脑肿瘤手术中的术中计算机断层扫描、导航超声、5-氨基乙酰丙酸荧光和神经监测:过度治疗还是有用的工具组合?

IF 1.3 4区 医学 Q4 CLINICAL NEUROLOGY
Journal of neurosurgical sciences Pub Date : 2024-02-01 Epub Date: 2019-07-11 DOI:10.23736/S0390-5616.19.04735-0
Giuseppe M Barbagallo, Massimiliano Maione, Simone Peschillo, Francesco Signorelli, Massimiliano Visocchi, Giuseppe Sortino, Giuseppa Fiumanò, Francesco Certo
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引用次数: 0

摘要

背景:脑肿瘤手术通常需要多种术中技术的支持,如荧光、脑图谱和神经导航,这些技术通常单独使用。导航的效果受到脑偏移现象的限制,尤其是在病灶较大或位置较深的情况下。引入术中成像也是为了更新神经导航数据,尝试解决与脑偏移现象相关的隐患,提高整体安全性。然而,每种术中成像方式都有一些固有的局限性和技术缺陷,使其在临床上的应用面临挑战。我们在术中超声(i-US)和术中计算机断层扫描(i-CT)与 5-ALA 荧光和神经监测引导切除术相结合的基础上,采用多模态术中成像方案来更新神经导航:这是一项前瞻性、连续性试验研究,研究对象为52名患者(29名男性),包括4名儿童,平均年龄57.67岁,患有脑低度(10人)或高级别(34人)胶质瘤或转移瘤(8人)。根据术前临床和神经放射学特征,他们接受了5-ALA荧光引导下的显微外科肿瘤切除术,并对病灶位于脑区的病例进行了神经监测。硬脑膜开口后进行导航 B 型超声采集,以确定病灶。肿瘤切除后,使用 i-US 确定残余肿瘤。在进一步切除肿瘤后,或在超声图像不清晰的情况下,进行对比后 i-CT 检查,以检测和定位小的肿瘤残余,并进一步校正脑偏移。最后还进行了i-US检查,以验证切除的完整性。临床评估基于术前和术后卡诺夫斯基表现评分(KPS)的比较以及总生存期(OS)和无进展生存期(PFS)的评估。肿瘤切除范围(EOTR)通过术后48小时内进行的术后磁共振容积评估:截至 2017 年 12 月,52 名患者中有 41 人(78.8%)存活并仍在接受随访。45例(86.5%)患者的5-ALA呈强阳性或模糊阳性。7个病灶(4个低级别胶质瘤、1个高级别胶质瘤和2个转移瘤)无荧光。22例(42.3%)患者在切除所有荧光或病理组织后,i-US可观察到残余肿瘤。在i-US引导下切除肿瘤后,有11例(21.1%)患者的i-CT显示存在进一步的残余肿瘤。低级别胶质瘤组的平均 EOTR 为 98.79%,高级别胶质瘤组为 99.84%,转移瘤组为 100%。KPS 从术前的 77.88 降至术后的 72.5。最后一次随访时,平均 KPS 为 84.23:结合不同的术中成像模式可提高脑肿瘤的安全性和切除范围。特别是,i-US 似乎对检测残余肿瘤高度敏感,但可能会因伪影而产生假阳性。相反,i-CT 对残余肿瘤的定位更具特异性,能更可靠地更新导航数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Intraoperative computed tomography, navigated ultrasound, 5-amino-levulinic acid fluorescence and neuromonitoring in brain tumor surgery: overtreatment or useful tool combination?

Background: Brain tumor surgery is routinely supported by several intraoperative techniques, such as fluorescence, brain mapping and neuronavigation, which are often used independently. Efficacy of navigation is limited by the brain-shift phenomenon, particularly in cases of large or deep-sited lesions. Intraoperative imaging was introduced also to update neuronavigation data, to try and solve the brain-shift phenomenon-related pitfalls and increase overall safety. Nevertheless, each intraoperative imaging modality has some intrinsic limitations and technical shortcomings, making its clinical use challenging. We used a multimodal intraoperative imaging protocol to update neuronavigation, based on the combination of intraoperative Ultrasound (i-US) and intraoperative Computed Tomography (i-CT) integrated with 5-ALA fluorescence and neuromonitoring-guided resection.

Methods: This is a pilot study on 52 patients (29 men), including four children, with a mean age of 57.67 years, suffering from brain low- (N.=10) or high-grade (N.=34) glioma or metastasis (N.=8), prospectively and consecutively enrolled. They underwent 5-ALA fluorescence-guided microsurgical tumor resection and neuromonitoring was used in cases of lesions located in eloquent areas, according to preoperative clinical and neuroradiological features. Navigated B-mode ultrasound acquisition was carried out after dural opening to identify the lesion. After tumor resection, i-US was used to identify residual tumor. Following further tumor resection or in cases of unclear US images, post-contrast i-CT was performed to detect and localize small tumor remnants and to allow further correction for brain shift. A final i-US check was performed to verify the completeness of resection. Clinical evaluation was based on comparison of pre- and postoperative Karnofsky Performance Score (KPS) and assessment of overall survival (OS) and progression-free survival (PFS). Extent of tumor resection (EOTR) was evaluated by volumetric postoperative Magnetic Resonance performed within 48 h after surgery.

Results: Forty-one of the 52 (78.8%) patients were alive and still under follow-up in December 2017. 5-ALA was strongly or vaguely positive in 45 cases (86.5%). Seven lesions (four low-grade glioma, one high-grade glioma, and two metastases) were not fluorescent. i-US visualized residual tumor after resection of all fluorescent or pathological tissue in 22 cases (42.3%). After i-US guided resection, i-CT documented the presence of further residual tumor in 11 cases (21.1%). Mean EOTR was 98.79% in the low-grade gliomas group, 99.84% in the high-grade gliomas group and 100% in the metastases group. KPS changed from 77.88, preoperatively, to 72.5, postoperatively. At the last follow-up, mean KPS was 84.23.

Conclusions: The combination of different intraoperative imaging modalities may increase brain tumor safety and extent of resection. In particular, i-US seems to be highly sensitive to detect residual tumors, but it may generate false positives due to artifacts. Conversely, i-CT is more specific to localize remnants, allowing a more reliable updating of navigation data.

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来源期刊
Journal of neurosurgical sciences
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.
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