Your search keyword '"diffusion MRI tractography"' showing total 3 results

1. Quantifying diffusion MRI tractography of the corticospinal tract in brain tumors with deterministic and probabilistic methods.

Author

Bucci, Monica, Mandelli, Maria, Berman, Jeffrey, Amirbekian, Bagrat, Nguyen, Christopher, Berger, Mitchel, and Henry, Roland

Subjects

Brain tumor, Corticospinal tract, DTI, Diffusion MRI Tractography, Intraoperative electrical stimulation (IES), q-Ball

Abstract

INTRODUCTION: Diffusion MRI tractography has been increasingly used to delineate white matter pathways in vivo for which the leading clinical application is presurgical mapping of eloquent regions. However, there is rare opportunity to quantify the accuracy or sensitivity of these approaches to delineate white matter fiber pathways in vivo due to the lack of a gold standard. Intraoperative electrical stimulation (IES) provides a gold standard for the location and existence of functional motor pathways that can be used to determine the accuracy and sensitivity of fiber tracking algorithms. In this study we used intraoperative stimulation from brain tumor patients as a gold standard to estimate the sensitivity and accuracy of diffusion tensor MRI (DTI) and q-ball models of diffusion with deterministic and probabilistic fiber tracking algorithms for delineation of motor pathways. METHODS: We used preoperative high angular resolution diffusion MRI (HARDI) data (55 directions, b = 2000 s/mm(2)) acquired in a clinically feasible time frame from 12 patients who underwent a craniotomy for resection of a cerebral glioma. The corticospinal fiber tracts were delineated with DTI and q-ball models using deterministic and probabilistic algorithms. We used cortical and white matter IES sites as a gold standard for the presence and location of functional motor pathways. Sensitivity was defined as the true positive rate of delineating fiber pathways based on cortical IES stimulation sites. For accuracy and precision of the course of the fiber tracts, we measured the distance between the subcortical stimulation sites and the tractography result. Positive predictive rate of the delineated tracts was assessed by comparison of subcortical IES motor function (upper extremity, lower extremity, face) with the connection of the tractography pathway in the motor cortex. RESULTS: We obtained 21 cortical and 8 subcortical IES sites from intraoperative mapping of motor pathways. Probabilistic q-ball had the best sensitivity (79%) as determined from cortical IES compared to deterministic q-ball (50%), probabilistic DTI (36%), and deterministic DTI (10%). The sensitivity using the q-ball algorithm (65%) was significantly higher than using DTI (23%) (p

Published

2013

2. Automatic detection of primary motor areas using diffusion MRI tractography: Comparison with functional MRI and electrical stimulation mapping.

Author

Jeong, Jeong‐Won, Asano, Eishi, Brown, Erik C., Tiwari, Vijay N., Chugani, Diane C., and Chugani, Harry T.

Subjects

*EPILEPSY surgery, *CHILDHOOD epilepsy, *MOTOR ability testing, *FUNCTIONAL magnetic resonance imaging, *ELECTRIC stimulation, *NEUROLOGY, *THERAPEUTICS

Abstract

Purpose As an alternative tool to identify cortical motor areas for planning surgical resection in children with focal epilepsy, the present study proposed a maximum a posteriori probability ( MAP) classification of corticospinal tract ( CST) visualized by diffusion MR tractography. Methods Diffusion-weighted imaging ( DWI) was performed in 17 normally developing children and 20 children with focal epilepsy. An independent component analysis tractography combined with ball-stick model was performed to identify unique CST pathways originating from mouth/lip, finger, and leg areas determined by functional magnetic resonance imaging (f MRI) in healthy children and electrical stimulation mapping ( ESM) in children with epilepsy. Group analyses were performed to construct stereotaxic probability maps of primary motor pathways connecting precentral gyrus and posterior limb of internal capsule, and then utilized to design a novel MAP classifier that can sort individual CST fibers associated with three classes of interest: mouth/lip, fingers, and leg. A systematic leave-one-out approach was applied to train an optimal classifier. A match was considered to occur if classified fibers contacted or surrounded true areas localized by f MRI and ESM. Key Findings It was found that the DWI-MAP provided high accuracy for the CST fibers terminating in proximity to the localization of fMRI/ ESM: 78%/77% for mouth/lip, 77%/76% for fingers, 78%/86% for leg (contact), and 93%/89% for mouth/lip, 91%/89% for fingers, and 92%/88% for leg (surrounded within 2 cm). Significance This study provides preliminary evidence that in the absence of fMRI and ESM data, the DWI-MAP approach can effectively retrieve the locations of cortical motor areas and underlying CST courses for planning epilepsy surgery. [ABSTRACT FROM AUTHOR]

Published

2013

3. Quantifying diffusion MRI tractography of the corticospinal tract in brain tumors with deterministic and probabilistic methods

Author

Bagrat Amirbekian, Jeffrey I. Berman, Roland G. Henry, Monica Bucci, Maria Luisa Mandelli, Christopher Nguyen, and Mitchel S. Berger

Subjects

q-Ball, Cognitive Neuroscience, Bioengineering, Article, White matter, Diffusion MRI Tractography, Rare Diseases, Clinical Research, medicine, Radiology, Nuclear Medicine and imaging, Probabilistic analysis of algorithms, Cancer, Probabilistic logic, Neurosciences, Intraoperative electrical stimulation, Gold standard (test), Corticospinal tract, Brain Disorders, Brain tumor, Brain Cancer, medicine.anatomical_structure, Neurology, DTI, Biomedical Imaging, Intraoperative electrical stimulation (IES), Neurology (clinical), Psychology, Diffusion MRI, Biomedical engineering, Tractography, Motor cortex

Abstract

Introduction Diffusion MRI tractography has been increasingly used to delineate white matter pathways in vivo for which the leading clinical application is presurgical mapping of eloquent regions. However, there is rare opportunity to quantify the accuracy or sensitivity of these approaches to delineate white matter fiber pathways in vivo due to the lack of a gold standard. Intraoperative electrical stimulation (IES) provides a gold standard for the location and existence of functional motor pathways that can be used to determine the accuracy and sensitivity of fiber tracking algorithms. In this study we used intraoperative stimulation from brain tumor patients as a gold standard to estimate the sensitivity and accuracy of diffusion tensor MRI (DTI) and q-ball models of diffusion with deterministic and probabilistic fiber tracking algorithms for delineation of motor pathways. Methods We used preoperative high angular resolution diffusion MRI (HARDI) data (55 directions, b = 2000 s/mm2) acquired in a clinically feasible time frame from 12 patients who underwent a craniotomy for resection of a cerebral glioma. The corticospinal fiber tracts were delineated with DTI and q-ball models using deterministic and probabilistic algorithms. We used cortical and white matter IES sites as a gold standard for the presence and location of functional motor pathways. Sensitivity was defined as the true positive rate of delineating fiber pathways based on cortical IES stimulation sites. For accuracy and precision of the course of the fiber tracts, we measured the distance between the subcortical stimulation sites and the tractography result. Positive predictive rate of the delineated tracts was assessed by comparison of subcortical IES motor function (upper extremity, lower extremity, face) with the connection of the tractography pathway in the motor cortex. Results We obtained 21 cortical and 8 subcortical IES sites from intraoperative mapping of motor pathways. Probabilistic q-ball had the best sensitivity (79%) as determined from cortical IES compared to deterministic q-ball (50%), probabilistic DTI (36%), and deterministic DTI (10%). The sensitivity using the q-ball algorithm (65%) was significantly higher than using DTI (23%) (p, Highlights • Diffusion MRI tractography is used for presurgical brain mapping. • We use intraoperative electric stimulation as a gold standard. • We delineate motor tracts with deterministic and probabilistic DTI and q-ball models. • Probabilistic q-ball has the best sensitivity (79%). • Probabilistic q-ball fiber tracks had the smallest offset to the subcortical IES.

Published

2013