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Contouring lumbosacral plexus nerves with MR neurography and MR/CT deformable registration technique

PURPOSE: It is difficult to contour nerve structures with the naked eye due to poor differentiation between the nerve structures with other soft tissues on CT images. Magnetic resonance neurography (MRN) has the advantage in nerve visualization. The purpose of this study is to identify one MRN seque...

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Autores principales: Cao, Xi, Gao, Xian-Shu, Li, Wei, Liu, Peilin, Qin, Shang-Bin, Dou, Yan-Bin, Li, Hong-Zhen, Shang, Shiyu, Gu, Xiao-Bin, Ma, Ming-Wei, Qi, Xin, Xie, Mu, Wang, Dian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9683691/
https://www.ncbi.nlm.nih.gov/pubmed/36439428
http://dx.doi.org/10.3389/fonc.2022.818953
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author Cao, Xi
Gao, Xian-Shu
Li, Wei
Liu, Peilin
Qin, Shang-Bin
Dou, Yan-Bin
Li, Hong-Zhen
Shang, Shiyu
Gu, Xiao-Bin
Ma, Ming-Wei
Qi, Xin
Xie, Mu
Wang, Dian
author_facet Cao, Xi
Gao, Xian-Shu
Li, Wei
Liu, Peilin
Qin, Shang-Bin
Dou, Yan-Bin
Li, Hong-Zhen
Shang, Shiyu
Gu, Xiao-Bin
Ma, Ming-Wei
Qi, Xin
Xie, Mu
Wang, Dian
author_sort Cao, Xi
collection PubMed
description PURPOSE: It is difficult to contour nerve structures with the naked eye due to poor differentiation between the nerve structures with other soft tissues on CT images. Magnetic resonance neurography (MRN) has the advantage in nerve visualization. The purpose of this study is to identify one MRN sequence to better assist the delineation of the lumbosacral plexus (LSP) nerves to assess the radiation dose to the LSP using the magnetic resonance (MR)/CT deformable coregistration technique. METHODS: A total of 18 cases of patients with prostate cancer and one volunteer with radiation-induced lumbosacral plexopathy (RILSP) were enrolled. The data of simulation CT images and original treatment plans were collected. Two MRN sequences (Lr_NerveVIEW sequence and Cs_NerveVIEW sequence) were optimized from a published MRN sequence (3D NerveVIEW sequence). The nerve visualization ability of the Lr_NerveVIEW sequence and the Cs_NerveVIEW sequence was evaluated via a four-point nerve visualization score (NVS) scale in the first 10 patients enrolled to determine the better MRN sequence for assisting nerve contouring. Deformable registration was applied to the selected MRN sequence and simulation CT images to get fused MR/CT images, on which the LSP was delineated. The contouring of the LSP did not alter treatment planning. The dosimetric data of the LSP nerve were collected from the dose–volume histogram in the original treatment plans. The data of the maximal dose (D(max)) and the location of the maximal radiation point received by the LSP structures were collected. RESULTS: The Cs_NerveVIEW sequence gained lower NVS scores than the Lr_NerveVIEW sequence (Z=-2.887, p=0.004). The LSP structures were successfully created in 18 patients and one volunteer with MRN (Lr_NerveVIEW)/CT deformable registration techniques, and the LSP structures conformed with the anatomic distribution. In the patient cohort, the percentage of the LSP receiving doses exceeding 50, 55, and 60 Gy was 68% (12/18), 33% (6/18), and 17% (3/18), respectively. For the volunteer with RILSP, the maximum irradiation dose to his LSP nerves was 69 Gy. CONCLUSION: The Lr_NerveVIEW MRN sequence performed better than the Cs_NerveVIEW sequence in nerve visualization. The dose in the LSP needs to be measured to understand the potential impact on treatment-induced neuropathy.
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spelling pubmed-96836912022-11-24 Contouring lumbosacral plexus nerves with MR neurography and MR/CT deformable registration technique Cao, Xi Gao, Xian-Shu Li, Wei Liu, Peilin Qin, Shang-Bin Dou, Yan-Bin Li, Hong-Zhen Shang, Shiyu Gu, Xiao-Bin Ma, Ming-Wei Qi, Xin Xie, Mu Wang, Dian Front Oncol Oncology PURPOSE: It is difficult to contour nerve structures with the naked eye due to poor differentiation between the nerve structures with other soft tissues on CT images. Magnetic resonance neurography (MRN) has the advantage in nerve visualization. The purpose of this study is to identify one MRN sequence to better assist the delineation of the lumbosacral plexus (LSP) nerves to assess the radiation dose to the LSP using the magnetic resonance (MR)/CT deformable coregistration technique. METHODS: A total of 18 cases of patients with prostate cancer and one volunteer with radiation-induced lumbosacral plexopathy (RILSP) were enrolled. The data of simulation CT images and original treatment plans were collected. Two MRN sequences (Lr_NerveVIEW sequence and Cs_NerveVIEW sequence) were optimized from a published MRN sequence (3D NerveVIEW sequence). The nerve visualization ability of the Lr_NerveVIEW sequence and the Cs_NerveVIEW sequence was evaluated via a four-point nerve visualization score (NVS) scale in the first 10 patients enrolled to determine the better MRN sequence for assisting nerve contouring. Deformable registration was applied to the selected MRN sequence and simulation CT images to get fused MR/CT images, on which the LSP was delineated. The contouring of the LSP did not alter treatment planning. The dosimetric data of the LSP nerve were collected from the dose–volume histogram in the original treatment plans. The data of the maximal dose (D(max)) and the location of the maximal radiation point received by the LSP structures were collected. RESULTS: The Cs_NerveVIEW sequence gained lower NVS scores than the Lr_NerveVIEW sequence (Z=-2.887, p=0.004). The LSP structures were successfully created in 18 patients and one volunteer with MRN (Lr_NerveVIEW)/CT deformable registration techniques, and the LSP structures conformed with the anatomic distribution. In the patient cohort, the percentage of the LSP receiving doses exceeding 50, 55, and 60 Gy was 68% (12/18), 33% (6/18), and 17% (3/18), respectively. For the volunteer with RILSP, the maximum irradiation dose to his LSP nerves was 69 Gy. CONCLUSION: The Lr_NerveVIEW MRN sequence performed better than the Cs_NerveVIEW sequence in nerve visualization. The dose in the LSP needs to be measured to understand the potential impact on treatment-induced neuropathy. Frontiers Media S.A. 2022-11-09 /pmc/articles/PMC9683691/ /pubmed/36439428 http://dx.doi.org/10.3389/fonc.2022.818953 Text en Copyright © 2022 Cao, Gao, Li, Liu, Qin, Dou, Li, Shang, Gu, Ma, Qi, Xie and Wang https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Oncology
Cao, Xi
Gao, Xian-Shu
Li, Wei
Liu, Peilin
Qin, Shang-Bin
Dou, Yan-Bin
Li, Hong-Zhen
Shang, Shiyu
Gu, Xiao-Bin
Ma, Ming-Wei
Qi, Xin
Xie, Mu
Wang, Dian
Contouring lumbosacral plexus nerves with MR neurography and MR/CT deformable registration technique
title Contouring lumbosacral plexus nerves with MR neurography and MR/CT deformable registration technique
title_full Contouring lumbosacral plexus nerves with MR neurography and MR/CT deformable registration technique
title_fullStr Contouring lumbosacral plexus nerves with MR neurography and MR/CT deformable registration technique
title_full_unstemmed Contouring lumbosacral plexus nerves with MR neurography and MR/CT deformable registration technique
title_short Contouring lumbosacral plexus nerves with MR neurography and MR/CT deformable registration technique
title_sort contouring lumbosacral plexus nerves with mr neurography and mr/ct deformable registration technique
topic Oncology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9683691/
https://www.ncbi.nlm.nih.gov/pubmed/36439428
http://dx.doi.org/10.3389/fonc.2022.818953
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