A cerumenolomic approach to bovine trypanosomosis diagnosis.

Metabolomics : Official journal of the Metabolomic Society Pub Date : 2022-06-23 DOI:10.1007/s11306-022-01901-y

João Marcos G Barbosa, Débora Ribeiro de Mendonça, Lurian C David, Taynara C E Silva, Danielly A Fortuna Lima, Anselmo E de Oliveira, Welber Daniel Zanetti Lopes, Maria Clorinda S Fioravanti, Paulo H Jorge da Cunha, Nelson R Antoniosi Filho

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引用次数: 1

Abstract

Introduction: Trypanosomiasis caused by Trypanosoma vivax (T. vivax, subgenus Duttonella) is a burden disease in bovines that induces losses of billions of dollars in livestock activity worldwide. To control the disease, the first step is identifying the infected animals at early stages. However, convention tools for animal infection detection by T. vivax present some challenges, facilitating the spread of the pathogenesis.

Objectives: This work aims to develop a new procedure to identify infected bovines by T. vivax using cerumen (earwax) in a volatilomic approach, here named cerumenolomic, which is performed in an easy, quick, accurate, and non-invasive manner.

Methods: Seventy-eight earwax samples from Brazilian Curraleiro Pé-Duro calves were collected in a longitudinal study protocol during health and inoculated stages. The samples were analyzed using Headspace/Gas Chromatography-Mass Spectrometry followed by multivariate analysis approaches.

Results: The cerumen analyses lead to the identification of a broad spectrum of volatile organic metabolites (VOMs), of which 20 VOMs can discriminate between healthy and infected calves (AUC = 0.991, sensitivity = 0.967, specificity = 1.000). Furthermore, 13 VOMs can indicate a pattern of discrimination between the acute and chronic phases of the T. vivax infection in the animals (AUC = 0.989, sensitivity = 0.944, specificity = 1.000).

Conclusion: The cerumen volatile metabolites present alterations in their occurrence during the T.vivax infection, which may lead to identifying the infection in the first weeks of inoculation and discriminating between the acute and chronic phases of the illness. These results may be a breakthrough to avoid the T. vivax outbreak and provide a faster clinical approach to the animal.

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牛锥虫病诊断的脑膜组学方法。

由间日锥虫(Duttonella亚属，间日锥虫)引起的锥虫病是牛的一种负担性疾病，在全世界牲畜活动中造成数十亿美元的损失。为了控制这种疾病，第一步是在早期阶段识别受感染的动物。然而，传统的间日疟原虫动物感染检测工具存在一些挑战，促进了发病机制的传播。目的:本工作旨在建立一种利用耳垢挥发性鉴定间日疟原虫感染牛的新方法，本文将其命名为耳垢学，该方法简便、快速、准确、无创。方法:采用纵向研究方法，在健康期和接种期收集78例巴西库拉雷罗p -杜罗犊牛耳垢样本。样品采用顶空/气相色谱-质谱法进行分析，然后采用多变量分析方法。结果:耳垢分析鉴定出了广谱的挥发性有机代谢物(VOMs)，其中20种VOMs可以区分健康犊牛和感染犊牛(AUC = 0.991，灵敏度= 0.967，特异性= 1.000)。此外，13个VOMs可显示动物间日疟原虫感染急性期和慢性期的区分模式(AUC = 0.989，敏感性= 0.944，特异性= 1.000)。结论:耳垢挥发性代谢物在间日疟原虫感染过程中发生变化，可在接种后第1周识别感染，区分急性期和慢性期。这些结果可能是避免间日疟原虫爆发的一个突破，并提供了一种更快的动物临床方法。

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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Metabolomics : Official journal of the Metabolomic Society

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