Untangling the Small Intestine in 3D cine-MRI using Deep Stochastic Tracking

Louis D. van Harten; Catharina S. de Jonge; Jaap Stoker; Ivana Išgum

Untangling the Small Intestine in 3D cine-MRI using Deep Stochastic Tracking

Louis D. van Harten, Catharina S. de Jonge, Jaap Stoker, Ivana Išgum

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

3 Citations (Scopus)

Abstract

Motility of the small intestine is a valuable metric in the evaluation of gastrointestinal disorders. Cine-MRI of the abdomen is a non-invasive imaging technique allowing evaluation of this motility. While 2D cine-MR imaging is increasingly used for this purpose in both clinical practice and in research settings, the potential of 3D cine-MR imaging has been largely underexplored. In the absence of image analysis tools enabling investigation of the intestines as 3D structures, the assessment of motility in 3D cine-images is generally limited to the evaluation of movement in separate 2D slices. Hence, to obtain an untangled representation of the small intestine in 3D cine-MRI, we propose a method to extract a centerline of the intestine, thereby allowing easier (visual) assessment by human observers, as well as providing a possible starting point for automatic analysis methods quantifying peristaltic bowel movement along intestinal segments. The proposed method automatically tracks individual sections of the small intestine in 3D space, using a stochastic tracker built on top of a CNN-based orientation classifier. We show that the proposed method outperforms a non-stochastic iterative tracking approach.

Original language	English
Title of host publication	Proceedings of the 4th Conference on Medical Imaging with Deep Learning, MIDL 2021
Editors	Mattias Heinrich, Qi Dou, Marleen de Bruijne, Jan Lellmann, Alexander Schlaefer, Floris Ernst
Publisher	ML Research Press
Pages	802-812
Volume	143
Publication status	Published - 2021
Event	4th Conference on Medical Imaging with Deep Learning, MIDL 2021 - Virtual, Online, Germany Duration: 7 Jul 2021 → 9 Jul 2021

Publication series

Name	Proceedings of Machine Learning Research

Conference

Conference	4th Conference on Medical Imaging with Deep Learning, MIDL 2021
Country/Territory	Germany
City	Virtual, Online
Period	7/07/2021 → 9/07/2021

Cite this

van Harten, L. D., de Jonge, C. S., Stoker, J., & Išgum, I. (2021). Untangling the Small Intestine in 3D cine-MRI using Deep Stochastic Tracking. In M. Heinrich, Q. Dou, M. de Bruijne, J. Lellmann, A. Schlaefer, & F. Ernst (Eds.), Proceedings of the 4th Conference on Medical Imaging with Deep Learning, MIDL 2021 (Vol. 143, pp. 802-812). (Proceedings of Machine Learning Research). ML Research Press.

van Harten, Louis D. ; de Jonge, Catharina S. ; Stoker, Jaap et al. / Untangling the Small Intestine in 3D cine-MRI using Deep Stochastic Tracking. Proceedings of the 4th Conference on Medical Imaging with Deep Learning, MIDL 2021. editor / Mattias Heinrich ; Qi Dou ; Marleen de Bruijne ; Jan Lellmann ; Alexander Schlaefer ; Floris Ernst. Vol. 143 ML Research Press, 2021. pp. 802-812 (Proceedings of Machine Learning Research).

@inproceedings{c25d73e6414b46eebb03a41465a7ff85,

title = "Untangling the Small Intestine in 3D cine-MRI using Deep Stochastic Tracking",

abstract = "Motility of the small intestine is a valuable metric in the evaluation of gastrointestinal disorders. Cine-MRI of the abdomen is a non-invasive imaging technique allowing evaluation of this motility. While 2D cine-MR imaging is increasingly used for this purpose in both clinical practice and in research settings, the potential of 3D cine-MR imaging has been largely underexplored. In the absence of image analysis tools enabling investigation of the intestines as 3D structures, the assessment of motility in 3D cine-images is generally limited to the evaluation of movement in separate 2D slices. Hence, to obtain an untangled representation of the small intestine in 3D cine-MRI, we propose a method to extract a centerline of the intestine, thereby allowing easier (visual) assessment by human observers, as well as providing a possible starting point for automatic analysis methods quantifying peristaltic bowel movement along intestinal segments. The proposed method automatically tracks individual sections of the small intestine in 3D space, using a stochastic tracker built on top of a CNN-based orientation classifier. We show that the proposed method outperforms a non-stochastic iterative tracking approach.",

author = "{van Harten}, {Louis D.} and {de Jonge}, {Catharina S.} and Jaap Stoker and Ivana I{\v s}gum",

year = "2021",

language = "English",

volume = "143",

series = "Proceedings of Machine Learning Research",

publisher = "ML Research Press",

pages = "802--812",

editor = "Mattias Heinrich and Qi Dou and {de Bruijne}, Marleen and Jan Lellmann and Alexander Schlaefer and Floris Ernst",

booktitle = "Proceedings of the 4th Conference on Medical Imaging with Deep Learning, MIDL 2021",

note = "4th Conference on Medical Imaging with Deep Learning, MIDL 2021 ; Conference date: 07-07-2021 Through 09-07-2021",

}

van Harten, LD , de Jonge, CS , Stoker, J & Išgum, I 2021, Untangling the Small Intestine in 3D cine-MRI using Deep Stochastic Tracking. in M Heinrich, Q Dou, M de Bruijne, J Lellmann, A Schlaefer & F Ernst (eds), Proceedings of the 4th Conference on Medical Imaging with Deep Learning, MIDL 2021. vol. 143, Proceedings of Machine Learning Research, ML Research Press, pp. 802-812, 4th Conference on Medical Imaging with Deep Learning, MIDL 2021, Virtual, Online, Germany, 7/07/2021.

Untangling the Small Intestine in 3D cine-MRI using Deep Stochastic Tracking. / van Harten, Louis D.; de Jonge, Catharina S.; Stoker, Jaap et al.
Proceedings of the 4th Conference on Medical Imaging with Deep Learning, MIDL 2021. ed. / Mattias Heinrich; Qi Dou; Marleen de Bruijne; Jan Lellmann; Alexander Schlaefer; Floris Ernst. Vol. 143 ML Research Press, 2021. p. 802-812 (Proceedings of Machine Learning Research).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Untangling the Small Intestine in 3D cine-MRI using Deep Stochastic Tracking

AU - van Harten, Louis D.

AU - de Jonge, Catharina S.

AU - Stoker, Jaap

AU - Išgum, Ivana

PY - 2021

Y1 - 2021

N2 - Motility of the small intestine is a valuable metric in the evaluation of gastrointestinal disorders. Cine-MRI of the abdomen is a non-invasive imaging technique allowing evaluation of this motility. While 2D cine-MR imaging is increasingly used for this purpose in both clinical practice and in research settings, the potential of 3D cine-MR imaging has been largely underexplored. In the absence of image analysis tools enabling investigation of the intestines as 3D structures, the assessment of motility in 3D cine-images is generally limited to the evaluation of movement in separate 2D slices. Hence, to obtain an untangled representation of the small intestine in 3D cine-MRI, we propose a method to extract a centerline of the intestine, thereby allowing easier (visual) assessment by human observers, as well as providing a possible starting point for automatic analysis methods quantifying peristaltic bowel movement along intestinal segments. The proposed method automatically tracks individual sections of the small intestine in 3D space, using a stochastic tracker built on top of a CNN-based orientation classifier. We show that the proposed method outperforms a non-stochastic iterative tracking approach.

AB - Motility of the small intestine is a valuable metric in the evaluation of gastrointestinal disorders. Cine-MRI of the abdomen is a non-invasive imaging technique allowing evaluation of this motility. While 2D cine-MR imaging is increasingly used for this purpose in both clinical practice and in research settings, the potential of 3D cine-MR imaging has been largely underexplored. In the absence of image analysis tools enabling investigation of the intestines as 3D structures, the assessment of motility in 3D cine-images is generally limited to the evaluation of movement in separate 2D slices. Hence, to obtain an untangled representation of the small intestine in 3D cine-MRI, we propose a method to extract a centerline of the intestine, thereby allowing easier (visual) assessment by human observers, as well as providing a possible starting point for automatic analysis methods quantifying peristaltic bowel movement along intestinal segments. The proposed method automatically tracks individual sections of the small intestine in 3D space, using a stochastic tracker built on top of a CNN-based orientation classifier. We show that the proposed method outperforms a non-stochastic iterative tracking approach.

UR - https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85162886693&origin=inward

M3 - Conference contribution

VL - 143

T3 - Proceedings of Machine Learning Research

SP - 802

EP - 812

BT - Proceedings of the 4th Conference on Medical Imaging with Deep Learning, MIDL 2021

A2 - Heinrich, Mattias

A2 - Dou, Qi

A2 - de Bruijne, Marleen

A2 - Lellmann, Jan

A2 - Schlaefer, Alexander

A2 - Ernst, Floris

PB - ML Research Press

T2 - 4th Conference on Medical Imaging with Deep Learning, MIDL 2021

Y2 - 7 July 2021 through 9 July 2021

ER -

van Harten LD , de Jonge CS , Stoker J , Išgum I. Untangling the Small Intestine in 3D cine-MRI using Deep Stochastic Tracking. In Heinrich M, Dou Q, de Bruijne M, Lellmann J, Schlaefer A, Ernst F, editors, Proceedings of the 4th Conference on Medical Imaging with Deep Learning, MIDL 2021. Vol. 143. ML Research Press. 2021. p. 802-812. (Proceedings of Machine Learning Research).

Untangling the Small Intestine in 3D cine-MRI using Deep Stochastic Tracking

Abstract

Publication series

Conference

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