三维近红外标本测绘可在切除肺部磨玻璃密度影时确定肿瘤与手术切缘的距离。

Three-Dimensional Near-Infrared Specimen Mapping Can Identify the Distance from the Tumor to the Surgical Margin During Resection of Pulmonary Ground Glass Opacities.

机构信息

Department of Surgery, University of Pennsylvania School of Medicine, 3400 Spruce Street, 6 White Building, Philadelphia, PA, 19104, USA.

Department of Pathology, University of Pennsylvania School of Medicine, Philadelphia, PA, USA.

出版信息

Mol Imaging Biol. 2023 Feb;25(1):203-211. doi: 10.1007/s11307-022-01750-0. Epub 2022 Jul 13.

DOI:10.1007/s11307-022-01750-0

PMID:35831734

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10237678/

Abstract

BACKGROUND

Lung cancers can recur locally due to inadequate resection margins. Achieving adequate margin distances is challenging in pulmonary ground glass opacities (GGOs) because they are not easily palpable. To improve margin assessment during resection of GGOs, we propose a novel technique, three-dimensional near-infrared specimen mapping (3D-NSM).

METHODS

Twenty patients with a cT1 GGO were enrolled and received a fluorescent tracer preoperatively. After resection, specimens underwent 3D-NSM in the operating room. Margins were graded as positive or negative based upon fluorescence at the staple line. Images were analyzed using ImageJ to quantify the distance from the tumor edge to the nearest staple line. This margin distance calculated by 3D-NSM was compared to the margin distance reported on final pathology several days postoperatively.

RESULTS

3D-NSM identified 20/20 GGOs with no false positive or false negative diagnoses. Mean fluorescence intensity for lesions was 110.92 arbitrary units (A.U.) (IQR: 77.77-122.03 A.U.) compared to 23.68 A.U. (IQR: 19.60-27.06 A.U.) for background lung parenchyma (p < 0.0001). There were 4 tumor-positive or close margins in the study cohort, and all 4 (100%) were identified by 3D-NSM. 3D-NSM margin distances were nearly identical to margin distances reported on final pathology (R = 0.9362). 3D-NSM slightly under-predicted margin distance, and the median difference in margins was 1.9 mm (IQR 0.5-4.3 mm).

CONCLUSIONS

3D-NSM rapidly localizes GGOs by fluorescence and detects tumor-positive or close surgical margins. 3D-NSM can accurately quantify the resection margin distance as compared to formal pathology, which allows surgeons to rapidly determine whether sublobar resection margin distances are adequate.

摘要

背景

由于切除边缘不足，肺癌可能会局部复发。在肺磨玻璃密度（GGO）中，实现足够的边缘距离具有挑战性，因为它们不容易触及。为了提高 GGO 切除过程中的边缘评估，我们提出了一种新的技术，即三维近红外标本测绘（3D-NSM）。

方法

20 例 cT1 GGO 患者术前接受荧光示踪剂。切除后，标本在手术室进行 3D-NSM。根据钉线处的荧光将边缘分为阳性或阴性。使用 ImageJ 对图像进行分析，以量化从肿瘤边缘到最近的钉线的距离。通过 3D-NSM 计算的边缘距离与术后数天的最终病理报告的边缘距离进行比较。

结果

3D-NSM 识别出 20/20 例 GGO，无假阳性或假阴性诊断。病变的平均荧光强度为 110.92 个任意单位（A.U.）（IQR：77.77-122.03 A.U.），而背景肺实质的荧光强度为 23.68 A.U.（IQR：19.60-27.06 A.U.）（p<0.0001）。研究队列中有 4 例肿瘤阳性或接近边缘，其中 4 例（100%）均通过 3D-NSM 识别。3D-NSM 边缘距离与最终病理报告的边缘距离几乎相同（R=0.9362）。3D-NSM 略微低估了边缘距离，边缘差异的中位数为 1.9 毫米（IQR 0.5-4.3 毫米）。

结论

3D-NSM 通过荧光快速定位 GGO，并检测肿瘤阳性或接近的手术边缘。与正式病理学相比，3D-NSM 可以准确地量化切除边缘距离，这使外科医生能够快速确定亚肺叶切除边缘距离是否足够。

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