Spectrophotometric characterization of hemozoin as a malaria biomarker

Applications of Optics and Photonics Pub Date : 2017-08-22 DOI:10.1117/12.2270995

I. Silva, R. Lima, G. Minas, S. Catarino

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引用次数: 2

Abstract

Malaria is a parasitic disease with more than a billion people worldwide at risk of contraction. The disease is predominantly widespread in regions with precarious healthcare conditions and resources. Despite the several available malaria diagnostic methods, only two are predominantly used in the field in malaria-endemic countries: microscopy and rapid diagnostic tests. In this work, an alternative diagnostic system is proposed, based on optical absorption spectrophotometry. The main objective of this paper is the spectrophotometric study of hemozoin as a malaria biomarker, since it is a sub-product of the malaria infection. The optical absorbance of hemoglobin and hemozoin solutions in purified water was measured in the visible spectrum range using a spectrophotometric setup. The results showed main absorbance peaks at 540 nm and 574 nm for hemoglobin, and at 672 nm for hemozoin. The tests performed in aqueous solutions have shown that both hemoglobin and synthetic hemozoin, when alone in solution, were detected by absorbance, with sensitivity of 0.05 g/L, and with a high linearity (R2> 0.92 for all wavelength peaks). Furthermore, it was found that the whole blood and the hemoglobin spectra have similar absorption peaks. By combining whole blood and synthetic hemozoin solutions, it was proved that both the hemozoin and the hemoglobin absorbance peaks could still be detected by spectrophotometry. For instance, in polydimethylsiloxane wells, the proposed method was able to detect hemozoin in whole blood samples for optical paths as low as 3 mm in cylindrical wells, thus proving the capability for this method’s miniaturization. With this work, it is possible to conclude that hemozoin is a viable candidate as a biomarker for malaria detection by optical absorption spectrophotometry and also, that an autonomous, fully integrated and low cost miniaturized system, based on such a principle, could provide an efficient diagnosis of malaria.

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疟原虫色素作为疟疾生物标志物的分光光度表征

疟疾是一种寄生虫病，全世界有超过10亿人面临感染风险。该病主要在卫生条件和资源不稳定的地区广泛传播。尽管有几种可用的疟疾诊断方法，但在疟疾流行国家，只有两种主要用于实地:显微镜和快速诊断测试。在这项工作中，提出了一种基于光学吸收分光光度法的替代诊断系统。本文的主要目的是分光光度法研究疟原虫色素作为疟疾生物标志物，因为它是疟疾感染的亚产物。用分光光度法测定了纯净水中血红蛋白和血色素溶液在可见光谱范围内的吸光度。结果表明:血红蛋白的吸光度峰在540 nm和574 nm处，血色素的吸光度峰在672 nm处。在水溶液中进行的测试表明，单独在溶液中，血红蛋白和合成血色素都可以通过吸光度检测到，灵敏度为0.05 g/L，线性度高(所有波长峰R2> 0.92)。此外，还发现全血光谱与血红蛋白光谱具有相似的吸收峰。将全血与合成血色素溶液混合，证明分光光度法仍然可以检测到血色素和血红蛋白的吸光度峰。例如，在聚二甲基硅氧烷井中，该方法能够在圆柱形井中低至3毫米的光路下检测全血样本中的血色素，从而证明了该方法的小型化能力。通过这项工作，可以得出结论，血色素蛋白是一种可行的候选生物标志物，可用于疟疾的光学吸收分光光度法检测，并且基于这种原理的自主、完全集成和低成本的小型化系统可以提供有效的疟疾诊断。

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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Applications of Optics and Photonics

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