Stability metrics for optic radiation tractography: Towards damage prediction after resective surgery

Stephan Meesters; Pauly Ossenblok; Louis Wagner; Olaf Schijns; Paul Boon; Luc Florack; Anna Vilanova; Remco Duits

doi:10.1016/j.jneumeth.2017.05.029

Stability metrics for optic radiation tractography: Towards damage prediction after resective surgery

Stephan Meesters^*, Pauly Ossenblok, Louis Wagner, Olaf Schijns, Paul Boon, Luc Florack, Anna Vilanova, Remco Duits

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Background: An accurate delineation of the optic radiation (OR) using diffusion MR tractography may reduce the risk of a visual field deficit after temporal lobe resection. However, tractography is prone to generate spurious streamlines, which deviate strongly from neighboring streamlines and hinder a reliable distance measurement between the temporal pole and the Meyer's loop (ML-TP distance).

New method: Stability metrics are introduced for the automated removal of spurious streamlines near the Meyer's loop. Firstly, fiber-to-bundle coherence (FBC) measures can identify spurious streamlines by estimating their alignment with the surrounding streamline bundle. Secondly, robust threshold selection removes spurious streamlines while preventing an underestimation of the extent of the Meyer's loop. Standardized parameter selection is realized through test-retest evaluation of the variability in ML-TP distance.

Results: The variability in ML-TP distance after parameter selection was below 2 mm for each of the healthy volunteers studied (N=8). The importance of the stability metrics is illustrated for epilepsy surgery candidates (N=3) for whom the damage to the Meyer's loop was evaluated by comparing the pre- and post-operative OR reconstruction. The difference between predicted and observed damage is in the order of a few millimeters, which is the error in measured ML-TP distance.

Comparison with existing method(s): The stability metrics are a novel method for the robust estimate of the ML-TP distance.

Conclusions: The stability metrics are a promising tool for clinical trial studies, in which the damage to the OR can be related to the visual field deficit that may occur after epilepsy surgery. (C) 2017 The Authors. Published by Elsevier B.V.

Original language	English
Pages (from-to)	34-44
Number of pages	11
Journal	Journal of Neuroscience Methods
Volume	288
DOIs	https://doi.org/10.1016/j.jneumeth.2017.05.029
Publication status	Published - 15 Aug 2017

Keywords

Optic radiation
Meyer's loop
Diffusion magnetic resonance imaging
Fiber tractography
Epilepsy
Neurosurgery
TENSOR IMAGING TRACTOGRAPHY
TEMPORAL-LOBE EPILEPSY
VISUAL-FIELD DEFICITS
IN-DIFFUSION MRI
WHITE-MATTER
MEYERS LOOP
SPHERICAL DECONVOLUTION
RECONSTRUCTION
DISSECTION
DISTORTION

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Cite this

@article{1c4c0287b09e466689e517989beca7bd,

title = "Stability metrics for optic radiation tractography: Towards damage prediction after resective surgery",

abstract = "Background: An accurate delineation of the optic radiation (OR) using diffusion MR tractography may reduce the risk of a visual field deficit after temporal lobe resection. However, tractography is prone to generate spurious streamlines, which deviate strongly from neighboring streamlines and hinder a reliable distance measurement between the temporal pole and the Meyer's loop (ML-TP distance).New method: Stability metrics are introduced for the automated removal of spurious streamlines near the Meyer's loop. Firstly, fiber-to-bundle coherence (FBC) measures can identify spurious streamlines by estimating their alignment with the surrounding streamline bundle. Secondly, robust threshold selection removes spurious streamlines while preventing an underestimation of the extent of the Meyer's loop. Standardized parameter selection is realized through test-retest evaluation of the variability in ML-TP distance.Results: The variability in ML-TP distance after parameter selection was below 2 mm for each of the healthy volunteers studied (N=8). The importance of the stability metrics is illustrated for epilepsy surgery candidates (N=3) for whom the damage to the Meyer's loop was evaluated by comparing the pre- and post-operative OR reconstruction. The difference between predicted and observed damage is in the order of a few millimeters, which is the error in measured ML-TP distance.Comparison with existing method(s): The stability metrics are a novel method for the robust estimate of the ML-TP distance.Conclusions: The stability metrics are a promising tool for clinical trial studies, in which the damage to the OR can be related to the visual field deficit that may occur after epilepsy surgery. (C) 2017 The Authors. Published by Elsevier B.V.",

keywords = "Optic radiation, Meyer's loop, Diffusion magnetic resonance imaging, Fiber tractography, Epilepsy, Neurosurgery, TENSOR IMAGING TRACTOGRAPHY, TEMPORAL-LOBE EPILEPSY, VISUAL-FIELD DEFICITS, IN-DIFFUSION MRI, WHITE-MATTER, MEYERS LOOP, SPHERICAL DECONVOLUTION, RECONSTRUCTION, DISSECTION, DISTORTION",

author = "Stephan Meesters and Pauly Ossenblok and Louis Wagner and Olaf Schijns and Paul Boon and Luc Florack and Anna Vilanova and Remco Duits",

year = "2017",

month = aug,

day = "15",

doi = "10.1016/j.jneumeth.2017.05.029",

language = "English",

volume = "288",

pages = "34--44",

journal = "Journal of Neuroscience Methods",

issn = "0165-0270",

publisher = "Elsevier Science",

}

TY - JOUR

T1 - Stability metrics for optic radiation tractography

T2 - Towards damage prediction after resective surgery

AU - Meesters, Stephan

AU - Ossenblok, Pauly

AU - Wagner, Louis

AU - Schijns, Olaf

AU - Boon, Paul

AU - Florack, Luc

AU - Vilanova, Anna

AU - Duits, Remco

PY - 2017/8/15

Y1 - 2017/8/15

N2 - Background: An accurate delineation of the optic radiation (OR) using diffusion MR tractography may reduce the risk of a visual field deficit after temporal lobe resection. However, tractography is prone to generate spurious streamlines, which deviate strongly from neighboring streamlines and hinder a reliable distance measurement between the temporal pole and the Meyer's loop (ML-TP distance).New method: Stability metrics are introduced for the automated removal of spurious streamlines near the Meyer's loop. Firstly, fiber-to-bundle coherence (FBC) measures can identify spurious streamlines by estimating their alignment with the surrounding streamline bundle. Secondly, robust threshold selection removes spurious streamlines while preventing an underestimation of the extent of the Meyer's loop. Standardized parameter selection is realized through test-retest evaluation of the variability in ML-TP distance.Results: The variability in ML-TP distance after parameter selection was below 2 mm for each of the healthy volunteers studied (N=8). The importance of the stability metrics is illustrated for epilepsy surgery candidates (N=3) for whom the damage to the Meyer's loop was evaluated by comparing the pre- and post-operative OR reconstruction. The difference between predicted and observed damage is in the order of a few millimeters, which is the error in measured ML-TP distance.Comparison with existing method(s): The stability metrics are a novel method for the robust estimate of the ML-TP distance.Conclusions: The stability metrics are a promising tool for clinical trial studies, in which the damage to the OR can be related to the visual field deficit that may occur after epilepsy surgery. (C) 2017 The Authors. Published by Elsevier B.V.

AB - Background: An accurate delineation of the optic radiation (OR) using diffusion MR tractography may reduce the risk of a visual field deficit after temporal lobe resection. However, tractography is prone to generate spurious streamlines, which deviate strongly from neighboring streamlines and hinder a reliable distance measurement between the temporal pole and the Meyer's loop (ML-TP distance).New method: Stability metrics are introduced for the automated removal of spurious streamlines near the Meyer's loop. Firstly, fiber-to-bundle coherence (FBC) measures can identify spurious streamlines by estimating their alignment with the surrounding streamline bundle. Secondly, robust threshold selection removes spurious streamlines while preventing an underestimation of the extent of the Meyer's loop. Standardized parameter selection is realized through test-retest evaluation of the variability in ML-TP distance.Results: The variability in ML-TP distance after parameter selection was below 2 mm for each of the healthy volunteers studied (N=8). The importance of the stability metrics is illustrated for epilepsy surgery candidates (N=3) for whom the damage to the Meyer's loop was evaluated by comparing the pre- and post-operative OR reconstruction. The difference between predicted and observed damage is in the order of a few millimeters, which is the error in measured ML-TP distance.Comparison with existing method(s): The stability metrics are a novel method for the robust estimate of the ML-TP distance.Conclusions: The stability metrics are a promising tool for clinical trial studies, in which the damage to the OR can be related to the visual field deficit that may occur after epilepsy surgery. (C) 2017 The Authors. Published by Elsevier B.V.

KW - Optic radiation

KW - Meyer's loop

KW - Diffusion magnetic resonance imaging

KW - Fiber tractography

KW - Epilepsy

KW - Neurosurgery

KW - TENSOR IMAGING TRACTOGRAPHY

KW - TEMPORAL-LOBE EPILEPSY

KW - VISUAL-FIELD DEFICITS

KW - IN-DIFFUSION MRI

KW - WHITE-MATTER

KW - MEYERS LOOP

KW - SPHERICAL DECONVOLUTION

KW - RECONSTRUCTION

KW - DISSECTION

KW - DISTORTION

U2 - 10.1016/j.jneumeth.2017.05.029

DO - 10.1016/j.jneumeth.2017.05.029

M3 - Article

SN - 0165-0270

VL - 288

SP - 34

EP - 44

JO - Journal of Neuroscience Methods

JF - Journal of Neuroscience Methods

ER -