Ambient Light Resistant Shortwave Infrared Fluorescence Imaging for Preclinical Tumor Delineation via the pH Low-Insertion Peptide Conjugated to Indocyanine Green.

IF 9.1 1区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Journal of Nuclear Medicine Pub Date : 2023-10-01 Epub Date: 2023-08-24 DOI:10.2967/jnumed.123.265686

Benedict Edward Mc Larney, Mijin Kim, Sheryl Roberts, Magdalena Skubal, Hsiao-Ting Hsu, Anuja Ogirala, Edwin C Pratt, Naga Vara Kishore Pillarsetty, Daniel A Heller, Jason S Lewis, Jan Grimm

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Abstract

Shortwave infrared (900-1,700 nm) fluorescence imaging (SWIRFI) has shown significant advantages over visible (400-650 nm) and near-infrared (700-900 nm) fluorescence imaging (reduced autofluorescence, improved contrast, tissue resolution, and depth sensitivity). However, there is a major lag in the clinical translation of preclinical SWIRFI systems and targeted SWIRFI probes. Methods: We preclinically show that the pH low-insertion peptide conjugated to indocyanine green (pHLIP ICG), currently in clinical trials, is an excellent candidate for cancer-targeted SWIRFI. Results: pHLIP ICG SWIRFI achieved picomolar sensitivity (0.4 nM) with binary and unambiguous tumor screening and resection up to 96 h after injection in an orthotopic breast cancer mouse model. SWIRFI tumor screening and resection had ambient light resistance (possible without gating or filtering) with outstanding signal-to-noise ratio (SNR) and contrast-to-noise ratio (CNR) values at exposures from 10 to 0.1 ms. These SNR and CNR values were also found for the extended emission of pHLIP ICG in vivo (>1,100 nm, 300 ms). Conclusion: SWIRFI sensitivity and ambient light resistance enabled continued tracer clearance tracking with unparalleled SNR and CNR values at video rates for tumor delineation (achieving a tumor-to-muscle ratio above 20). In total, we provide a direct precedent for the democratic translation of an ambient light resistant SWIRFI and pHLIP ICG ecosystem, which can instantly improve tumor resection.

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环境耐光短波红外荧光成像通过与吲哚菁绿偶联的pH低插入肽进行临床前肿瘤描绘。

短波红外（900-1700 nm）荧光成像（SWIRFI）显示出明显优于可见光（400-650 nm）和近红外（700-900 nm）荧光成像（减少自发荧光、提高对比度、组织分辨率和深度灵敏度）。然而，临床前SWIRFI系统和靶向SWIRFI探针的临床翻译存在重大滞后。方法：我们的临床前研究表明，与吲哚青绿结合的pH低插入肽（pHLIP-ICG）目前正在进行临床试验，是癌症靶向SWIRFI的优秀候选物。结果：pHLIP ICG SWIRFI达到皮摩尔灵敏度（0.4 nM），二元和明确的肿瘤筛查和切除高达96 在原位乳腺癌症小鼠模型中注射后h。SWIRFI肿瘤筛查和切除具有环境光抗性（可能没有门控或滤波），在暴露于10至0.1时具有出色的信噪比（SNR）和对比噪声比（CNR）值 ms。对于pHLIP ICG在体内的延长发射，也发现了这些SNR和CNR值（>1100 nm，300 ms）。结论：SWIRFI的灵敏度和环境光阻使得能够在视频速率下以无与伦比的SNR和CNR值持续跟踪示踪剂清除率，用于肿瘤描绘（实现肿瘤与肌肉的比率超过20）。总之，我们为民主转化耐环境光的SWIRFI和pHLIP-ICG生态系统提供了一个直接的先例，它可以立即改善肿瘤切除。

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 Nuclear Medicine 医学-核医学

CiteScore

13.00

自引率

8.60%

发文量

340

审稿时长

1 months

期刊介绍： The Journal of Nuclear Medicine (JNM), self-published by the Society of Nuclear Medicine and Molecular Imaging (SNMMI), provides readers worldwide with clinical and basic science investigations, continuing education articles, reviews, employment opportunities, and updates on practice and research. In the 2022 Journal Citation Reports (released in June 2023), JNM ranked sixth in impact among 203 medical journals worldwide in the radiology, nuclear medicine, and medical imaging category.