Your search keyword '"Lena Václavů"' showing total 2 results

1. ExploreASL: An image processing pipeline for multi-center ASL perfusion MRI studies

Author

Henk J.M.M. Mutsaerts, Jan Petr, Paul Groot, Pieter Vandemaele, Silvia Ingala, Andrew D. Robertson, Lena Václavů, Inge Groote, Hugo Kuijf, Fernando Zelaya, Owen O’Daly, Saima Hilal, Alle Meije Wink, Ilse Kant, Matthan W.A. Caan, Catherine Morgan, Jeroen de Bresser, Elisabeth Lysvik, Anouk Schrantee, Astrid Bjørnebekk, Patricia Clement, Zahra Shirzadi, Joost P.A. Kuijer, Viktor Wottschel, Udunna C. Anazodo, Dasja Pajkrt, Edo Richard, Reinoud P.H. Bokkers, Liesbeth Reneman, Mario Masellis, Matthias Günther, Bradley J. MacIntosh, Eric Achten, Michael A. Chappell, Matthias J.P. van Osch, Xavier Golay, David L. Thomas, Enrico De Vita, Atle Bjørnerud, Aart Nederveen, Jeroen Hendrikse, Iris Asllani, and Frederik Barkhof

Subjects

Arterial spin labeling, Image processing, Multi-center, Cerebral perfusion, Quality control, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Arterial spin labeling (ASL) has undergone significant development since its inception, with a focus on improving standardization and reproducibility of its acquisition and quantification. In a community-wide effort towards robust and reproducible clinical ASL image processing, we developed the software package ExploreASL, allowing standardized analyses across centers and scanners.The procedures used in ExploreASL capitalize on published image processing advancements and address the challenges of multi-center datasets with scanner-specific processing and artifact reduction to limit patient exclusion. ExploreASL is self-contained, written in MATLAB and based on Statistical Parameter Mapping (SPM) and runs on multiple operating systems. To facilitate collaboration and data-exchange, the toolbox follows several standards and recommendations for data structure, provenance, and best analysis practice.ExploreASL was iteratively refined and tested in the analysis of >10,000 ASL scans using different pulse-sequences in a variety of clinical populations, resulting in four processing modules: Import, Structural, ASL, and Population that perform tasks, respectively, for data curation, structural and ASL image processing and quality control, and finally preparing the results for statistical analyses on both single-subject and group level. We illustrate ExploreASL processing results from three cohorts: perinatally HIV-infected children, healthy adults, and elderly at risk for neurodegenerative disease. We show the reproducibility for each cohort when processed at different centers with different operating systems and MATLAB versions, and its effects on the quantification of gray matter cerebral blood flow.ExploreASL facilitates the standardization of image processing and quality control, allowing the pooling of cohorts which may increase statistical power and discover between-group perfusion differences. Ultimately, this workflow may advance ASL for wider adoption in clinical studies, trials, and practice.

Published

2020

2. ExploreASL

Author

Zahra Shirzadi, Patricia Clement, Matthias J.P. van Osch, Atle Bjørnerud, Silvia Ingala, Paul F. C. Groot, Anouk Schrantee, Frederik Barkhof, Udunna C. Anazodo, Hugo J. Kuijf, Viktor Wottschel, Elisabeth Lysvik, David L. Thomas, Andrew D. Robertson, Lena Václavů, Jeroen de Bresser, Astrid Bjørnebekk, Catherine Morgan, Jeroen Hendrikse, Owen O'Daly, Alle Meije Wink, Iris Asllani, Bradley J. MacIntosh, Mario Masellis, Michael A. Chappell, Inge Rasmus Groote, Saima Hilal, Jan Petr, Matthias Günther, Henk J M M Mutsaerts, Fernando Zelaya, Eric Achten, Enrico De Vita, Liesbeth Reneman, Xavier Golay, Joost P.A. Kuijer, Matthan W.A. Caan, Pieter Vandemaele, Ilse M. J. Kant, Aart J. Nederveen, Reinoud P H Bokkers, Edo Richard, Dasja Pajkrt, Radiology and nuclear medicine, Amsterdam Neuroscience - Brain Imaging, Amsterdam Neuroscience - Neuroinfection & -inflammation, Publica, AII - Cancer immunology, ANS - Brain Imaging, Biomedical Engineering and Physics, ACS - Atherosclerosis & ischemic syndromes, APH - Personalized Medicine, Radiology and Nuclear Medicine, Paediatric Infectious Diseases / Rheumatology / Immunology, AII - Infectious diseases, ARD - Amsterdam Reproduction and Development, AMS - Amsterdam Movement Sciences, AMS - Sports, APH - Mental Health, APH - Methodology, APH - Aging & Later Life, ACS - Diabetes & metabolism, ACS - Microcirculation, and ​Basic and Translational Research and Imaging Methodology Development in Groningen (BRIDGE)

Subjects

Computer science, Arterial spin labeling, Signal-To-Noise Ratio, computer.software_genre, SPIN-LABELING PERFUSION, 0302 clinical medicine, SPATIAL NORMALIZATION, Image Processing, Computer-Assisted, Medicine and Health Sciences, Multi-center, WHITE-MATTER PERFUSION, SUSCEPTIBILITY DISTORTIONS, education.field_of_study, 05 social sciences, Relaxation (NMR), Brain, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], 3. Good health, ALZHEIMERS-DISEASE, Neurology, Cerebral blood flow, Cerebrovascular Circulation, RELAXATION-TIME, Data mining, TEST-RETEST RELIABILITY, Perfusion, Algorithms, Cerebral, Cognitive Neuroscience, Population, Image processing, Mri studies, 050105 experimental psychology, perfusion, lcsh:RC321-571, 03 medical and health sciences, All institutes and research themes of the Radboud University Medical Center, Cerebral perfusion, Humans, 0501 psychology and cognitive sciences, Cerebral perfusion pressure, education, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Reproducibility of Results, Quality control, Pipeline (software), PARTIAL VOLUME CORRECTION, NOISE-REDUCTION, Spatial normalization, CEREBRAL-BLOOD-FLOW, Spin Labels, computer, Magnetic Resonance Angiography, Software, 030217 neurology & neurosurgery

Abstract

Arterial spin labeling (ASL) has undergone significant development since its inception, with a focus on improving standardization and reproducibility of its acquisition and quantification. In a community-wide effort towards robust and reproducible clinical ASL image processing, we developed the software package ExploreASL, allowing standardized analyses across centers and scanners.The procedures used in ExploreASL capitalize on published image processing advancements and address the challenges of multi-center datasets with scanner-specific processing and artifact reduction to limit patient exclusion. ExploreASL is self-contained, written in MATLAB and based on Statistical Parameter Mapping (SPM) and runs on multiple operating systems. To facilitate collaboration and data-exchange, the toolbox follows several standards and recommendations for data structure, provenance, and best analysis practice.ExploreASL was iteratively refined and tested in the analysis of >10,000 ASL scans using different pulse-sequences in a variety of clinical populations, resulting in four processing modules: Import, Structural, ASL, and Population that perform tasks, respectively, for data curation, structural and ASL image processing and quality control, and finally preparing the results for statistical analyses on both single-subject and group level. We illustrate ExploreASL processing results from three cohorts: perinatally HIV-infected children, healthy adults, and elderly at risk for neurodegenerative disease. We show the reproducibility for each cohort when processed at different centers with different operating systems and MATLAB versions, and its effects on the quantification of gray matter cerebral blood flow.ExploreASL facilitates the standardization of image processing and quality control, allowing the pooling of cohorts which may increase statistical power and discover between-group perfusion differences. Ultimately, this workflow may advance ASL for wider adoption in clinical studies, trials, and practice.

Published

2020