Volatile Organic Compounds in Exhaled Breath, Blood, and Urine Detected in Patients with Thyroid Carcinoma Using Gas Chromatography-Ion Mobility Spectrometry- A Pilot Study.

IF 3.7 4区医学 Q1 BIOCHEMICAL RESEARCH METHODS Journal of breath research Pub Date : 2024-10-22 DOI:10.1088/1752-7163/ad89ef

Zaid Al-Difaie, Max Scheepers, Sanne Engelen, Tim Lubbers, Bas Havekes, Nicole Bouvy

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Abstract

Background Distinguishing between malignant and benign thyroid nodules remains a significant challenge for clinicians and researchers globally. The use of volatile organic compounds (VOCs) has emerged as a novel approach in cancer diagnosis. This prospective pilot study aims to identify VOCs in exhaled breath, blood, and urine that can differentiate benign from malignant thyroid nodules using gas chromatography-ion mobility spectrometry (GC-IMS). Methods Patients with thyroid nodules scheduled for surgery were enrolled at the Maastricht University Medical Center (MUMC+). Breath samples were analyzed using a BreathSpec GC-IMS machine (G.A.S. Dortmund, Germany), specifically designed for breath analysis. All blood and urine samples were analyzed with a separate GC-IMS device, the FlavourSpec® (G.A.S., Dortmund, Germany). Results In this proof-of-concept study, 70 patients undergoing thyroid surgery at MUMC+ were consecutively included. Of these patients, 29 were confirmed to have thyroid cancer after surgical resection. The overall analysis did not reveal statistically significant differences in VOCs in breath, urine and blood, between patients with benign and malignant thyroid cancer. Conclusion This proof-of-concept study demonstrated that GC-IMS was unable to adequately distinguish between the VOC profiles of malignant and benign thyroid nodules. However, this study had a small sample size and future larger studies are needed to investigate the potential of using VOCs to distinguish between benign and malignant thyroid nodules. Furthermore, future research should focus on investigating potential confounders that affect patient VOC profiles. (NCT04883294) .

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利用气相色谱-离子迁移谱法检测甲状腺癌患者呼出的气体、血液和尿液中的挥发性有机化合物--一项试点研究。

背景区分甲状腺结节的恶性和良性仍然是全球临床医生和研究人员面临的一项重大挑战。利用挥发性有机化合物（VOCs）诊断癌症已成为一种新方法。这项前瞻性试验研究旨在利用气相色谱-离子迁移谱法（GC-IMS）鉴定呼出气体、血液和尿液中可区分良性和恶性甲状腺结节的挥发性有机化合物。呼吸样本使用专门用于呼吸分析的 BreathSpec GC-IMS 仪器（德国多特蒙德 G.A.S.公司）进行分析。所有血液和尿液样本均使用单独的 GC-IMS 设备 FlavourSpec® （G.A.S.，德国多特蒙德）进行分析。其中，29 名患者在手术切除后确诊为甲状腺癌。总体分析表明，良性和恶性甲状腺癌患者在呼气、尿液和血液中的挥发性有机化合物含量没有显著的统计学差异。不过，这项研究的样本量较小，今后需要进行更大规模的研究，以探讨使用挥发性有机化合物区分良性和恶性甲状腺结节的潜力。此外，未来的研究应侧重于调查影响患者VOC特征的潜在混杂因素。

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来源期刊

Journal of breath research BIOCHEMICAL RESEARCH METHODS-RESPIRATORY SYSTEM

CiteScore

7.60

自引率

21.10%

发文量

审稿时长

>12 weeks

期刊介绍： Journal of Breath Research is dedicated to all aspects of scientific breath research. The traditional focus is on analysis of volatile compounds and aerosols in exhaled breath for the investigation of exogenous exposures, metabolism, toxicology, health status and the diagnosis of disease and breath odours. The journal also welcomes other breath-related topics. Typical areas of interest include: Big laboratory instrumentation: describing new state-of-the-art analytical instrumentation capable of performing high-resolution discovery and targeted breath research; exploiting complex technologies drawn from other areas of biochemistry and genetics for breath research. Engineering solutions: developing new breath sampling technologies for condensate and aerosols, for chemical and optical sensors, for extraction and sample preparation methods, for automation and standardization, and for multiplex analyses to preserve the breath matrix and facilitating analytical throughput. Measure exhaled constituents (e.g. CO2, acetone, isoprene) as markers of human presence or mitigate such contaminants in enclosed environments. Human and animal in vivo studies: decoding the ''breath exposome'', implementing exposure and intervention studies, performing cross-sectional and case-control research, assaying immune and inflammatory response, and testing mammalian host response to infections and exogenous exposures to develop information directly applicable to systems biology. Studying inhalation toxicology; inhaled breath as a source of internal dose; resultant blood, breath and urinary biomarkers linked to inhalation pathway. Cellular and molecular level in vitro studies. Clinical, pharmacological and forensic applications. Mathematical, statistical and graphical data interpretation.