Two-tensor streamline tractography through white matter intra-voxel fiber crossings: Assessedby fMRI

Arish Asif Qazi; G Kindlmann; L O'Donnell; S Peled; A Radmanesh; S Whalen; A.J. Golby; C-F Westin

doi:10.1109/CVPRW.2008.4563001

Two-tensor streamline tractography through white matter intra-voxel fiber crossings: Assessedby fMRI

Arish Asif Qazi, G Kindlmann, L O'Donnell, S Peled, A Radmanesh, S Whalen, A.J. Golby, C-F Westin

Datalogisk Institut

1 Citationer (Scopus)

Abstract

An inherent drawback of the traditional diffusion tensor model is its limited ability to provide detailed information about multidirectional fiber architecture within a voxel. This leads to erroneous fiber tractography results in locations where fiber bundles cross each other. In this paper, we present a deterministic two-tensor extended Streamline Tractography (XST) technique, which successfully traces through regions of crossing fibers. The method has been evaluated on simulated and in-vivo human brain data, and compared with the traditional single tensor, and a probabilistic tractography technique. By tracing the corticospinal tract we demonstrate that when compared to the two methods, our technique can accurately identify fiber bundles known to be consistent with anatomy. When compared to the dense connectivity maps generated by probabilistic tractography, the method is computationally efficient and generates discrete geometric pathways that are simple to visualize and clinically useful.

Originalsprog	Engelsk
Titel	CVPR Workshops 2008 : IEEE Computer Society Conference on Computer Vision and Pattern Recognition Workshops, June 23-28, Anchorage, Alaska, 2008, Proceedings
Antal sider	8
Vol/bind	1-3
Forlag	IEEE Communications Society
Publikationsdato	2008
Sider	1-8
ISBN (Trykt)	978-1-4244-2339-2
DOI	https://doi.org/10.1109/CVPRW.2008.4563001
Status	Udgivet - 2008
Begivenhed	IEEE Computer society Conference on Computer Vision and Pattern Recognition Workshops - Anchorage, USA Varighed: 23 jun. 2008 → 28 jun. 2008

Konference

Konference	IEEE Computer society Conference on Computer Vision and Pattern Recognition Workshops
Land/Område	USA
By	Anchorage
Periode	23/06/2008 → 28/06/2008

Adgang til dokumentet

10.1109/CVPRW.2008.4563001

Citationsformater

Qazi, A. A., Kindlmann, G., O'Donnell, L., Peled, S., Radmanesh, A., Whalen, S., Golby, A. J., & Westin, C-F. (2008). Two-tensor streamline tractography through white matter intra-voxel fiber crossings: Assessedby fMRI. I CVPR Workshops 2008: IEEE Computer Society Conference on Computer Vision and Pattern Recognition Workshops, June 23-28, Anchorage, Alaska, 2008, Proceedings (Bind 1-3, s. 1-8). IEEE Communications Society. https://doi.org/10.1109/CVPRW.2008.4563001

Two-tensor streamline tractography through white matter intra-voxel fiber crossings : Assessedby fMRI. / Qazi, Arish Asif; Kindlmann, G; O'Donnell, L et al.

CVPR Workshops 2008: IEEE Computer Society Conference on Computer Vision and Pattern Recognition Workshops, June 23-28, Anchorage, Alaska, 2008, Proceedings. Bind 1-3 IEEE Communications Society, 2008. s. 1-8.

Publikation: Bidrag til bog/antologi/rapport › Konferencebidrag i proceedings › Forskning › peer review

Qazi, AA, Kindlmann, G, O'Donnell, L, Peled, S, Radmanesh, A, Whalen, S, Golby, AJ & Westin, C-F 2008, Two-tensor streamline tractography through white matter intra-voxel fiber crossings: Assessedby fMRI. i CVPR Workshops 2008: IEEE Computer Society Conference on Computer Vision and Pattern Recognition Workshops, June 23-28, Anchorage, Alaska, 2008, Proceedings. bind 1-3, IEEE Communications Society, s. 1-8, IEEE Computer society Conference on Computer Vision and Pattern Recognition Workshops, Anchorage, USA, 23/06/2008. https://doi.org/10.1109/CVPRW.2008.4563001

Qazi AA, Kindlmann G, O'Donnell L, Peled S, Radmanesh A, Whalen S et al. Two-tensor streamline tractography through white matter intra-voxel fiber crossings: Assessedby fMRI. I CVPR Workshops 2008: IEEE Computer Society Conference on Computer Vision and Pattern Recognition Workshops, June 23-28, Anchorage, Alaska, 2008, Proceedings. Bind 1-3. IEEE Communications Society. 2008. s. 1-8 doi: 10.1109/CVPRW.2008.4563001

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abstract = "An inherent drawback of the traditional diffusion tensor model is its limited ability to provide detailed information about multidirectional fiber architecture within a voxel. This leads to erroneous fiber tractography results in locations where fiber bundles cross each other. In this paper, we present a deterministic two-tensor extended Streamline Tractography (XST) technique, which successfully traces through regions of crossing fibers. The method has been evaluated on simulated and in-vivo human brain data, and compared with the traditional single tensor, and a probabilistic tractography technique. By tracing the corticospinal tract we demonstrate that when compared to the two methods, our technique can accurately identify fiber bundles known to be consistent with anatomy. When compared to the dense connectivity maps generated by probabilistic tractography, the method is computationally efficient and generates discrete geometric pathways that are simple to visualize and clinically useful.",

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AB - An inherent drawback of the traditional diffusion tensor model is its limited ability to provide detailed information about multidirectional fiber architecture within a voxel. This leads to erroneous fiber tractography results in locations where fiber bundles cross each other. In this paper, we present a deterministic two-tensor extended Streamline Tractography (XST) technique, which successfully traces through regions of crossing fibers. The method has been evaluated on simulated and in-vivo human brain data, and compared with the traditional single tensor, and a probabilistic tractography technique. By tracing the corticospinal tract we demonstrate that when compared to the two methods, our technique can accurately identify fiber bundles known to be consistent with anatomy. When compared to the dense connectivity maps generated by probabilistic tractography, the method is computationally efficient and generates discrete geometric pathways that are simple to visualize and clinically useful.

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Two-tensor streamline tractography through white matter intra-voxel fiber crossings: Assessedby fMRI

Abstract

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