面向肺癌早期筛查的半导体气体传感器研究进展

Research progress of semiconductor gas sensors for screening of early lung cancer

  • 摘要: 肺癌的高发生率和高致死率,使其早期筛查与早诊早治的重要性日益凸显。相比传统的侵入性检查方法,基于气体传感器的呼气分析技术具有低成本、无创性以及快速诊断的优势,是一种极具潜力的肺癌早期筛查手段。其中,易集成、操作简便的金属-氧化物-半导体气体传感器备受关注。本文综述半导体气体传感器在肺癌早期筛查中的最新研究进展,介绍低剂量计算机断层扫描(low-dose computed tomography, LDCT) 技术、肺癌呼气生物标志物以及传感器的工作原理,总结新型金属-氧化物-半导体气体传感器对肺癌标志物气体的检测性能及其增强机理,并讨论电子鼻技术以及智能算法在肺癌早期筛查中的应用现状与挑战,展望基于半导体气体传感器的肺癌早筛技术的发展前景。

     

    Abstract: The significance of early screening, diagnosis, and treatment for lung cancer, a disease with high incidence and mortality rates, is increasingly acknowledged. In comparison to traditional invasive examination methods, breath analysis technology based on gas sensors presents notable advantages, including low cost, non-invasiveness, and rapid diagnosis, thereby offering a highly promising approach for early lung cancer detection. Metal-oxide-semiconductor gas sensors, which are easily integrated and simple to operate, have attracted considerable attention. This paper reviews recent advancements in semiconductor gas sensors for the detection of early lung cancer. We introduce low-dose computed tomography (LDCT) methods, exhaled biomarkers associated with lung cancer, and the operating principle of gas sensors. We summarize the sensing performance and enhancement mechanisms of novel metal-oxide-semiconductor gas sensors for lung cancer biomarker gases. The current status and challenges of electronic nose technology and intelligent algorithms in early lung cancer screening are discussed. Future perspectives on semiconductor gas sensor-based early lung cancer screening technologies are presented.

     

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