QCLAS and CRDS-Based CO Quantification as Aimed at in Breath Measurements

International Journal of Spectroscopy Pub Date : 2012-01-18 DOI:10.1155/2012/894841

J. Nwaboh, S. Persijn, K. Heinrich, Marcus Sowa, P. Hering, O. Werhahn

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引用次数: 9

Abstract

Laser-spectrometric methods to derive absolute and traceable carbon monoxide (CO) amount fractions in exhaled human breath could be of advantage for early disease detection as well as for treatment monitoring. As proof-of-principle laboratory experiment, we employed intra-pulse and continuous wave (cw) quantum cascade laser spectroscopy (QCLAS), both at 4.6 μm. Additional experiments were carried out applying cw cavity ring-down spectroscopy (CRDS) with a CO sideband laser and a QCL. We emphasize metrological data quality objectives, thatis, traceability and uncertainty, which could serve as essential benefits to exhaled breath measurements. The results were evaluated and compared on a 100 μmol/mol CO level using the two QCLAS spectrometers, and the cw CO sideband laser CRDS setup. The relative standard uncertainties of the pulsed and the cw QCLAS CO amount fraction results were ±4.8 and ±2.8%, respectively, that from the CO sideband laser CRDS was ±2.7%. Sensitivities down to a 3 nmol/mol CO level were finally demonstrated and quantified by means of cw CRDS equipped with a QCL yielding standard uncertainties of about ±2.5 that are exclusively limited by the available line strength figure quality. With this study we demonstrate the achieved comparability of CO quantifications, adhering metrological principles.

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呼吸测量中基于QCLAS和crds的CO量化

激光光谱法在呼出的人的呼吸中获得绝对的和可追溯的一氧化碳(CO)量的分数可能有利于早期疾病检测以及治疗监测。作为原理验证的实验室实验，我们采用了4.6 μm波长的内脉冲和连续波量子级联激光光谱(QCLAS)。利用CO边带激光器和QCL进行了连续波腔衰荡光谱(CRDS)实验。我们强调计量数据的质量目标，即可追溯性和不确定性，这可以作为呼气测量的基本好处。在100 μmol/mol CO水平下，利用两个QCLAS光谱仪和连续波CO边带激光CRDS装置对结果进行了评价和比较。脉冲和连续QCLAS CO量分数结果的相对标准不确定度分别为±4.8和±2.8%，CO边带激光CRDS结果的相对标准不确定度为±2.7%。灵敏度低至3nmol /mol CO水平，最后通过配备QCL的cw CRDS进行了演示和量化，产生的标准不确定度约为±2.5，仅受可用线强度图质量的限制。通过这项研究，我们证明了CO定量的可比性，遵循计量原理。

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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International Journal of Spectroscopy

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