Your search keyword '"Jedynak, Bruno"' showing total 5 results

1. Structural cerebellar correlates of cognitive and motor dysfunctions in cerebellar degeneration.

Author

Kansal K, Yang Z, Fishman AM, Sair HI, Ying SH, Jedynak BM, Prince JL, and Onyike CU

Subjects

Adult, Aged, Case-Control Studies, Cerebellar Diseases diagnostic imaging, Cerebellum diagnostic imaging, Cerebellum physiopathology, Cognition Disorders diagnostic imaging, Cross-Sectional Studies, Female, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Middle Aged, Motor Disorders diagnostic imaging, Neuropsychological Tests, Severity of Illness Index, Statistics as Topic, Statistics, Nonparametric, Cerebellar Diseases complications, Cerebellum pathology, Cognition Disorders etiology, Motor Disorders etiology

Abstract

See King et al. (doi:10.1093/aww348) for a scientific commentary on this article.Detailed mapping of clinical dysfunctions to the cerebellar lobules in disease populations is necessary to establish the functional significance of lobules implicated in cognitive and motor functions in normal subjects. This study constitutes the first quantitative examination of the lobular correlates of a broad range of cognitive and motor phenomena in cerebellar disease. We analysed cross-sectional data from 72 cases with cerebellar disease and 36 controls without cerebellar disease. Cerebellar lobule volumes were derived from a graph-cut based segmentation algorithm. Sparse partial least squares, a variable selection approach, was used to identify lobules associated with motor function, language, executive function, memory, verbal learning, perceptual organization and visuomotor coordination. Motor dysfunctions were chiefly associated with the anterior lobe and posterior lobule HVI. Confrontation naming, noun fluency, recognition, and perceptual organization did not have cerebellar associations. Verb and phonemic fluency, working memory, cognitive flexibility, immediate and delayed recall, verbal learning, and visuomotor coordination were variably associated with HVI, Crus I, Crus II, HVII B and/or HIX. Immediate and delayed recall also showed associations with the anterior lobe. These findings provide preliminary anatomical evidence for a functional topography of the cerebellum first defined in task-based functional magnetic resonance imaging studies of normal subjects and support the hypotheses that (i) cerebellar efferents target frontal lobe neurons involved in forming action representations and new search strategies; (ii) there is greater involvement of the cerebellum when immediate recall tasks involve more complex verbal stimuli (e.g. longer words versus digits); and (iii) it is involved in spontaneous retrieval of long-term memory. More generally, they provide an anatomical background for studies that seek the mechanisms by which cognitive and motor dysfunctions arise from cerebellar degeneration. Beyond replicating these findings, future research should employ experimental tasks to probe the integrity of specific functions in cerebellar disease, and new imaging methods to quantitatively map atrophy across the cerebellum., (© The Author (2016). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2017

2. Automated cerebellar lobule segmentation with application to cerebellar structural analysis in cerebellar disease.

Author

Yang Z, Ye C, Bogovic JA, Carass A, Jedynak BM, Ying SH, and Prince JL

Subjects

Female, Humans, Male, Middle Aged, Pattern Recognition, Automated methods, Cerebellum pathology, Image Interpretation, Computer-Assisted methods, Image Processing, Computer-Assisted methods, Magnetic Resonance Imaging methods, Spinocerebellar Ataxias pathology

Abstract

The cerebellum plays an important role in both motor control and cognitive function. Cerebellar function is topographically organized and diseases that affect specific parts of the cerebellum are associated with specific patterns of symptoms. Accordingly, delineation and quantification of cerebellar sub-regions from magnetic resonance images are important in the study of cerebellar atrophy and associated functional losses. This paper describes an automated cerebellar lobule segmentation method based on a graph cut segmentation framework. Results from multi-atlas labeling and tissue classification contribute to the region terms in the graph cut energy function and boundary classification contributes to the boundary term in the energy function. A cerebellar parcellation is achieved by minimizing the energy function using the α-expansion technique. The proposed method was evaluated using a leave-one-out cross-validation on 15 subjects including both healthy controls and patients with cerebellar diseases. Based on reported Dice coefficients, the proposed method outperforms two state-of-the-art methods. The proposed method was then applied to 77 subjects to study the region-specific cerebellar structural differences in three spinocerebellar ataxia (SCA) genetic subtypes. Quantitative analysis of the lobule volumes shows distinct patterns of volume changes associated with different SCA subtypes consistent with known patterns of atrophy in these genetic subtypes., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016

3. Approaching expert results using a hierarchical cerebellum parcellation protocol for multiple inexpert human raters.

Author

Bogovic JA, Jedynak B, Rigg R, Du A, Landman BA, Prince JL, and Ying SH

Subjects

Atrophy pathology, Humans, Observer Variation, Professional Competence, Reproducibility of Results, Sensitivity and Specificity, Algorithms, Cerebellum pathology, Image Enhancement methods, Image Interpretation, Computer-Assisted methods, Pattern Recognition, Automated methods

Abstract

Volumetric measurements obtained from image parcellation have been instrumental in uncovering structure-function relationships. However, anatomical study of the cerebellum is a challenging task. Because of its complex structure, expert human raters have been necessary for reliable and accurate segmentation and parcellation. Such delineations are time-consuming and prohibitively expensive for large studies. Therefore, we present a three-part cerebellar parcellation system that utilizes multiple inexpert human raters that can efficiently and expediently produce results nearly on par with those of experts. This system includes a hierarchical delineation protocol, a rapid verification and evaluation process, and statistical fusion of the inexpert rater parcellations. The quality of the raters' and fused parcellations was established by examining their Dice similarity coefficient, region of interest (ROI) volumes, and the intraclass correlation coefficient of region volume. The intra-rater ICC was found to be 0.93 at the finest level of parcellation., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

4. Feasibility of geometric-intensity-based semi-automated delineation of the tentorium cerebelli from MRI scans.

Author

Penumetcha N, Kabadi S, Jedynak B, Walcutt C, Gado MH, Wang L, and Ratnanather JT

Subjects

Algorithms, Feasibility Studies, Humans, Imaging, Three-Dimensional, Pattern Recognition, Automated, Cerebellum anatomy & histology, Dura Mater anatomy & histology, Magnetic Resonance Imaging methods

Abstract

This paper describes a feasibility study of a method for delineating the tentorium cerebelli in magnetic resonance imaging (MRI) brain scans. The tentorium cerebelli is a thin sheet of dura matter covering the cerebellum and separating it from the posterior part of the temporal lobe and the occipital lobe of the cerebral hemispheres. Cortical structures such as the parahippocampal gyrus can be indistinguishable from tentorium in magnetized prepared rapid gradient echo and T1-weighted MRI scans. Similar intensities in these neighboring regions make it difficult to perform accurate cortical analysis in neuroimaging studies of schizophrenia and Alzheimer's disease. A semi-automated, geometric, intensity-based procedure for delineating the tentorium from a whole-brain scan is described. Initial and final curves are traced within the tentorium. A cost function, based on intensity and Euclidean distance, is computed between the two curves using the Fast Marching method. The initial curve is then evolved to the final curve based on the gradient of the computed costs, generating a series of intermediate curves. These curves are then used to generate a triangulated surface of the tentorium. For 3 scans, surfaces were found to be within 2 voxels from hand segmentations., (Copyright © 2009 by the American Society of Neuroimaging.)

Published

2011

5. Structural cerebellar correlates of cognitive and motor dysfunctions in cerebellar degeneration.

Author

Kansal, Kalyani, Zhen Yang, Fishman, Ann M., Sair, Haris I., Ying, Sarah H., Jedynak, Bruno M., Prince, Jerry L., Onyike, Chiadi U., and Yang, Zhen

Subjects

COGNITION disorders, CEREBELLUM degeneration, BRAIN mapping, MOTOR ability, VISUOMOTOR coordination, CEREBELLUM, CEREBELLUM diseases, DIGITAL image processing, MAGNETIC resonance imaging, NEUROPSYCHOLOGICAL tests, NONPARAMETRIC statistics, RESEARCH funding, STATISTICS, CROSS-sectional method, SEVERITY of illness index, CASE-control method, DISEASE complications

Abstract

See King et al. (doi:10.1093/aww348) for a scientific commentary on this article.Detailed mapping of clinical dysfunctions to the cerebellar lobules in disease populations is necessary to establish the functional significance of lobules implicated in cognitive and motor functions in normal subjects. This study constitutes the first quantitative examination of the lobular correlates of a broad range of cognitive and motor phenomena in cerebellar disease. We analysed cross-sectional data from 72 cases with cerebellar disease and 36 controls without cerebellar disease. Cerebellar lobule volumes were derived from a graph-cut based segmentation algorithm. Sparse partial least squares, a variable selection approach, was used to identify lobules associated with motor function, language, executive function, memory, verbal learning, perceptual organization and visuomotor coordination. Motor dysfunctions were chiefly associated with the anterior lobe and posterior lobule HVI. Confrontation naming, noun fluency, recognition, and perceptual organization did not have cerebellar associations. Verb and phonemic fluency, working memory, cognitive flexibility, immediate and delayed recall, verbal learning, and visuomotor coordination were variably associated with HVI, Crus I, Crus II, HVII B and/or HIX. Immediate and delayed recall also showed associations with the anterior lobe. These findings provide preliminary anatomical evidence for a functional topography of the cerebellum first defined in task-based functional magnetic resonance imaging studies of normal subjects and support the hypotheses that (i) cerebellar efferents target frontal lobe neurons involved in forming action representations and new search strategies; (ii) there is greater involvement of the cerebellum when immediate recall tasks involve more complex verbal stimuli (e.g. longer words versus digits); and (iii) it is involved in spontaneous retrieval of long-term memory. More generally, they provide an anatomical background for studies that seek the mechanisms by which cognitive and motor dysfunctions arise from cerebellar degeneration. Beyond replicating these findings, future research should employ experimental tasks to probe the integrity of specific functions in cerebellar disease, and new imaging methods to quantitatively map atrophy across the cerebellum. [ABSTRACT FROM AUTHOR]

Published

2017