In situ optical feedback in brain tumor biopsy: A multiparametric analysis.

IF 3.7 Q1 CLINICAL NEUROLOGY

Neuro-oncology advances Pub Date : 2024-10-24 eCollection Date: 2024-01-01 DOI:10.1093/noajnl/vdae175

Elisabeth Klint, Johan Richter, Peter Milos, Martin Hallbeck, Karin Wårdell

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Abstract

Background: Brain tumor needle biopsy interventions are inflicted with nondiagnostic or biased sampling in up to 25% and hemorrhage, including asymptomatic cases, in up to 60%. To identify diagnostic tissue and sites with increased microcirculation, intraoperative optical techniques have been suggested. The aim of this study was to investigate the clinical implications of in situ optical guidance in frameless navigated tumor biopsies.

Methods: Real-time feedback on protoporphyrin IX (PpIX) fluorescence, microcirculation, and gray-whiteness was given before tissue sampling (272 positions) in 20 patients along 21 trajectories in total. The primary variables of investigation were fluorescence in relation to neuropathological findings and gadolinium (Gd) enhancement, increased cerebral microcirculation in relation to bleeding incidence, number of trajectories, and impact on operation time.

Results: PpIX fluorescence was detected in Glioblastoma IDH-wildtype CNS WHO grade 4 (n = 12), Primary diffuse large B-cell lymphoma (n = 3), astrocytoma IDH-mutated CNS WHO grade 4 (n = 1) (Ki67 indices ≥ 15%). For 2 patients, no PpIX fluorescence or Gd was found, although samples contained tumorous tissue (Ki67 index 6%). Increased microcirculation was found along 9 trajectories (34 sites), located in cortical, tumorous, or tentorium regions. Postoperative bleedings (n = 10, nine asymptomatic) were related to skull opening or tissue sampling. This study strengthens the proposed independence from intraoperative neuropathology as PpIX fluorescence is detected. Objective real-time feedback resulted in fewer trajectories compared to previous studies indicating reduced operation time.

Conclusions: The integrated optical guidance system provides real-time feedback in situ, increasing certainty and precision of diagnostic tissue before sampling during frameless brain tumor biopsies.

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脑肿瘤活检中的原位光学反馈：多参数分析。

背景：高达25%的脑肿瘤穿刺活检干预造成了非诊断性或偏差取样，高达60%的脑肿瘤出血，包括无症状病例。为了识别微循环增加的诊断组织和部位，术中光学技术被建议使用。本研究的目的是探讨原位光学引导在无框导航肿瘤活检中的临床意义。方法：对20例患者进行组织采样（272个位置）前，沿21条轨迹实时反馈原卟啉IX （PpIX）荧光、微循环和灰白色。研究的主要变量是与神经病理结果和钆增强相关的荧光，与出血发生率相关的脑微循环增加，轨迹数以及对手术时间的影响。结果：胶质母细胞瘤idh野生型CNS WHO分级4 （n = 12）、原发性弥漫性大b细胞淋巴瘤（n = 3）、星形细胞瘤idh突变CNS WHO分级4 (n = 1) （Ki67指数≥15%）均检测到PpIX荧光。2例患者未检测到PpIX荧光或Gd，但样本中含有肿瘤组织（Ki67指数6%）。微循环增加沿9个轨迹（34个部位），位于皮质区、肿瘤区或幕区。术后出血（10例，9例无症状）与颅骨开放或组织取样有关。该研究加强了PpIX荧光检测与术中神经病理学的独立性。与之前的研究相比，客观的实时反馈减少了轨迹，减少了操作时间。结论：集成光学制导系统提供实时的原位反馈，提高了无框脑肿瘤活检取样前诊断组织的确定性和准确性。

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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