Santi M, Tassinari CA, Birbaumer N, and Rubboli G.

Subjects

Adult, Male, Adolescent, Entropy, Dermatology, Electroencephalography, Correlation, Eeg data, Seizures, Statistics, medicine, Humans, Ictal, Entropy (energy dispersal), Permutation entropy, Epilepsy, medicine.diagnostic_test, Receiver operating characteristic, business.industry, Brain, Pattern recognition, General Medicine, Middle Aged, Scalp eeg, Psychiatry and Mental health, ROC Curve, Female, Neurology (clinical), Artificial intelligence, business, Psychology, Algorithms

Abstract

Permutation entropy (PE) was recently introduced as a very fast and robust algorithm to detect dynamic complexity changes in time series. It was also suggested as a useful screening algorithm for epileptic events in EEG data. In the present work, we tested its efficacy on scalp EEG data recorded from three epileptic patients. With a receiver operating characteristics (ROC) analysis, we evaluated the separability of amplitude distributions of PE resulting from preictal and interictal phases. Moreover, the dependency of PE on vigilance state was tested by correlation coefficients. A good separability of interictal and preictal phase was found, nevertheless PE was shown to be sensitive to changes in vigilance state. The changes of PE during the preictal phase and at seizure onset coincided with changes in vigilance state, restricting its possible use for seizure prediction on scalp EEG; this finding however suggests its possible usefulness for an automated classification of vigilance states.

Published

2008

24. In-vivo signatures of non-fluent/agrammatic primary progressive aphasia caused by FTLD pathology

Author

Maya L. Henry, John Q. Trojanowski, Bruce L. Miller, Eric J. Huang, Maria Luisa Mandelli, William W. Seeley, Brianne M. Bettcher, Benno Gesierich, Jennifer M. Ogar, Massimo Filippi, Manu Sidhu, Nina F. Dronkers, Giancarlo Comi, Francesca Caso, Giuseppe Magnani, Maria Luisa Gorno-Tempini, Lea T. Grinberg, Caso, F, Mandelli, Ml, Henry, M, Gesierich, B, Bettcher, Bm, Ogar, J, Filippi, Massimo, Comi, Giancarlo, Magnani, G, Sidhu, M, Trojanowski, Jq, Huang, Ej, Grinberg, Lt, Miller, Bl, Dronkers, N, Seeley, Ww, and Gorno Tempini, Ml

Subjects

Male, Pathology, Aging, Audiology, Neurodegenerative, Apraxia, Primary progressive aphasia, Dysarthria, 80 and over, 2.1 Biological and endogenous factors, Prospective Studies, Aetiology, Alzheimer's Disease Related Dementias (ADRD), Aged, 80 and over, Rehabilitation, Frontotemporal lobar degeneration, Middle Aged, Frontal Lobe, DNA-Binding Proteins, Frontotemporal Dementia (FTD), medicine.anatomical_structure, Frontal lobe, Neurological, Female, Cognitive Sciences, medicine.symptom, Psychology, medicine.medical_specialty, Apraxias, Clinical Sciences, tau Proteins, Article, White matter, Atrophy, Rare Diseases, Progressive nonfluent aphasia, Clinical Research, mental disorders, medicine, Aphasia, Acquired Cognitive Impairment, Humans, Primary Progressive Nonfluent Aphasia, Aged, Aphasia, Broca, Neurology & Neurosurgery, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), medicine.disease, nervous system diseases, Brain Disorders, Broca, Dementia, Neurology (clinical), Frontotemporal Lobar Degeneration

Abstract

Objective: To identify early cognitive and neuroimaging features of sporadic nonfluent/agrammatic variant of primary progressive aphasia (nfvPPA) caused by frontotemporal lobar degeneration (FTLD) subtypes. Methods: We prospectively collected clinical, neuroimaging, and neuropathologic data in 11 patients with sporadic nfvPPA with FTLD-tau (nfvPPA-tau, n = 9) or FTLD–transactive response DNA binding protein pathology of 43 kD type A (nfvPPA-TDP, n = 2). We analyzed patterns of cognitive and gray matter (GM) and white matter (WM) atrophy at presentation in the whole group and in each pathologic subtype separately. We also considered longitudinal clinical data. Results: At first evaluation, regardless of pathologic FTLD subtype, apraxia of speech (AOS) was the most common cognitive feature and atrophy involved the left posterior frontal lobe. Each pathologic subtype showed few distinctive features. At presentation, patients with nfvPPA-tau presented with mild to moderate AOS, mixed dysarthria with prominent hypokinetic features, clear agrammatism, and atrophy in the GM of the left posterior frontal regions and in left frontal WM. While speech and language deficits were prominent early, within 3 years of symptom onset, all patients with nfvPPA-tau developed significant extrapyramidal motor signs. At presentation, patients with nfvPPA-TDP had severe AOS, dysarthria with spastic features, mild agrammatism, and atrophy in left posterior frontal GM only. Selective mutism occurred early, when general neurologic examination only showed mild decrease in finger dexterity in the right hand. Conclusions: Clinical features in sporadic nfvPPA caused by FTLD subtypes relate to neurodegeneration of GM and WM in frontal motor speech and language networks. We propose that early WM atrophy in nfvPPA is suggestive of FTLD-tau pathology while early selective GM loss might be indicative of FTLD-TDP.

Published

2014

25. Risk factors and clinical significance of post-stroke incident ischemic lesions.

Author

Fang R, Duering M, Bode FJ, Stösser S, Meißner JN, Hermann P, Liman TG, Nolte CH, Kerti L, Ikenberg B, Bernkopf K, Glanz W, Janowitz D, Wagner M, Neumann K, Speck O, Düzel E, Gesierich B, Dewenter A, Spottke A, Waegemann K, Görtler M, Wunderlich S, Zerr I, Petzold GC, Endres M, Georgakis MK, and Dichgans M

Abstract

Introduction: While incident ischemic lesions (IILs) are not unusual on follow-up magnetic resonance imaging (MRI) following stroke, their risk factors and prognostic significance remain unknown., Methods: In a prospective multicenter study of 503 acute stroke patients, we assessed IILs on registered MRI images at baseline and 6 months, analyzing risk factors and clinical outcomes across 36 months., Results: At 6 months, 78 patients (15.5%) had IILs, mostly diffusion-weighted imaging-positive (72%) and clinically covert (91%). Older age and small vessel disease (SVD) lesions were baseline risk factors for IILs. IILs were associated with worse cognitive (beta for global cognition: -0.31, 95% confidence interval [CI]: -0.48 to -0.14) and functional outcomes (beta for modified Rankin scale [mRS]: 0.36, 95% CI: 0.14 to 0.58), and higher recurrent stroke risk (hazard ratio: 3.81, 95% CI: 1.35 to 10.69). IILs partially explained the relationship between SVD and poor cognition., Discussion: IILs are common and are associated with worse cognitive and functional outcomes and stroke recurrence risk. Assessing IILs following stroke might aid prognostication., Highlights: Incident ischemic lesions (IILs) were assessed with registered baseline and 6-month magnetic resonance imaging (MRI) scans in a stroke cohort. IILs 6 months after stroke are present in one-sixth of patients and are mostly clinically silent. Small vessel disease burden is the main baseline risk factor for IILs. IILs are associated with cognitive and functional impairment and stroke recurrence. Assessing IILs by follow-up MRI aids long-term prognostication for stroke patients., (© 2024 The Author(s). Alzheimer's & Dementia published by Wiley Periodicals LLC on behalf of Alzheimer's Association.)

Published

2024

26. Association of NOTCH3 Variant Risk Category With 2-Year Clinical and Radiologic Small Vessel Disease Progression in Patients With CADASIL.

Author

Cerfontaine MN, Hack RJ, Gesierich B, Duering M, Witjes-Ané MW, Rodríguez-Girondo M, Gravesteijn G, Rutten J, and Lesnik Oberstein SAJ

Subjects

Female, Humans, Male, Executive Function physiology, Follow-Up Studies, Magnetic Resonance Imaging, Prospective Studies, Risk Factors, CADASIL genetics, CADASIL diagnostic imaging, Cerebral Small Vessel Diseases diagnostic imaging, Cerebral Small Vessel Diseases genetics, Disease Progression, Receptor, Notch3 genetics

Abstract

Background and Objectives: Pathogenic variants in NOTCH3 are the main cause of hereditary cerebral small vessel disease (SVD). SVD-associated NOTCH3 variants have recently been categorized into high risk (HR), moderate risk (MR), or low risk (LR) for developing early-onset severe SVD. The most severe NOTCH3-associated SVD phenotype is also known as cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL). We aimed to investigate whether NOTCH3 variant risk category is associated with 2-year progression rate of SVD clinical and neuroimaging outcomes in CADASIL., Methods: A single-center prospective 2-year follow-up study was performed of patients with CADASIL. Clinical outcomes were incident stroke, disability (modified Rankin Scale), and executive function (Trail Making Test B given A t -scores). Neuroimaging outcomes were mean skeletonized mean diffusivity (MSMD), normalized white matter hyperintensity volume (nWMHv), normalized lacune volume (nLV), and brain parenchymal fraction (BPF). Cox regression and mixed-effect models, adjusted for age, sex, and cardiovascular risk factors, were used to study 2-year changes in outcomes and differences in disease progression between patients with HR- NOTCH3 and MR- NOTCH3 variants., Results: One hundred sixty-two patients with HR (n = 90), MR (n = 67), and LR (n = 5) NOTCH3 variants were included. For the entire cohort, there was 2-year mean progression for MSMD (β = 0.20, 95% CI 0.17-0.23, p = 7.0 × 10 -24 ), nLV (β = 0.13, 95% CI 0.080-0.19, p = 2.1 × 10 -6 ), nWMHv (β = 0.092, 95% CI 0.075-0.11, p = 8.8 × 10 -20 ), and BPF (β = -0.22, 95% CI -0.26 to -0.19, p = 3.2 × 10 -22 ), as well as an increase in disability ( p = 0.002) and decline of executive function (β = -0.15, 95% CI -0.30 to -3.4 × 10 -5 , p = 0.05). The HR-NOTCH3 group had a higher probability of 2-year incident stroke (hazard ratio 4.3, 95% CI 1.4-13.5, p = 0.011), and a higher increase in MSMD (β = 0.074, 95% CI 0.013-0.14, p = 0.017) and nLV (β = 0.14, 95% CI 0.034-0.24, p = 0.0089) than the MR-NOTCH3 group. Subgroup analyses showed significant 2-year progression of MSMD in young (n = 17, β = 0.014, 95% CI 0.0093-0.019, p = 1.4 × 10 -5 ) and premanifest (n = 24, β = 0.012, 95% CI 0.0082-0.016, p = 1.1 × 10 -6 ) individuals., Discussion: In a trial-sensitive time span of 2 years, we found that patients with HR- NOTCH3 variants have a significantly faster progression of major clinical and neuroimaging outcomes, compared with patients with MR- NOTCH3 variants. This has important implications for clinical trial design and disease prediction and monitoring in the clinic. Moreover, we show that MSMD is a promising outcome measure for trials enrolling premanifest individuals.

Published

2024

27. Continued dysfunction of capillary pericytes promotes no-reflow after experimental stroke in vivo.

Author

Shrouder JJ, Calandra GM, Filser S, Varga DP, Besson-Girard S, Mamrak U, Dorok M, Bulut-Impraim B, Seker FB, Gesierich B, Laredo F, Wehn AC, Khalin I, Bayer P, Liesz A, Gokce O, and Plesnila N

Subjects

Humans, Pericytes physiology, Cerebral Infarction, Stroke, Brain Ischemia, Ischemic Stroke

Abstract

Incomplete reperfusion of the microvasculature ('no-reflow') after ischaemic stroke damages salvageable brain tissue. Previous ex vivo studies suggest pericytes are vulnerable to ischaemia and may exacerbate no-reflow, but the viability of pericytes and their association with no-reflow remains under-explored in vivo. Using longitudinal in vivo two-photon single-cell imaging over 7 days, we showed that 87% of pericytes constrict during cerebral ischaemia and remain constricted post reperfusion, and 50% of the pericyte population are acutely damaged. Moreover, we revealed ischaemic pericytes to be fundamentally implicated in capillary no-reflow by limiting and arresting blood flow within the first 24 h post stroke. Despite sustaining acute membrane damage, we observed that over half of all cortical pericytes survived ischaemia and responded to vasoactive stimuli, upregulated unique transcriptomic profiles and replicated. Finally, we demonstrated the delayed recovery of capillary diameter by ischaemic pericytes after reperfusion predicted vessel reconstriction in the subacute phase of stroke. Cumulatively, these findings demonstrate that surviving cortical pericytes remain both viable and promising therapeutic targets to counteract no-reflow after ischaemic stroke., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2024

28. Florbetapir PET-assessed demyelination is associated with faster tau accumulation in an APOE ε4-dependent manner.

Author

Rubinski A, Dewenter A, Zheng L, Franzmeier N, Stephenson H, Deming Y, Duering M, Gesierich B, Denecke J, Pham AV, Bendlin B, and Ewers M

Subjects

Humans, Apolipoprotein E4 genetics, Amyloid beta-Peptides metabolism, Apolipoproteins E, Brain metabolism, tau Proteins metabolism, Positron-Emission Tomography, Alzheimer Disease diagnostic imaging, Alzheimer Disease genetics, Alzheimer Disease metabolism, Cognitive Dysfunction metabolism, Demyelinating Diseases metabolism, Aniline Compounds, Ethylene Glycols

Abstract

Purpose: The main objectives were to test whether (1) a decrease in myelin is associated with enhanced rate of fibrillar tau accumulation and cognitive decline in Alzheimer's disease, and (2) whether apolipoprotein E (APOE) ε4 genotype is associated with worse myelin decrease and thus tau accumulation., Methods: To address our objectives, we repurposed florbetapir-PET as a marker of myelin in the white matter (WM) based on previous validation studies showing that beta-amyloid (Aβ) PET tracers bind to WM myelin. We assessed 43 Aβ-biomarker negative (Aβ-) cognitively normal participants and 108 Aβ+ participants within the AD spectrum with florbetapir-PET at baseline and longitudinal flortaucipir-PET as a measure of fibrillar tau (tau-PET) over ~ 2 years. In linear regression analyses, we tested florbetapir-PET in the whole WM and major fiber tracts as predictors of tau-PET accumulation in a priori defined regions of interest (ROIs) and fiber-tract projection areas. In mediation analyses we tested whether tau-PET accumulation mediates the effect of florbetapir-PET in the whole WM on cognition. Finally, we assessed the role of myelin alteration on the association between APOE and tau-PET accumulation., Results: Lower florbetapir-PET in the whole WM or at a given fiber tract was predictive of faster tau-PET accumulation in Braak stages or the connected grey matter areas in Aβ+ participants. Faster tau-PET accumulation in higher cortical brain areas mediated the association between a decrease in florbetapir-PET in the WM and a faster rate of decline in global cognition and episodic memory. APOE ε4 genotype was associated with a worse decrease in the whole WM florbetapir-PET and thus enhanced tau-PET accumulation., Conclusion: Myelin alterations are associated in an APOE ε4 dependent manner with faster tau progression and cognitive decline, and may therefore play a role in the etiology of AD., (© 2023. The Author(s).)

Published

2024

29. Brain-derived Tau for Monitoring Brain Injury in Acute Ischemic Stroke.

Author

Vlegels N, Gonzalez-Ortiz F, Knuth NL, Khalifeh N, Gesierich B, Müller F, Müller P, Klein M, Dimitriadis K, Franzmeier N, Liebig T, Duering M, Reidler P, Dichgans M, Karikari TK, Blennow K, and Tiedt S

Abstract

The evolution of infarcts varies widely among patients with acute ischemic stroke (IS) and influences treatment decisions. Neuroimaging is not applicable for frequent monitoring and there is no blood-based biomarker to track ongoing brain injury in acute IS. Here, we examined the utility of plasma brain-derived tau (BD-tau) as a biomarker for brain injury in acute IS. We conducted the prospective, observational Precision Medicine in Stroke [PROMISE] study with serial blood sampling upon hospital admission and at days 2, 3, and 7 in patients with acute ischemic stroke (IS) and for comparison, in patients with stroke mimics (SM). We determined the temporal course of plasma BD-tau, its relation to infarct size and admission imaging-based metrics of brain injury, and its value to predict functional outcome. Upon admission (median time-from-onset, 4.4h), BD-tau levels in IS patients correlated with ASPECTS ( ρ =-0.21, P <.0001) and were predictive of final infarct volume ( ρ =0.26, P <.0001). In contrast to SM patients, BD-tau levels in IS patients increased from admission (median, 2.9 pg/ml [IQR, 1.8-4.8]) to day 2 (median time-from-onset, 22.7h; median BD-tau, 5.0 pg/ml [IQR, 2.6-10.3]; P <.0001). The rate of change of BD-tau from admission to day 2 was significantly associated with collateral supply ( R 2 =0.10, P <.0001) and infarct progression ( ρ =0.58, P <.0001). At day 2, BD-tau was predictive of final infarct volume ( ρ =0.59, P <.0001) and showed superior value for predicting the 90-day mRS score compared with final infarct volume. In conclusion, in 502 patients with acute IS, plasma BD-tau was associated with imaging-based metrics of brain injury upon admission, increased within the first 24 hours in correlation with infarct progression, and at 24 hours was superior to final infarct volume in predicting 90-day functional outcome. Further research is needed to determine whether BD-tau assessments can inform decision-making in stroke care., Competing Interests: POTENTIAL CONFLICTS OF INTERESTS KB has served as a consultant and at advisory boards for Acumen, ALZPath, BioArctic, Biogen, Eisai, Lilly, Moleac Pte. Ltd, Novartis, Ono Pharma, Prothena, Roche Diagnostics, and Siemens Healthineers; has served at data monitoring committees for Julius Clinical and Novartis; has given lectures, produced educational materials and participated in educational programs for AC Immune, Biogen, Celdara Medical, Eisai and Roche Diagnostics; and is a co-founder of Brain Biomarker Solutions in Gothenburg AB (BBS), which is a part of the GU Ventures Incubator Program, outside the work presented in this paper. TL protors and consults for Stryker, phenox, Acandis, and has in the past received suport for travel and service related fees from Medtronic, Pfizer, Cerus Endovascular, Sequent, and Microvention. NV, NLK, MD, and ST report a patent on the use of BD-tau. No other disclosures were reported.

Published

2023

30. Cerebral small vessel disease burden and cognitive and functional outcomes after stroke: A multicenter prospective cohort study.

Author

Georgakis MK, Fang R, Düring M, Wollenweber FA, Bode FJ, Stösser S, Kindlein C, Hermann P, Liman TG, Nolte CH, Kerti L, Ikenberg B, Bernkopf K, Poppert H, Glanz W, Perosa V, Janowitz D, Wagner M, Neumann K, Speck O, Dobisch L, Düzel E, Gesierich B, Dewenter A, Spottke A, Waegemann K, Görtler M, Wunderlich S, Endres M, Zerr I, Petzold G, and Dichgans M

Subjects

Humans, Prospective Studies, Magnetic Resonance Imaging, Cognition, Stroke complications, Stroke pathology, Cerebral Small Vessel Diseases pathology, Cognitive Dysfunction complications

Abstract

Introduction: It remains unknown whether the global small vessel disease (SVD) burden predicts post-stroke outcomes., Methods: In a prospective multicenter study of 666 ischemic and hemorrhagic stroke patients, we quantified magnetic resonance imaging (MRI)-based SVD markers (lacunes, white matter hyperintensities, microbleeds, perivascular spaces) and explored associations with 6- and 12-month cognitive (battery of 15 neuropsychological tests) and functional (modified Rankin scale) outcomes., Results: A global SVD score (range 0-4) was associated with cognitive impairment; worse performance in executive function, attention, language, and visuospatial ability; and worse functional outcome across a 12-month follow-up. Although the global SVD score did not improve prediction, individual SVD markers, assessed across their severity range, improved the calibration, discrimination, and reclassification of predictive models including demographic, clinical, and other imaging factors., Discussion: SVD presence and severity are associated with worse cognitive and functional outcomes 12 months after stroke. Assessing SVD severity may aid prognostication for stroke patients., Highlights: In a multi-center cohort, we explored associations of small vessel disease (SVD) burden with stroke outcomes. SVD burden associates with post-stroke cognitive and functional outcomes. A currently used score of SVD burden does not improve the prediction of poor outcomes. Assessing the severity of SVD lesions adds predictive value beyond known predictors. To add predictive value in assessing SVD in stroke patients, SVD burden scores should integrate lesion severity., (© 2022 The Authors. Alzheimer's & Dementia published by Wiley Periodicals LLC on behalf of Alzheimer's Association.)

Published

2023

31. Disentangling the effects of Alzheimer's and small vessel disease on white matter fibre tracts.

Author

Dewenter A, Jacob MA, Cai M, Gesierich B, Hager P, Kopczak A, Biel D, Ewers M, Tuladhar AM, de Leeuw FE, Dichgans M, Franzmeier N, and Duering M

Subjects

Humans, Cross-Sectional Studies, Diffusion Magnetic Resonance Imaging methods, Amyloidogenic Proteins, Brain diagnostic imaging, Brain pathology, White Matter diagnostic imaging, White Matter pathology, Alzheimer Disease diagnostic imaging, Alzheimer Disease pathology, Vascular Diseases, Cerebral Small Vessel Diseases diagnostic imaging, Cerebral Small Vessel Diseases pathology

Abstract

Alzheimer's disease and cerebral small vessel disease are the two leading causes of cognitive decline and dementia and coexist in most memory clinic patients. White matter damage as assessed by diffusion MRI is a key feature in both Alzheimer's and cerebral small vessel disease. However, disease-specific biomarkers of white matter alterations are missing. Recent advances in diffusion MRI operating on the fixel level (fibre population within a voxel) promise to advance our understanding of disease-related white matter alterations. Fixel-based analysis allows derivation of measures of both white matter microstructure, measured by fibre density, and macrostructure, measured by fibre-bundle cross-section. Here, we evaluated the capacity of these state-of-the-art fixel metrics to disentangle the effects of cerebral small vessel disease and Alzheimer's disease on white matter integrity. We included three independent samples (total n = 387) covering genetically defined cerebral small vessel disease and age-matched controls, the full spectrum of biomarker-confirmed Alzheimer's disease including amyloid- and tau-PET negative controls and a validation sample with presumed mixed pathology. In this cross-sectional analysis, we performed group comparisons between patients and controls and assessed associations between fixel metrics within main white matter tracts and imaging hallmarks of cerebral small vessel disease (white matter hyperintensity volume, lacune and cerebral microbleed count) and Alzheimer's disease (amyloid- and tau-PET), age and a measure of neurodegeneration (brain volume). Our results showed that (i) fibre density was reduced in genetically defined cerebral small vessel disease and strongly associated with cerebral small vessel disease imaging hallmarks; (ii) fibre-bundle cross-section was mainly associated with brain volume; and (iii) both fibre density and fibre-bundle cross-section were reduced in the presence of amyloid, but not further exacerbated by abnormal tau deposition. Fixel metrics were only weakly associated with amyloid- and tau-PET. Taken together, our results in three independent samples suggest that fibre density captures the effect of cerebral small vessel disease, while fibre-bundle cross-section is largely determined by neurodegeneration. The ability of fixel-based imaging markers to capture distinct effects on white matter integrity can propel future applications in the context of precision medicine., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2023

32. CADASIL Affects Multiple Aspects of Cerebral Small Vessel Function on 7T-MRI.

Author

van den Brink H, Kopczak A, Arts T, Onkenhout L, Siero JCW, Zwanenburg JJM, Hein S, Hübner M, Gesierich B, Duering M, Stringer MS, Hendrikse J, Wardlaw JM, Joutel A, Dichgans M, and Biessels GJ

Subjects

Humans, Female, Adult, Middle Aged, Male, Hypercapnia diagnostic imaging, Magnetic Resonance Imaging, Cerebral Infarction, CADASIL diagnostic imaging, Cerebral Small Vessel Diseases diagnostic imaging

Abstract

Objective: Cerebral small vessel diseases (cSVDs) are a major cause of stroke and dementia. We used cutting-edge 7T-MRI techniques in patients with Cerebral Autosomal Dominant Arteriopathy with Subcortical Infarcts and Leukoencephalopathy (CADASIL), to establish which aspects of cerebral small vessel function are affected by this monogenic form of cSVD., Methods: We recruited 23 CADASIL patients (age 51.1 ± 10.1 years, 52% women) and 13 age- and sex-matched controls (46.1 ± 12.6, 46% women). Small vessel function measures included: basal ganglia and centrum semiovale perforating artery blood flow velocity and pulsatility, vascular reactivity to a visual stimulus in the occipital cortex and reactivity to hypercapnia in the cortex, subcortical gray matter, white matter, and white matter hyperintensities., Results: Compared with controls, CADASIL patients showed lower blood flow velocity and higher pulsatility index within perforating arteries of the centrum semiovale (mean difference - 0.09 cm/s, p = 0.03 and 0.20, p = 0.009) and basal ganglia (mean difference - 0.98 cm/s, p = 0.003 and 0.17, p = 0.06). Small vessel reactivity to a short visual stimulus was decreased (blood-oxygen-level dependent [BOLD] mean difference -0.21%, p = 0.04) in patients, while reactivity to hypercapnia was preserved in the cortex, subcortical gray matter, and normal appearing white matter. Among patients, reactivity to hypercapnia was decreased in white matter hyperintensities compared to normal appearing white matter (BOLD mean difference -0.29%, p = 0.02)., Interpretation: Multiple aspects of cerebral small vessel function on 7T-MRI were abnormal in CADASIL patients, indicative of increased arteriolar stiffness and regional abnormalities in reactivity, locally also in relation to white matter injury. These observations provide novel markers of cSVD for mechanistic and intervention studies. ANN NEUROL 2023;93:29-39., (© 2022 The Authors. Annals of Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published

2023

33. Free water diffusion MRI and executive function with a speed component in healthy aging.

Author

Berger M, Pirpamer L, Hofer E, Ropele S, Duering M, Gesierich B, Pasternak O, Enzinger C, Schmidt R, and Koini M

Subjects

Aged, Biomarkers, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging methods, Executive Function physiology, Humans, Water, Healthy Aging, Leukoaraiosis, White Matter diagnostic imaging

Abstract

Extracellular free water (FW) increases are suggested to better provide pathophysiological information in brain aging than conventional biomarkers such as fractional anisotropy. The aim of the present study was to determine the relationship between conventional biomarkers, FW in white matter hyperintensities (WMH), FW in normal appearing white matter (NAWM) and in white matter tracts and executive functions (EF) with a speed component in elderly persons. We examined 226 healthy elderly participants (median age 69.83 years, IQR: 56.99-74.42) who underwent brain MRI and neuropsychological examination. FW in WMH and in NAWM as well as FW corrected diffusion metrics and measures derived from conventional MRI (white matter hyperintensities, brain volume, lacunes) were used in partial correlation (adjusted for age) to assess their correlation with EF with a speed component. Random forest analysis was used to assess the relative importance of these variables as determinants. Lastly, linear regression analyses of FW in white matter tracts corrected for risk factors of cognitive and white matter deterioration, were used to examine the role of specific tracts on EF with a speed component, which were then ranked with random forest regression. Partial correlation analyses revealed that almost all imaging metrics showed a significant association with EF with a speed component (r = -0.213 - 0.266). Random forest regression highlighted FW in WMH and in NAWM as most important among all diffusion and structural MRI metrics. The fornix (R 2 =0.421, p = 0.018) and the corpus callosum (genu (R 2  = 0.418, p = 0.021), prefrontal (R 2  = 0.416, p = 0.026), premotor (R 2  = 0.418, p = 0.021)) were associated with EF with a speed component in tract based regression analyses and had highest variables importance. In a normal aging population FW in WMH and NAWM is more closely related to EF with a speed component than standard DTI and brain structural measures. Higher amounts of FW in the fornix and the frontal part of the corpus callosum leads to deteriorating EF with a speed component., Competing Interests: Declarations of Competing Interest None., (Copyright © 2022. Published by Elsevier Inc.)

Published

2022

34. Systematic validation of structural brain networks in cerebral small vessel disease.

Author

Dewenter A, Gesierich B, Ter Telgte A, Wiegertjes K, Cai M, Jacob MA, Marques JP, Norris DG, Franzmeier N, de Leeuw FE, Tuladhar AM, and Duering M

Subjects

Brain diagnostic imaging, Disease Progression, Humans, Magnetic Resonance Imaging, Reproducibility of Results, Cerebral Small Vessel Diseases diagnostic imaging, Diffusion Tensor Imaging

Abstract

Cerebral small vessel disease (SVD) is considered a disconnection syndrome, which can be quantified using structural brain network analysis obtained from diffusion MRI. Network analysis is a demanding analysis approach and the added benefit over simpler diffusion MRI analysis is largely unexplored in SVD. In this pre-registered study, we assessed the clinical and technical validity of network analysis in two non-overlapping samples of SVD patients from the RUN DMC study (n = 52 for exploration and longitudinal analysis and n = 105 for validation). We compared two connectome pipelines utilizing single-shell or multi-shell diffusion MRI, while also systematically comparing different node and edge definitions. For clinical validation, we assessed the added benefit of network analysis in explaining processing speed and in detecting short-term disease progression. For technical validation, we determined test-retest repeatability.Our findings in clinical validation show that structural brain networks provide only a small added benefit over simpler global white matter diffusion metrics and do not capture short-term disease progression. Test-retest reliability was excellent for most brain networks. Our findings question the added value of brain network analysis in clinical applications in SVD and highlight the utility of simpler diffusion MRI based markers.

Published

2022

35. The BS variant of C4 protects against age-related loss of white matter microstructural integrity.

Author

Traylor M, Malik R, Gesierich B, and Dichgans M

Subjects

Aged, Aged, 80 and over, Anisotropy, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging, Genome-Wide Association Study, Humans, Middle Aged, Complement C4 metabolism, White Matter diagnostic imaging

Abstract

Age-related loss of white matter microstructural integrity is a major determinant of cognitive decline, dementia and gait disorders. However, the mechanisms and molecular pathways that contribute to this loss of integrity remain elusive. We performed a genome-wide association study of white matter microstructural integrity as quantified by diffusion MRI metrics (mean diffusivity and fractional anisotropy) in up to 31 128 individuals from UK Biobank (age 45-81 years) based on a two degrees of freedom (2df) test of single nucleotide polymorphism (SNP) and SNP × Age effects. We identified 18 loci that were associated at genome-wide significance with either mean diffusivity (n = 16) or fractional anisotropy (n = 6). Among the top loci was a region on chromosome 6 encoding the human major histocompatibility complex (MHC). Variants in the MHC region were strongly associated with both mean diffusivity [best SNP: 6:28866209&#95;TTTTG&#95;T, beta (standard error, SE) = -0.069 (0.009); 2df P = 6.5 × 10-15] and fractional anisotropy [best SNP: rs3129787, beta (SE) = -0.056 (0.008); 2df P = 3.5 × 10-12]. Of the imputed human leukocyte antigen (HLA) alleles and complement component 4 (C4) structural haplotype variants in the human MHC, the strongest association was with the C4-BS variant [for mean diffusivity: beta (SE) = -0.070 (0.010); P = 2.7 × 10-11; for fractional anisotropy: beta (SE) = -0.054 (0.011); P = 1.6 × 10-7]. After conditioning on C4-BS no associations with HLA alleles remained significant. The protective influence of C4-BS was stronger in older participants [age ≥ 65; interaction P = 0.0019 (mean diffusivity), P = 0.015 (fractional anisotropy)] and in participants without a history of smoking [interaction P = 0.00093 (mean diffusivity), P = 0.021 (fractional anisotropy)]. Taken together, our findings demonstrate a role of the complement system and of gene-environment interactions in age-related loss of white matter microstructural integrity., (© The Author(s) (2021). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2022

36. Assessing cortical cerebral microinfarcts on iron-sensitive MRI in cerebral small vessel disease.

Author

Wiegertjes K, Chan KS, Telgte AT, Gesierich B, Norris DG, Klijn CJ, Duering M, Tuladhar AM, Marques JP, and Leeuw FE

Subjects

Aged, Female, Humans, Male, Cerebral Cortex diagnostic imaging, Cerebral Cortex metabolism, Cerebral Infarction diagnostic imaging, Cerebral Infarction metabolism, Cerebral Small Vessel Diseases diagnostic imaging, Cerebral Small Vessel Diseases metabolism, Diffusion Magnetic Resonance Imaging, Iron metabolism

Abstract

Recent studies suggest that a subset of cortical microinfarcts may be identifiable on T2* but invisible on T1 and T2 follow-up images. We aimed to investigate whether cortical microinfarcts are associated with iron accumulation after the acute stage. The RUN DMC - InTENse study is a serial MRI study including individuals with cerebral small vessel disease (SVD). 54 Participants underwent 10 monthly 3 T MRIs, including diffusion-weighted imaging, quantitative R1 (=1/T1), R2 (=1/T2), and R2* (=1/T2*) mapping, from which MRI parameters within areas corresponding to microinfarcts and control region of interests (ROIs) were retrieved within 16 participants. Finally, we compared pre- and post-lesional values with repeated measures ANOVA and post-hoc paired t -tests using the mean difference between lesion and control ROI values. We observed 21 acute cortical microinfarcts in 7 of the 54 participants (median age 69 years [IQR 66-74], 63% male). R2* maps demonstrated an increase in R2* values at the moment of the last available follow-up MRI (median [IQR], 5 [5-14] weeks after infarction) relative to prelesional values ( p  = .08), indicative of iron accumulation. Our data suggest that cortical microinfarcts are associated with increased R2* values, indicative of iron accumulation, possibly due to microhemorrhages, neuroinflammation or neurodegeneration, awaiting histopathological verification.

Published

2021

37. Neurovascular Reactivity in the Aging Mouse Brain Assessed by Laser Speckle Contrast Imaging and 2-Photon Microscopy: Quantification by an Investigator-Independent Analysis Tool.

Author

Seker FB, Fan Z, Gesierich B, Gaubert M, Sienel RI, and Plesnila N

Abstract

The brain has a high energy demand but little to no energy stores. Therefore, proper brain function relies on the delivery of glucose and oxygen by the cerebral vasculature. The regulation of cerebral blood flow (CBF) occurs at the level of the cerebral capillaries and is driven by a fast and efficient crosstalk between neurons and vessels, a process termed neurovascular coupling (NVC). Experimentally NVC is mainly triggered by sensory stimulation and assessed by measuring either CBF by laser Doppler fluxmetry, laser speckle contrast imaging (LSCI), intrinsic optical imaging, BOLD fMRI, near infrared spectroscopy (NIRS) or functional ultrasound imaging (fUS). Since these techniques have relatively low spatial resolution, diameters of cerebral vessels are mainly assessed by 2-photon microscopy (2-PM). Results of studies on NVC rely on stable animal physiology, high-quality data acquisition, and unbiased data analysis, criteria, which are not easy to achieve. In the current study, we assessed NVC using two different imaging modalities, i.e., LSCI and 2-PM, and analyzed our data using an investigator-independent Matlab-based analysis tool, after manually defining the area of analysis in LSCI and vessels to measure in 2-PM. By investigating NVC in 6-8 weeks, 1-, and 2-year-old mice, we found that NVC was maximal in 1-year old mice and was significantly reduced in aged mice. These findings suggest that NVC is differently affected during the aging process. Most interestingly, specifically pial arterioles, seem to be distinctly affected by the aging. The main finding of our study is that the automated analysis tool works very efficiently in terms of time and accuracy. In fact, the tool reduces the analysis time of one animal from approximately 23 h to about 2 s while basically making no mistakes. In summary, we developed an experimental workflow, which allows us to reliably measure NVC with high spatial and temporal resolution in young and aged mice and to analyze these data in an investigator-independent manner., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Seker, Fan, Gesierich, Gaubert, Sienel and Plesnila.)

Published

2021

38. Whole-exome sequencing reveals a role of HTRA1 and EGFL8 in brain white matter hyperintensities.

Author

Malik R, Beaufort N, Frerich S, Gesierich B, Georgakis MK, Rannikmäe K, Ferguson AC, Haffner C, Traylor M, Ehrmann M, Sudlow CLM, and Dichgans M

Subjects

Female, HEK293 Cells, Humans, Male, Middle Aged, United Kingdom epidemiology, Brain diagnostic imaging, Calcium-Binding Proteins genetics, EGF Family of Proteins genetics, High-Temperature Requirement A Serine Peptidase 1 genetics, White Matter diagnostic imaging, Exome Sequencing methods

Abstract

White matter hyperintensities (WMH) are among the most common radiological abnormalities in the ageing population and an established risk factor for stroke and dementia. While common variant association studies have revealed multiple genetic loci with an influence on their volume, the contribution of rare variants to the WMH burden in the general population remains largely unexplored. We conducted a comprehensive analysis of this burden in the UK Biobank using publicly available whole-exome sequencing data (n up to 17 830) and found a splice-site variant in GBE1, encoding 1,4-alpha-glucan branching enzyme 1, to be associated with lower white matter burden on an exome-wide level [c.691+2T>C, β = -0.74, standard error (SE) = 0.13, P = 9.7 × 10-9]. Applying whole-exome gene-based burden tests, we found damaging missense and loss-of-function variants in HTRA1 (frequency of 1 in 275 in the UK Biobank population) to associate with an increased WMH volume (P = 5.5 × 10-6, false discovery rate = 0.04). HTRA1 encodes a secreted serine protease implicated in familial forms of small vessel disease. Domain-specific burden tests revealed that the association with WMH volume was restricted to rare variants in the protease domain (amino acids 204-364; β = 0.79, SE = 0.14, P = 9.4 × 10-8). The frequency of such variants in the UK Biobank population was 1 in 450. The WMH volume was brought forward by ∼11 years in carriers of a rare protease domain variant. A comparison with the effect size of established risk factors for WMH burden revealed that the presence of a rare variant in the HTRA1 protease domain corresponded to a larger effect than meeting the criteria for hypertension (β = 0.26, SE = 0.02, P = 2.9 × 10-59) or being in the upper 99.8% percentile of the distribution of a polygenic risk score based on common genetic variants (β = 0.44, SE = 0.14, P = 0.002). In biochemical experiments, most (6/9) of the identified protease domain variants resulted in markedly reduced protease activity. We further found EGFL8, which showed suggestive evidence for association with WMH volume (P = 1.5 × 10-4, false discovery rate = 0.22) in gene burden tests, to be a direct substrate of HTRA1 and to be preferentially expressed in cerebral arterioles and arteries. In a phenome-wide association study mapping ICD-10 diagnoses to 741 standardized Phecodes, rare variants in the HTRA1 protease domain were associated with multiple neurological and non-neurological conditions including migraine with aura (odds ratio = 12.24, 95%CI: 2.54-35.25; P = 8.3 × 10-5]. Collectively, these findings highlight an important role of rare genetic variation and the HTRA1 protease in determining WMH burden in the general population., (© The Author(s) (2021). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2021

39. Multi-shell Diffusion MRI Models for White Matter Characterization in Cerebral Small Vessel Disease.

Author

Konieczny MJ, Dewenter A, Ter Telgte A, Gesierich B, Wiegertjes K, Finsterwalder S, Kopczak A, Hübner M, Malik R, Tuladhar AM, Marques JP, Norris DG, Koch A, Dietrich O, Ewers M, Schmidt R, de Leeuw FE, and Duering M

Subjects

Adult, Aged, CADASIL physiopathology, CADASIL psychology, Cerebral Hemorrhage diagnostic imaging, Cerebral Small Vessel Diseases physiopathology, Cerebral Small Vessel Diseases psychology, Diffusion Tensor Imaging, Disease Progression, Female, Humans, Image Processing, Computer-Assisted, Leukoaraiosis diagnostic imaging, Male, Middle Aged, Stroke, Lacunar diagnostic imaging, CADASIL diagnostic imaging, Cerebral Small Vessel Diseases diagnostic imaging, Diffusion Magnetic Resonance Imaging methods, White Matter diagnostic imaging

Abstract

Objective: To test the hypothesis that multi-shell diffusion models improve the characterization of microstructural alterations in cerebral small vessel disease (SVD), we assessed associations with processing speed performance, longitudinal change, and reproducibility of diffusion metrics., Methods: We included 50 patients with sporadic and 59 patients with genetically defined SVD (cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy [CADASIL]) with cognitive testing and standardized 3T MRI, including multi-shell diffusion imaging. We applied the simple diffusion tensor imaging (DTI) model and 2 advanced models: diffusion kurtosis imaging (DKI) and neurite orientation dispersion and density imaging (NODDI). Linear regression and multivariable random forest regression (including conventional SVD markers) were used to determine associations between diffusion metrics and processing speed performance. The detection of short-term disease progression was assessed by linear mixed models in 49 patients with sporadic SVD with longitudinal high-frequency imaging (in total 459 MRIs). Intersite reproducibility was determined in 10 patients with CADASIL scanned back-to-back on 2 different 3T MRI scanners., Results: Metrics from DKI showed the strongest associations with processing speed performance ( R 2 up to 21%) and the largest added benefit on top of conventional SVD imaging markers in patients with sporadic SVD and patients with CADASIL with lower SVD burden. Several metrics from DTI and DKI performed similarly in detecting disease progression. Reproducibility was excellent (intraclass correlation coefficient >0.93) for DTI and DKI metrics. NODDI metrics were less reproducible., Conclusion: Multi-shell diffusion imaging and DKI improve the detection and characterization of cognitively relevant microstructural white matter alterations in SVD. Excellent reproducibility of diffusion metrics endorses their use as SVD markers in research and clinical care. Our publicly available intersite dataset facilitates future studies., Classification of Evidence: This study provides Class I evidence that in patients with SVD, diffusion MRI metrics are associated with processing speed performance., (© 2020 American Academy of Neurology.)

Published

2021

40. Small vessel disease more than Alzheimer's disease determines diffusion MRI alterations in memory clinic patients.

Author

Finsterwalder S, Vlegels N, Gesierich B, Araque Caballero MÁ, Weaver NA, Franzmeier N, Georgakis MK, Konieczny MJ, Koek HL, Karch CM, Graff-Radford NR, Salloway S, Oh H, Allegri RF, Chhatwal JP, Jessen F, Düzel E, Dobisch L, Metzger C, Peters O, Incesoy EI, Priller J, Spruth EJ, Schneider A, Fließbach K, Buerger K, Janowitz D, Teipel SJ, Kilimann I, Laske C, Buchmann M, Heneka MT, Brosseron F, Spottke A, Roy N, Ertl-Wagner B, Scheffler K, Seo SW, Kim Y, Na DL, Kim HJ, Jang H, Ewers M, Levin J, Schmidt R, Pasternak O, Dichgans M, Biessels GJ, and Duering M

Subjects

Adult, Aged, Diffusion Magnetic Resonance Imaging, Female, Humans, Male, Middle Aged, Alzheimer Disease diagnostic imaging, Alzheimer Disease pathology, Brain diagnostic imaging, Brain pathology, Cerebral Small Vessel Diseases diagnostic imaging, Cerebral Small Vessel Diseases pathology

Abstract

Introduction: Microstructural alterations as assessed by diffusion tensor imaging (DTI) are key findings in both Alzheimer's disease (AD) and small vessel disease (SVD). We determined the contribution of each of these conditions to diffusion alterations., Methods: We studied six samples (N = 365 participants) covering the spectrum of AD and SVD, including genetically defined samples. We calculated diffusion measures from DTI and free water imaging. Simple linear, multivariable random forest, and voxel-based regressions were used to evaluate associations between AD biomarkers (amyloid beta, tau), SVD imaging markers, and diffusion measures., Results: SVD markers were strongly associated with diffusion measures and showed a higher contribution than AD biomarkers in multivariable analysis across all memory clinic samples. Voxel-wise analyses between tau and diffusion measures were not significant., Discussion: In memory clinic patients, the effect of SVD on diffusion alterations largely exceeds the effect of AD, supporting the value of diffusion measures as markers of SVD., (© 2020 the Alzheimer's Association.)

Published

2020

41. Cross-sectional and Longitudinal Assessment of Brain Iron Level in Alzheimer Disease Using 3-T MRI.

Author

Damulina A, Pirpamer L, Soellradl M, Sackl M, Tinauer C, Hofer E, Enzinger C, Gesierich B, Duering M, Ropele S, Schmidt R, and Langkammer C

Subjects

Aged, Aged, 80 and over, Humans, Middle Aged, Prospective Studies, Alzheimer Disease diagnostic imaging, Brain diagnostic imaging, Brain Chemistry physiology, Iron analysis, Magnetic Resonance Imaging methods

Abstract

Background Deep gray matter structures in patients with Alzheimer disease (AD) contain higher brain iron concentrations. However, few studies have included neocortical areas, which are challenging to assess with MRI. Purpose To investigate baseline and change in brain iron levels using MRI at 3 T with R2* relaxation rate mapping in individuals with AD compared with healthy control (HC) participants. Materials and Methods In this prospective study, participants with AD recruited between 2010 and 2016 and age-matched HC participants selected from 2010 to 2014 were evaluated. Of 100 participants with AD, 56 underwent subsequent neuropsychological testing and brain MRI at a mean follow-up of 17 months. All participants underwent 3-T MRI, including R2* mapping corrected for macroscopic B0 field inhomogeneities. Anatomic structures were segmented, and median R2* values were calculated in the neocortex and cortical lobes, basal ganglia (BG), hippocampi, and thalami. Multivariable linear regression analysis was applied to study the difference in R2* levels between groups and the association between longitudinal changes in R2* values and cognition in the AD group. Results A total of 100 participants with AD (mean age, 73 years ± 9 [standard deviation]; 58 women) and 100 age-matched HC participants (mean age, 73 years ± 9; 60 women) were evaluated. Median R2* levels were higher in the AD group than in the HC group in the BG (HC, 29.0 sec -1 ; AD, 30.2 sec -1 ; P = .01) and total neocortex (HC, 17.0 sec -1 ; AD, 17.4 sec -1 ; P < .001) and regionally in the occipital (HC, 19.6 sec -1 ; AD, 20.2 sec -1 ; P = .007) and temporal (HC, 16.4 sec -1 ; AD, 18.1 sec -1 ; P < .001) lobes. R2* values in the temporal lobe were associated with longitudinal changes in Consortium to Establish a Registry for Alzheimer's Disease total score (β = -3.23 score/sec -1 , P = .003) in participants with AD independent of longitudinal changes in brain volume. Conclusion Iron concentration in the deep gray matter and neocortical regions was higher in patients with Alzheimer disease than in healthy control participants. Change in iron levels over time in the temporal lobe was associated with cognitive decline in individuals with Alzheimer disease. © RSNA, 2020 Online supplemental material is available for this article.

Published

2020

42. Alterations and test-retest reliability of functional connectivity network measures in cerebral small vessel disease.

Author

Gesierich B, Tuladhar AM, Ter Telgte A, Wiegertjes K, Konieczny MJ, Finsterwalder S, Hübner M, Pirpamer L, Koini M, Abdulkadir A, Franzmeier N, Norris DG, Marques JP, Zu Eulenburg P, Ewers M, Schmidt R, de Leeuw FE, and Duering M

Subjects

Adult, Aged, Aged, 80 and over, CADASIL diagnostic imaging, CADASIL pathology, CADASIL physiopathology, Connectome methods, Cross-Sectional Studies, Diffusion Tensor Imaging methods, Female, Humans, Longitudinal Studies, Male, Middle Aged, Reproducibility of Results, Cerebral Small Vessel Diseases diagnostic imaging, Cerebral Small Vessel Diseases pathology, Cerebral Small Vessel Diseases physiopathology, Cognitive Dysfunction diagnostic imaging, Cognitive Dysfunction pathology, Cognitive Dysfunction physiopathology, Connectome standards, Default Mode Network diagnostic imaging, Default Mode Network pathology, Default Mode Network physiopathology, Diffusion Tensor Imaging standards, Nerve Net diagnostic imaging, Nerve Net pathology, Nerve Net physiopathology

Abstract

While structural network analysis consolidated the hypothesis of cerebral small vessel disease (SVD) being a disconnection syndrome, little is known about functional changes on the level of brain networks. In patients with genetically defined SVD (CADASIL, n = 41) and sporadic SVD (n = 46), we independently tested the hypothesis that functional networks change with SVD burden and mediate the effect of disease burden on cognitive performance, in particular slowing of processing speed. We further determined test-retest reliability of functional network measures in sporadic SVD patients participating in a high-frequency (monthly) serial imaging study (RUN DMC-InTENse, median: 8 MRIs per participant). Functional networks for the whole brain and major subsystems (i.e., default mode network, DMN; fronto-parietal task control network, FPCN; visual network, VN; hand somatosensory-motor network, HSMN) were constructed based on resting-state multi-band functional MRI. In CADASIL, global efficiency (a graph metric capturing network integration) of the DMN was lower in patients with high disease burden (standardized beta = -.44; p [corrected] = .035) and mediated the negative effect of disease burden on processing speed (indirect path: std. beta = -.20, p = .047; direct path: std. beta = -.19, p = .25; total effect: std. beta = -.39, p = .02). The corresponding analyses in sporadic SVD showed no effect. Intraclass correlations in the high-frequency serial MRI dataset of the sporadic SVD patients revealed poor test-retest reliability and analysis of individual variability suggested an influence of age, but not disease burden, on global efficiency. In conclusion, our results suggest that changes in functional connectivity networks mediate the effect of SVD-related brain damage on cognitive deficits. However, limited reliability of functional network measures, possibly due to age-related comorbidities, impedes the analysis in elderly SVD patients., (© 2020 The Authors. Human Brain Mapping published by Wiley Periodicals, Inc.)

Published

2020

43. Within-lesion heterogeneity of subcortical DWI lesion evolution, and stroke outcome: A voxel-based analysis.

Author

Duering M, Adam R, Wollenweber FA, Bayer-Karpinska A, Baykara E, Cubillos-Pinilla LY, Gesierich B, Araque Caballero MÁ, Stoecklein S, Ewers M, Pasternak O, and Dichgans M

Subjects

Aged, Aged, 80 and over, Diffusion Magnetic Resonance Imaging methods, Female, Humans, Male, Middle Aged, Neuroimaging methods, Image Interpretation, Computer-Assisted methods, Recovery of Function, Stroke diagnostic imaging, Stroke pathology

Abstract

The fate of subcortical diffusion-weighted imaging (DWI) lesions in stroke patients is highly variable, ranging from complete tissue loss to no visible lesion on follow-up. Little is known about within-lesion heterogeneity and its relevance for stroke outcome. Patients with subcortical stroke and recruited through the prospective DEDEMAS study (NCT01334749) were examined at baseline ( n  = 45), six months ( n  = 45), and three years ( n  = 28) post-stroke. We performed high-resolution structural MRI including DWI. Tissue fate was determined voxel-wise using fully automated tissue segmentation. Within-lesion heterogeneity at baseline was assessed by free water diffusion imaging measures. The majority of DWI lesions (66%) showed cavitation on six months follow-up but the proportion of tissue turning into a cavity was small (9 ± 13.5% of the DWI lesion). On average, 69 ± 25% of the initial lesion resolved without any visually apparent signal abnormality. The extent of cavitation at six months post-stroke was independently associated with clinical outcome, i.e. modified Rankin scale score at six months (OR = 4.71, p  = 0.005). DWI lesion size and the free water-corrected tissue mean diffusivity at baseline independently predicted cavitation. In conclusion, the proportion of cavitating tissue is typically small, but relevant for clinical outcome. Within-lesion heterogeneity at baseline on advanced diffusion imaging is predictive of tissue fate.

Published

2020

44. Temporal Dynamics of Cortical Microinfarcts in Cerebral Small Vessel Disease.

Author

Ter Telgte A, Wiegertjes K, Gesierich B, Baskaran BS, Marques JP, Kuijf HJ, Norris DG, Tuladhar AM, Duering M, and de Leeuw FE

Subjects

Aged, Cohort Studies, Diffusion Magnetic Resonance Imaging methods, Female, Humans, Incidence, Male, Time Factors, Cerebral Infarction diagnostic imaging, Cerebral Infarction epidemiology, Cerebral Infarction etiology, Cerebral Small Vessel Diseases complications, Cerebral Small Vessel Diseases pathology

Abstract

Importance: Neuropathology studies show a high prevalence of cortical microinfarcts (CMIs) in aging individuals, especially in patients with cerebrovascular disease and dementia. However, most, are invisible on T1- and T2-weighted magnetic resonance imaging (MRI), raising the question of how to explain this mismatch. Studies on small acute infarcts, detected on diffusion-weighted imaging (DWI), suggest that infarcts are largest in their acute phase and reduce in size thereafter. Therefore, we hypothesized that a subset of the CMI that are invisible on MRI can be detected on MRI in their acute phase. However, to our knowledge, a serial imaging study investigating the temporal dynamics of acute CMI (A-CMI) is lacking., Objective: To determine the prevalence of chronic CMI (C-CMI) and the cumulative incidence and temporal dynamics of A-CMI in individuals with cerebral small vessel disease (SVD)., Design, Setting, Participants and Exposures: The RUN DMC-Intense study is a single-center hospital-based prospective cohort study on SVD performed between March 2016 and November 2017 and comprising 10 monthly 3-T MRI scans, including high-resolution DWI, 3-dimensional T1, 3-dimensional fluid-attenuated inversion recovery, and T2. One hundred six individuals from the previous longitudinal RUN DMC study were recruited based on the presence of progression of white matter hyperintensities on MRI between 2006 and 2015 and exclusion of causes of cerebral ischemia other than SVD. Fifty-four individuals (50.9%) participated. The median total follow-up duration was 39.5 weeks (interquartile range, 37.8-40.3). Statistical data analysis was performed between May and October 2019., Main Outcomes and Measures: We determined the prevalence of C-CMI using the baseline T1, fluid-attenuated inversion recovery, and T2 scans. Monthly high-resolution DWI scans (n = 472) were screened to determine the cumulative incidence of A-CMI. The temporal dynamics of A-CMI were determined based on the MRI scans collected during the first follow-up visit after A-CMI onset and the last available follow-up visit., Results: The median age of the cohort at baseline MRI was 69 years (interquartile range, 66-74 years) and 34 participants (63%) were men. The prevalence of C-CMI was 35% (95% CI, 0.24-0.49). Monthly DWI detected 21 A-CMI in 7 of 54 participants, resulting in a cumulative incidence of 13% (95% CI, 0.06-0.24). All A-CMI disappeared on follow-up MRI., Conclusions and Relevance: Acute CMI never evolved into chronically MRI-detectable lesions. We suggest that these A-CMI underlie part of the submillimeter C-CMI encountered on neuropathological examination and thereby provide a source for the high CMI burden on neuropathology.

Published

2020

45. Cellular and Molecular Probing of Intact Human Organs.

Author

Zhao S, Todorov MI, Cai R, -Maskari RA, Steinke H, Kemter E, Mai H, Rong Z, Warmer M, Stanic K, Schoppe O, Paetzold JC, Gesierich B, Wong MN, Huber TB, Duering M, Bruns OT, Menze B, Lipfert J, Puelles VG, Wolf E, Bechmann I, and Ertürk A

Subjects

Aged, 80 and over, Animals, Brain diagnostic imaging, Eye diagnostic imaging, Female, Humans, Imaging, Three-Dimensional standards, Kidney diagnostic imaging, Limit of Detection, Male, Mice, Middle Aged, Optical Imaging standards, Pancreas diagnostic imaging, Staining and Labeling standards, Swine, Thyroid Gland diagnostic imaging, Deep Learning, Imaging, Three-Dimensional methods, Optical Imaging methods, Staining and Labeling methods

Abstract

Optical tissue transparency permits scalable cellular and molecular investigation of complex tissues in 3D. Adult human organs are particularly challenging to render transparent because of the accumulation of dense and sturdy molecules in decades-aged tissues. To overcome these challenges, we developed SHANEL, a method based on a new tissue permeabilization approach to clear and label stiff human organs. We used SHANEL to render the intact adult human brain and kidney transparent and perform 3D histology with antibodies and dyes in centimeters-depth. Thereby, we revealed structural details of the intact human eye, human thyroid, human kidney, and transgenic pig pancreas at the cellular resolution. Furthermore, we developed a deep learning pipeline to analyze millions of cells in cleared human brain tissues within hours with standard lab computers. Overall, SHANEL is a robust and unbiased technology to chart the cellular and molecular architecture of large intact mammalian organs., Competing Interests: Declaration of Interests A.E. has filed a patent on SHANEL technologies described in this study., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

46. Microglia monitor and protect neuronal function through specialized somatic purinergic junctions.

Author

Cserép C, Pósfai B, Lénárt N, Fekete R, László ZI, Lele Z, Orsolits B, Molnár G, Heindl S, Schwarcz AD, Ujvári K, Környei Z, Tóth K, Szabadits E, Sperlágh B, Baranyi M, Csiba L, Hortobágyi T, Maglóczky Z, Martinecz B, Szabó G, Erdélyi F, Szipőcs R, Tamkun MM, Gesierich B, Duering M, Katona I, Liesz A, Tamás G, and Dénes Á

Subjects

Animals, Brain ultrastructure, Brain Injuries pathology, Calcium, Cell Communication immunology, HEK293 Cells, Humans, Mice, Mitochondria immunology, Shab Potassium Channels genetics, Shab Potassium Channels physiology, Signal Transduction, Brain immunology, Brain Injuries immunology, Intercellular Junctions immunology, Microglia immunology, Neurons immunology, Receptors, Purinergic P2Y12 physiology

Abstract

Microglia are the main immune cells in the brain and have roles in brain homeostasis and neurological diseases. Mechanisms underlying microglia-neuron communication remain elusive. Here, we identified an interaction site between neuronal cell bodies and microglial processes in mouse and human brain. Somatic microglia-neuron junctions have a specialized nanoarchitecture optimized for purinergic signaling. Activity of neuronal mitochondria was linked with microglial junction formation, which was induced rapidly in response to neuronal activation and blocked by inhibition of P2Y12 receptors. Brain injury-induced changes at somatic junctions triggered P2Y12 receptor-dependent microglial neuroprotection, regulating neuronal calcium load and functional connectivity. Thus, microglial processes at these junctions could potentially monitor and protect neuronal functions., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2020

47. Minor gait impairment despite white matter damage in pure small vessel disease.

Author

Finsterwalder S, Wuehr M, Gesierich B, Dietze A, Konieczny MJ, Schmidt R, Schniepp R, and Duering M

Subjects

Adult, CADASIL complications, CADASIL diagnostic imaging, Cognitive Dysfunction etiology, Diffusion Tensor Imaging, Female, Gait Disorders, Neurologic etiology, Humans, Male, Middle Aged, Prospective Studies, White Matter diagnostic imaging, CADASIL pathology, CADASIL physiopathology, Cognitive Dysfunction physiopathology, Executive Function physiology, Gait Disorders, Neurologic physiopathology, Psychomotor Performance physiology, White Matter pathology

Abstract

Objective: Gait impairment is common in patients with cerebral small vessel disease (SVD). However, gait studies in elderly SVD patients might be confounded by age-related comorbidities, such as polyneuropathy or sarcopenia. We therefore studied young patients with the genetically defined SVD CADASIL. Our aim was to examine the effects of pure SVD on single and dual task gait, and to investigate associations of gait performance with cognitive deficits and white matter alterations., Methods: We investigated single task walking and calculatory, semantic, or motoric dual task costs in 39 CADASIL patients (mean age 50 ± 8) using a computerized walkway. We obtained 3.0T MRI and neuropsychological data on processing speed, the main cognitive deficit in CADASIL. Spatiotemporal gait parameters were standardized based on data from 192 healthy controls. Associations between white matter integrity, assessed by diffusion tensor imaging, and gait were analyzed using both a global marker and voxel-wise analysis., Results: Compared to controls, CADASIL patients showed only mild single task gait impairment, and only in the rhythm domain. The semantic dual task additionally uncovered mild deficits in the pace domain. Processing speed was not associated with gait. White matter alterations were related to single task stride length but not to dual task performance., Interpretation: Despite severe disease burden, gait performance in patients with pure small vessel disease was relatively preserved in single and dual tasks. Results suggest that age-related pathologies other than small vessel disease might play a role for gait impairment in elderly SVD patients., (© 2019 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals, Inc on behalf of American Neurological Association.)

Published

2019

48. Contribution of acute infarcts to cerebral small vessel disease progression.

Author

Ter Telgte A, Wiegertjes K, Gesierich B, Marques JP, Huebner M, de Klerk JJ, Schreuder FHBM, Araque Caballero MA, Kuijf HJ, Norris DG, Klijn CJM, Dichgans M, Tuladhar AM, Duering M, and de Leeuw FE

Subjects

Aged, Aged, 80 and over, Brain Infarction complications, Cerebral Small Vessel Diseases complications, Diffusion Magnetic Resonance Imaging, Disease Progression, Female, Humans, Incidence, Intracranial Hemorrhages complications, Intracranial Hemorrhages pathology, Male, Neuroimaging, Stroke, Lacunar complications, Stroke, Lacunar pathology, White Matter blood supply, White Matter pathology, Brain Infarction pathology, Cerebral Small Vessel Diseases pathology

Abstract

Objective: To determine the contribution of acute infarcts, evidenced by diffusion-weighted imaging positive (DWI+) lesions, to progression of white matter hyperintensities (WMH) and other cerebral small vessel disease (SVD) markers., Methods: We performed monthly 3T magnetic resonance imaging (MRI) for 10 consecutive months in 54 elderly individuals with SVD. MRI included high-resolution multishell DWI, and 3-dimensional fluid-attenuated inversion recovery, T1, and susceptibility-weighted imaging. We determined DWI+ lesion evolution, WMH progression rate (ml/mo), and number of incident lacunes and microbleeds, and calculated for each marker the proportion of progression explained by DWI+ lesions., Results: We identified 39 DWI+ lesions on 21 of 472 DWI scans in 9 of 54 subjects. Of the 36 DWI+ lesions with follow-up MRI, 2 evolved into WMH, 4 evolved into a lacune (3 with cavity <3mm), 3 evolved into a microbleed, and 27 were not detectable on follow-up. WMH volume increased at a median rate of 0.027 ml/mo (interquartile range = 0.005-0.073), but was not significantly higher in subjects with DWI+ lesions compared to those without (p = 0.195). Of the 2 DWI+ lesions evolving into WMH on follow-up, one explained 23% of the total WMH volume increase in one subject, whereas the WMH regressed in the other subject. DWI+ lesions preceded 4 of 5 incident lacunes and 3 of 10 incident microbleeds., Interpretation: DWI+ lesions explain only a small proportion of the total WMH progression. Hence, WMH progression seems to be mostly driven by factors other than acute infarcts. DWI+ lesions explain the majority of incident lacunes and small cavities, and almost one-third of incident microbleeds, confirming that WMH, lacunes, and microbleeds, although heterogeneous on MRI, can have a common initial appearance on MRI. ANN NEUROL 2019;86:582-592., (© 2019 The Authors. Annals of Neurology published by Wiley Periodicals, Inc. on behalf of American Neurological Association.)

Published

2019

49. In vivo widefield calcium imaging of the mouse cortex for analysis of network connectivity in health and brain disease.

Author

Cramer JV, Gesierich B, Roth S, Dichgans M, Düring M, and Liesz A

Subjects

Animals, Cerebral Cortex diagnostic imaging, Cerebral Cortex physiopathology, Disease Models, Animal, Female, Male, Mice, Mice, Inbred C57BL, Motor Cortex injuries, Motor Cortex physiopathology, Nerve Net diagnostic imaging, Nerve Net physiopathology, Prosencephalon diagnostic imaging, Prosencephalon physiopathology, Stroke diagnostic imaging, Calcium, Cerebral Cortex physiology, Connectome methods, Nerve Net physiology, Neuroimaging methods, Optical Imaging methods, Prosencephalon physiology, Stroke physiopathology

Abstract

The organization of brain areas in functionally connected networks, their dynamic changes, and perturbations in disease states are subject of extensive investigations. Research on functional networks in humans predominantly uses functional magnetic resonance imaging (fMRI). However, adopting fMRI and other functional imaging methods to mice, the most widely used model to study brain physiology and disease, poses major technical challenges and faces important limitations. Hence, there is great demand for alternative imaging modalities for network characterization. Here, we present a refined protocol for in vivo widefield calcium imaging of both cerebral hemispheres in mice expressing a calcium sensor in excitatory neurons. We implemented a stringent protocol for minimizing anesthesia and excluding movement artifacts which both imposed problems in previous approaches. We further adopted a method for unbiased identification of functional cortical areas using independent component analysis (ICA) on resting-state imaging data. Biological relevance of identified components was confirmed using stimulus-dependent cortical activation. To explore this novel approach in a model of focal brain injury, we induced photothrombotic lesions of the motor cortex, determined changes in inter- and intrahemispheric connectivity at multiple time points up to 56 days post-stroke and correlated them with behavioral deficits. We observed a severe loss in interhemispheric connectivity after stroke, which was partially restored in the chronic phase and associated with corresponding behavioral motor deficits. Taken together, we present an improved widefield calcium imaging tool accounting for anesthesia and movement artifacts, adopting an advanced analysis pipeline based on human fMRI algorithms and with superior sensitivity to recovery mechanisms in mouse models compared to behavioral tests. This tool will enable new studies on interhemispheric connectivity in murine models with comparability to human imaging studies for a wide spectrum of neuroscience applications in health and disease., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2019

50. The Neural Representations of Movement across Semantic Categories.

Author

Borghesani V, Riello M, Gesierich B, Brentari V, Monti A, and Gorno-Tempini ML

Subjects

Adult, Cerebral Cortex diagnostic imaging, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Nerve Net diagnostic imaging, Semantics, Young Adult, Brain Mapping, Cerebral Cortex physiology, Judgment physiology, Movement physiology, Nerve Net physiology

Abstract

Previous evidence from neuropsychological and neuroimaging studies suggests functional specialization for tools and related semantic knowledge in a left frontoparietal network. It is still debated whether these areas are involved in the representation of rudimentary movement-relevant knowledge regardless of semantic domains (animate vs. inanimate) or categories (tools vs. nontool objects). Here, we used fMRI to record brain activity while 13 volunteers performed two semantic judgment tasks on visually presented items from three different categories: animals, tools, and nontool objects. Participants had to judge two distinct semantic features: whether two items typically move in a similar way (e.g., a fan and a windmill move in circular motion) or whether they are usually found in the same environment (e.g., a seesaw and a swing are found in a playground). We investigated differences in overall activation (which areas are involved) as well as representational content (which information is encoded) across semantic features and categories. Results of voxel-wise mass univariate analysis showed that, regardless of semantic category, a dissociation emerges between processing information on prototypical location (involving the anterior temporal cortex and the angular gyrus) and movement (linked to left inferior parietal and frontal activation). Multivoxel pattern correlation analyses confirmed the representational segregation of networks encoding task- and category-related aspects of semantic processing. Taken together, these findings suggest that the left frontoparietal network is recruited to process movement properties of items (including both biological and nonbiological motion) regardless of their semantic category.

Published

2019