Somatosensory Mapping Using a Novel Sensory Discrimination Task: Technical Note.

IF 1.7 4区医学 Q3 CLINICAL NEUROLOGY

Operative Neurosurgery Pub Date : 2025-05-01 Epub Date: 2024-09-09 DOI:10.1227/ons.0000000000001349

Abraham Dada, Gray Umbach, Areti Majumdar, Jasleen Kaur, Sena Oten, Mitchel S Berger, David Brang, Shawn L Hervey-Jumper

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Abstract

Background and objectives: Although diffuse gliomas in the primary somatosensory cortex (S1) are often considered resectable, gliomas in the primary motor cortex require motor mapping to preserve motor function. Recent evidence indicates that some somatosensory cortex neurons may trigger motor responses, necessitating refined somatosensory mapping techniques.

Methods: Using piezoelectric tactile stimulators on patients' faces and hands, we delivered 25 Hz vibrations and prompted patients to discriminate between dermatomes. Testing included areas contralateral to tumor-infiltrated and to non-tumor-infiltrated cortical regions. Sensory thresholds were determined by reducing stimulus intensity based on performance. Intraoperatively, electrocorticography electrode arrays were used to map sensory responses, and postoperative assessments evaluated sensory outcomes.

Results: The high-grade glioma case involved a 61-year-old man with right-sided weakness and numbness with a left parietal mass on MRI. Preoperative testing showed that the average vibratory detection threshold of the hand contralateral to the suspected tumor site was significantly higher than that of the hand contralateral to healthy cortex ( P < .001). Intraoperative mapping confirmed the absence of functional involvement in cortical structures overlying the tumor. Postoperative imaging confirmed gross total resection, and sensory vibratory thresholds were normalized ( P = .51). The low-grade glioma case included a 54-year-old man with a left parietal nonenhancing mass on MRI. No baseline sensory impairments were found on preoperative testing. Intraoperative mapping identified motor and sensory cortices, guiding tumor resection while preserving motor function. Postoperative MRI confirmed near-total resection, but new sensory impairments were noted in the hand and face contralateral to the resection site ( P < .001). These deficits resolved by postoperative day 11, with no evidence of tumor progression on follow-up imaging.

Conclusion: The sensory discrimination task provides a quantifiable method for assessing sensory changes and functional outcomes related to glioma. This technique enhances our understanding of how glioma infiltration remodels sensory systems and affects clinical outcomes in patients.

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使用新型感觉辨别任务绘制躯体感觉图：技术说明。

背景和目的：尽管原发性躯体感觉皮层（S1）弥漫性胶质瘤通常被认为是可切除的，但原发性运动皮层胶质瘤需要运动图谱来保留运动功能。最近的证据表明，一些躯体感觉皮层神经元可能会触发运动反应，因此有必要改进躯体感觉映射技术：方法：我们在患者的面部和手部使用压电触觉刺激器，发出25赫兹的振动，促使患者区分皮层。测试范围包括肿瘤浸润皮质区域和非肿瘤浸润皮质区域的对侧区域。根据表现降低刺激强度来确定感觉阈值。术中使用皮层电图电极阵列绘制感觉反应图，术后评估则对感觉结果进行评估：该高级别胶质瘤病例涉及一名 61 岁的男性，他右侧肢体无力、麻木，核磁共振检查显示左侧顶叶有肿块。术前测试显示，疑似肿瘤部位对侧手掌的平均振动检测阈值明显高于健康皮质对侧手掌的平均振动检测阈值（P < .001）。术中绘图证实，肿瘤上方的皮质结构没有功能受累。术后造影证实肿瘤已完全切除，感觉振动阈值恢复正常（P = .51）。低级别胶质瘤病例包括一名54岁的男性，核磁共振成像显示其左顶叶有一非强化肿块。术前检查未发现基线感觉障碍。术中绘图确定了运动和感觉皮层，在保留运动功能的同时指导肿瘤切除。术后核磁共振成像证实肿瘤接近完全切除，但切除部位对侧的手部和面部出现了新的感觉障碍（P < .001）。这些障碍在术后第11天得到缓解，随访影像学检查未发现肿瘤进展：结论：感觉分辨任务为评估神经胶质瘤相关的感觉变化和功能结果提供了一种可量化的方法。这项技术加深了我们对胶质瘤浸润如何重塑感觉系统并影响患者临床预后的理解。

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

Operative Neurosurgery Medicine-Neurology (clinical)

CiteScore

3.10

自引率

13.00%

发文量

530

期刊介绍： Operative Neurosurgery is a bi-monthly, unique publication focusing exclusively on surgical technique and devices, providing practical, skill-enhancing guidance to its readers. Complementing the clinical and research studies published in Neurosurgery, Operative Neurosurgery brings the reader technical material that highlights operative procedures, anatomy, instrumentation, devices, and technology. Operative Neurosurgery is the practical resource for cutting-edge material that brings the surgeon the most up to date literature on operative practice and technique