Q-ball high-resolution fiber tractography of language associated tracts: quantitative evaluation of applicability for glioma resections.

IF 1.3 4区医学 Q4 CLINICAL NEUROLOGY

Journal of neurosurgical sciences Pub Date : 2024-02-01 Epub Date: 2019-10-28 DOI:10.23736/S0390-5616.19.04782-9

Daniela Becker, Moritz Scherer, Peter Neher, Christine Jungk, Jessica Jesser, Irada Pflüger, Martin Bendszus, Klaus Maier-Hein, Andreas Unterberg

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引用次数: 0

Abstract

Background: To date, fiber tractography (FT) is predominantly based on diffusion tensor imaging (DTI). High angular resolution diffusion imaging (HARDI)-based reconstructions have become a focus of interest, enabling the resolution of intravoxel fiber crossing. However, experience with high resolution tractography (HRFT) for neurosurgical applications is still limited to a few reports. This prospectively designed feasibility study shares our initial experience using an analytical q-ball approach (QBI) for FT of language-associated pathways in comparison with DTI-FT, focussing on a quantitative analysis and evaluation of its applicability in clinical routine.

Methods: Probabilistic QBI-, and DTI-FT were performed for the major components of the language-associated fiber bundles (superior longitudinal fasciculus, inferior fronto-occipital fasciculus, medial/inferior longitudinal faciculus) in 11 patients with eloquent gliomas. The data was derived from a routine DWI sequence (b=1000s/mm², 64 gradient directions). Quantitative analysis evaluated tract volume (TV), tract length (TL) and tract density (TD). Results were correlated to tumor and edema size.

Results: Quantitative analysis showed larger TV and TL of the overall fiber object using QBI-FT compared with DTI-FT (TV: 16.45±1.85 vs. 10.07±1.15cm³; P<0.0001; TL: 81.95±6.14 vs. 72.06±6.92 mm; P=0.0011). Regarding overall TD, DTI delivered significantly higher values (40.57±6.59 vs. 60.98±15.94 points/voxel; P=0.0118). Bland-Altman analysis illustrated a systematic advantage to yield lager TV and TL via QBI compared with DTI for all reconstructed pathways. The results were independent of tumor or edema volume.

Conclusions: QBI proved to be suitable for an application in the neurosurgical setting without additional expense for the patient. Quantitative analysis of FT reveals larger overall TV, longer TL with lower TD using QBI compared with DTI, suggesting the better depiction of marginal and terminal fibers according to neuroanatomical knowledge. This emphasizes the known limitation of DTI to underestimate the dimensions of a pathway. Rather than relying on DTI, sophisticated HRFT techniques should be considered for preoperative planning and intraoperative guidance in selected cases of eloquent glioma surgery.

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q球-语言相关束的高分辨率纤维束成像-神经胶质瘤切除适用性的定量评价。

迄今为止，纤维束造影(FT)主要是基于扩散张量成像(DTI)。基于高角分辨率扩散成像(HARDI)的重建技术已成为人们关注的焦点，它实现了体素内光纤交叉的分辨率。然而，高分辨率神经束造影(HRFT)在神经外科应用的经验仍然局限于少数报道。这项前瞻性设计的可行性研究分享了我们使用分析q球方法(QBI)对语言相关通路的FT与DTI-FT进行比较的初步经验，重点是对其在临床常规中的适用性进行定量分析和评估。方法对11例口才胶质瘤患者的语言相关纤维束主要组成部分(上纵束、额枕下束、内/下纵束)进行概率QBI-和DTI-FT检测。数据来源于常规DWI序列(b=1000s/mm2, 64个梯度方向)。定量分析评估尿路体积(TV)、尿路长度(TL)和尿路密度(TD)。结果与肿瘤及水肿大小相关。结果与DTI-FT相比，QBI-FT对整个纤维物体的TV和TL更大(TV: 16.45±1.85 vs 10.07±1.15cm3;p < 0.0001;TL:81.95±6.14 vs. 72.06±6.92 mm;p = 0.0011)。在总体TD方面，DTI提供了更高的值(40.57±6.59比60.98±15.94点/体素;p = 0.0118)。Bland-Altman分析表明，与DTI相比，QBI在所有重建通路中产生更大的TV和TL具有系统优势。结果与肿瘤或水肿体积无关。结论sqbi被证明适合在神经外科环境中应用，而不会给患者带来额外的费用。定量分析FT显示，与DTI相比，QBI的总TV更大，TL更长，TD更低，这表明根据神经解剖学知识，QBI可以更好地描述边缘和末端纤维。这强调了DTI的已知局限性，即低估了路径的维度。在选定的胶质瘤手术病例中，应考虑复杂的HRFT技术，而不是依赖于DTI，用于术前计划和术中指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of neurosurgical sciences CLINICAL NEUROLOGY-SURGERY

CiteScore

3.00

自引率

5.30%

发文量

202

审稿时长

>12 weeks

期刊介绍： The Journal of Neurosurgical Sciences publishes scientific papers on neurosurgery and related subjects (electroencephalography, neurophysiology, neurochemistry, neuropathology, stereotaxy, neuroanatomy, neuroradiology, etc.). Manuscripts may be submitted in the form of ditorials, original articles, review articles, special articles, letters to the Editor and guidelines. The journal aims to provide its readers with papers of the highest quality and impact through a process of careful peer review and editorial work.