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MPnRAGE: A technique to simultaneously acquire hundreds of differently contrasted MPRAGE images with applications to quantitative T1 mapping.MPnRAGE:一种同时获取数百幅具有不同对比度的MPRAGE图像的技术及其在定量T1映射中的应用。
Magn Reson Med. 2016 Mar;75(3):1040-53. doi: 10.1002/mrm.25674. Epub 2015 Apr 17.
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Fractionated stereotactic radiosurgery using the Novalis system for the management of pituitary adenomas close to the optic apparatus.采用 Novalis 系统对靠近视器的垂体腺瘤进行分次立体定向放射外科治疗。
J Clin Neurosci. 2014 Jan;21(1):111-5. doi: 10.1016/j.jocn.2013.03.024. Epub 2013 Sep 29.
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Long-term evaluation of radiation-induced optic neuropathy after single-fraction stereotactic radiosurgery.单次分割立体定向放射外科治疗后放射性视神经病变的长期评估。
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Development of a geometrically accurate imaging protocol at 3 Tesla MRI for stereotactic radiosurgery treatment planning.在 3T MRI 上开发用于立体定向放射外科治疗计划的几何精确成像方案。
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Radiation dose-volume effects of optic nerves and chiasm.视神经和视交叉的辐射剂量-体积效应。
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A high resolution and high contrast MRI for differentiation of subcortical structures for DBS targeting: the Fast Gray Matter Acquisition T1 Inversion Recovery (FGATIR).用于深部脑刺激(DBS)靶点定位的皮质下结构区分的高分辨率和高对比度磁共振成像:快速灰质采集T1反转恢复序列(FGATIR)
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Radiation-induced optic neuropathy.放射性视神经病变
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Inversion-recovery echo-planar MR in adult brain neoplasia.成人脑肿瘤的反转恢复回波平面磁共振成像
AJNR Am J Neuroradiol. 1998 Feb;19(2):267-73.
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Axon calibre, neurofilaments, microtubules, sheath thickness and cholesterol in cat optic nerve fibres.猫视神经纤维中的轴突直径、神经丝、微管、髓鞘厚度和胆固醇
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反转恢复序列可改善鞍上病变附近视神经通路的显示。

Inversion recovery sequences improve delineation of optic pathways in the proximity of suprasellar lesions.

作者信息

Speckter Herwin, Bido José, Hernandez Giancarlo, Rivera Diones, Suazo Luis, Valenzuela Santiago, Fermin Rafael, Oviedo Jairo, Foerster Bernd, Gonzalez Cesar, Stoeter Peter

机构信息

Centro Gamma Knife Dominicano, CEDIMAT, Plaza de la Salud, Santo Domingo, Dominican Republic.

Department of Radiology, CEDIMAT, Plaza de la Salud, Santo Domingo, Dominican Republic.

出版信息

J Radiosurg SBRT. 2018;5(2):115-122.

PMID:29657892
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5893452/
Abstract

INTRODUCTION

In Gamma Knife Radiosurgery (GKRS) of suprasellar lesions, the exact localization of the visual pathways is important to avoid radiation induced optic neuropathy (RION). Reliable identification of the optic nerve, chiasm and tracts can be challenging using routine magnetic resonance imaging, especially in patients with lesions compressing the optic structures or in patients who had prior operation of suprasellar tumors. This study investigates the application of inversion recovery sequences (Fast gray and white matter acquisition T1 inversion recovery, FGATIR) to improve identification of the optic pathway.

METHODS

Inversion recovery sequences were performed on 5 healthy volunteers, varying their inversion times between 400 and 500 ms, and between 800 and 1100 ms. Inversion times were optimized to either suppress or to preserve the signal of the optic structures, while increasing or suppressing the signal of processes within the surrounding cisterns. Inversion recovery sequences were performed before radiosurgery on 10 patients with suprasellar tumors that were compressing or displacing the optic structures. Signal intensities of gray and white matter, of CSF and tumors were measured and subtraction images were calculated.

RESULTS

Compared to a standard T1-weighted sequence, delineation of the visual pathways was superior on inversion recovery images, both on images with suppression of the optic structures as well on images with suppression of its surrounding tissues, and was rated best on subtraction images.

CONCLUSION

For radiosurgery of suprasellar tumors, inversion recovery sequences can be of valuable benefit for accurate delineation of optic pathway and radiosurgical dose planning in order to avoid radiation-induced normal tissue effects.

摘要

引言

在鞍上病变的伽玛刀放射外科治疗(GKRS)中,视觉通路的精确定位对于避免放射性视神经病变(RION)至关重要。使用常规磁共振成像可靠识别视神经、视交叉和视束可能具有挑战性,尤其是在病变压迫视神经结构的患者或既往有鞍上肿瘤手术史的患者中。本研究探讨反转恢复序列(快速灰白质采集T1反转恢复序列,FGATIR)在改善视觉通路识别方面的应用。

方法

对5名健康志愿者进行反转恢复序列检查,反转时间在400至500毫秒之间以及800至1100毫秒之间变化。优化反转时间以抑制或保留视神经结构的信号,同时增强或抑制周围脑池内组织的信号。对10例因鞍上肿瘤压迫或推移视神经结构的患者在放射外科治疗前进行反转恢复序列检查。测量灰质、白质、脑脊液和肿瘤的信号强度并计算减影图像。

结果

与标准T1加权序列相比,在反转恢复图像上,无论是抑制视神经结构的图像还是抑制其周围组织的图像,视觉通路的勾画都更优,并且在减影图像上评分最佳。

结论

对于鞍上肿瘤的放射外科治疗,反转恢复序列对于准确勾画视神经通路和进行放射外科剂量规划以避免放射性正常组织效应可能具有重要价值。