Early detection of gastric cancer via high-resolution terahertz imaging system

Shi, Han; Li, Tenghui; Zhao, Jiang; Feng, Qi

doi:10.3389/fbioe.2022.1052069

Front. Bioeng. Biotechnol.

2022

DOI: 10.3389/fbioe.2022.1052069

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Early detection of gastric cancer via high-resolution terahertz imaging system

Han Shi

Tenghui Li

Jiang Zhao

et al.

Abstract: Terahertz (THz) wave has demonstrated a good prospect in recent years, but the resolution is still one of the problems that restrict the application of THz technology in medical imaging. Paraffin-embedded samples are mostly used in THz medical imaging studies, which are thicker and significantly different from the current gold standard slice pathological examination in sample preparation. In addition, THz absorption in different layers of normal and cancerous tissues also remains to be further explored. In thi… Show more

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Cited by 5 publications

References 41 publications

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Terahertz cancer imaging and sensing: open research challenges and opportunities

Gezimati

Singh

2023

Opt Quant Electron

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There has been a rapid development of THz technology—sources, detectors and various THz imaging and sensing techniques. The THz technology demonstrates great potential as a modality for early, label free, non-ionizing and non-invasive detection of cancer. Some progressive technological development milestones have been achieved in this regard, however, to become clinically competitive and to provide the sought after real operational convenience, there is need for further research and development to overcome the existing challenges. This paper provides recent trends and perspectives through identification of existing challenges for the development of THz imaging and sensing systems that can evolve into actual medical modalities. We provide an overview of various aspects of THz technology, including techniques for imaging and sensing, mechanisms for THz image contrast and models for tissue dielectric responses to THz waves. The THz imaging application for detection of various cancers is briefed. The advantages of THz cancer imaging and sensing as well as the existing challenges are identified, with recommendations provided in contribution to future research. Further, some recent THz imaging and sensing developments such as the near-field methods to break the diffraction limit including waveguides, resonance and plasmonic metasurfaces are discussed. We emphasize the contribution of analytical algorithms that are based on machine learning, in particular, deep learning for the development of THz technology. Graphical abstract

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Terahertz cancer imaging and sensing: open research challenges and opportunities

Gezimati

Singh

2023

Opt Quant Electron

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Terahertz coding metasurfaces for beam scanning and tunable focusing based on Dirac semimetals

Zhang,

Liu,

Liang

et al. 2025

Optics Communications

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Focal length switchable metalens based on vanadium dioxide

Niu,

Tian,

et al. 2024

Appl. Opt.

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A metalens is a flat lens that can control the phase of light so that dispersed light can be reconcentrated. This study devised a tunable metalens with a switchable focal length based on the phase transition properties of vanadium dioxide (VO2). The unit structure comprises three layers from bottom to top: gold, polyimide, and two square resonant rings. The metalens can not only transform incident x-polarized waves into y-polarized waves but also achieve beam focusing simultaneously. The designed metalens achieves polarization conversion efficiency at an operating frequency of 0.8 THz. In the insulating state of VO2, the beam focal point is at L=1914µm; in the metallic state, the wave converges at L=982µm, closely aligning with the predetermined focal length. By controlling external temperature, focal point switching can be achieved, making it highly versatile in practical applications.

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Early detection of gastric cancer via high-resolution terahertz imaging system

Cited by 5 publications

References 41 publications

Terahertz cancer imaging and sensing: open research challenges and opportunities

Terahertz cancer imaging and sensing: open research challenges and opportunities

Terahertz coding metasurfaces for beam scanning and tunable focusing based on Dirac semimetals

Focal length switchable metalens based on vanadium dioxide

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