氧合血红蛋白测量使用1064nm光

IF 4.3 2区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Journal of Selected Topics in Quantum Electronics Pub Date : 2024-12-09 DOI:10.1109/JSTQE.2024.3512776

Laura Di Sieno;Alessandro Bossi;Francesco Sangalli;Alessandro Torricelli;Ilias Tachtsidis;Turgut Durduran;Antonio Pifferi;Alberto Dalla Mora

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引用次数: 0

摘要

虽然标准的光学氧饱和度测量系统在氧/脱氧血红蛋白的等吸点上使用650到900 nm之间的两个/多个波长，但这项工作探索了仅使用1064 nm波长的光来使用时域漫射光学检测组织中绝对氧血红蛋白浓度的可能性。此外，还讨论了利用1064nm波长与经典方法波长耦合的可能性。我们的研究结果表明，与标准方法相比，新方法有合理的重叠，有限的差异可能与科学界对超过1000 nm的组织成分消光系数的确切值尚未建立一致意见有关，以及由于与可见范围相比散射系数较低，在1064 nm处组织中的穿透深度增加。这些发现为该领域的进一步研究开辟了道路，同时也考虑到1064纳米激光器和探测器的不断进步。

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Oxyhemoglobin Measurements Using 1064 nm Light

While standard optical oximetry systems make use of two/more wavelengths across the isosbestic point of oxy/deoxy-hemoglobin and between 650 and 900 nm, this work explores the possibility to use only light at 1064 nm wavelength to detect the absolute oxyhemoglobin concentration in tissues using time-domain diffuse optics. Furthermore, the possibility to exploit a 1064 nm wavelength coupled with wavelengths of classical approaches is also discussed. Our findings demonstrate a reasonable overlap of the new approaches as compared to the standard one, with confined discrepancies potentially linked to a not established agreement in the scientific community on the exact value of extinction coefficients of tissue constituents beyond 1000 nm, as well as to an increased penetration depth in the tissue at 1064 nm due to a lower scattering coefficient as compared to the visible range. These findings open the way to further studies in the field, also given the increasing advancements in lasers and detectors at 1064 nm.

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来源期刊

IEEE Journal of Selected Topics in Quantum Electronics 工程技术-工程：电子与电气

CiteScore

10.60

自引率

2.00%

发文量

212

审稿时长

3 months

期刊介绍： Papers published in the IEEE Journal of Selected Topics in Quantum Electronics fall within the broad field of science and technology of quantum electronics of a device, subsystem, or system-oriented nature. Each issue is devoted to a specific topic within this broad spectrum. Announcements of the topical areas planned for future issues, along with deadlines for receipt of manuscripts, are published in this Journal and in the IEEE Journal of Quantum Electronics. Generally, the scope of manuscripts appropriate to this Journal is the same as that for the IEEE Journal of Quantum Electronics. Manuscripts are published that report original theoretical and/or experimental research results that advance the scientific and technological base of quantum electronics devices, systems, or applications. The Journal is dedicated toward publishing research results that advance the state of the art or add to the understanding of the generation, amplification, modulation, detection, waveguiding, or propagation characteristics of coherent electromagnetic radiation having sub-millimeter and shorter wavelengths. In order to be suitable for publication in this Journal, the content of manuscripts concerned with subject-related research must have a potential impact on advancing the technological base of quantum electronic devices, systems, and/or applications. Potential authors of subject-related research have the responsibility of pointing out this potential impact. System-oriented manuscripts must be concerned with systems that perform a function previously unavailable or that outperform previously established systems that did not use quantum electronic components or concepts. Tutorial and review papers are by invitation only.