Quantification of bactericidal activity using the PATHFAST TB LAM Ag assay during the first 14 days of pulmonary tuberculosis treatment.

Frontiers in antibiotics Pub Date : 2025-05-15 eCollection Date: 2025-01-01 DOI:10.3389/frabi.2025.1574688

Ayumi Akinaga, Andreas H Diacon, Remous Ocloo, Atsushi Yanagida, Naofumi Yoda, Masanori Kawasaki, Yongge Liu

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Abstract

Background: Tuberculosis (TB) remains a global health challenge. Culture-free, rapid, and quantitative biomarkers to monitor treatment response are critical to accelerate development of better TB treatments. The PATHFAST TB LAM Ag assay (PATHFAST-LAM), a desktop chemiluminescent enzyme immunoassay that measures mycobacterial lipoarabinomannan (LAM) in sputum within 1 hour, is a promising candidate for this purpose. This study aimed to assess whether the PATHFAST-LAM can serve as a rapid, reliable biomarker for monitoring early treatment response in pulmonary TB.

Methods: We conducted a retrospective longitudinal repository study using stored sputum samples from 14-day early bactericidal activity trials involving 75 pulmonary TB patients who received one of five different regimens. The results were compared with those from the TB LAM ELISA "Otsuka" (LAM-ELISA), which was previously shown to measure early bactericidal activity but takes more than 5 hours to obtain results, and conventional culture-based methods.

Results: The LAM concentrations in both raw and decontaminated sputum showed strong correlations between the PATHFAST-LAM and the LAM-ELISA, with Spearman's correlation coefficients of 0.975 (95% CI: 0.971 - 0.979) and 0.987 (95% CI: 0.984 - 0.989), respectively. LAM concentrations in raw and decontaminated sputum by the PATHFAST-LAM were also highly correlated with a Spearman coefficient of 0.957 (95% CI: 0.950 - 0.964). Importantly, the LAM concentrations by the PATHFAST-LAM correlated with bacterial loads determined by culture-based methods in all five treatment arms (Spearman's coefficients: 0.723 - 0.947). Furthermore, the change in LAM levels over the treatment period mirrored the changes in bacterial load. Additionally, culture-based methods often result in missing data due to contamination: in our study, we observed a missing data rate of 9.6% (62/649) on quantifying CFU counts and 4.2% (27/649) on obtaining a valid MGIT TTD, while we obtained a valid LAM value with the PATHFAST-LAM (0/634 in raw samples and 0/637 in decontaminated samples).

Conclusion: Our findings suggest that the PATHFAST-LAM can quantify bactericidal activity in the first 14 days of treatment with a quick turnaround time. The test's utility to monitor conversion from positive to negative and to predict relapse-free cure compared to culture-based methods should be determined in longer trials.

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在肺结核治疗的头14天，使用PATHFAST TB LAM Ag测定法定量杀菌活性。

背景：结核病（TB）仍然是一个全球性的卫生挑战。用于监测治疗反应的无培养、快速和定量的生物标志物对于加快开发更好的结核病治疗方法至关重要。PATHFAST TB LAM Ag测定法（PATHFAST-LAM）是一种桌面化学发光酶免疫测定法，可在1小时内测量痰中分枝杆菌脂阿拉伯糖甘露聚糖（LAM），是一种很有希望的候选方法。这项研究旨在评估PATHFAST-LAM是否可以作为一种快速、可靠的生物标志物来监测肺结核的早期治疗反应。方法：我们对75名接受5种不同治疗方案之一的肺结核患者进行了14天早期杀菌活性试验的痰样本进行了回顾性纵向储存库研究。将结果与TB LAM ELISA“大冢”（LAM-ELISA）和传统的基于培养的方法进行比较。LAM-ELISA先前被证明可以测量早期杀菌活性，但需要5小时以上才能获得结果。结果：PATHFAST-LAM与LAM- elisa检测的生痰和去污痰中LAM浓度均呈较强相关性，Spearman相关系数分别为0.975 （95% CI: 0.971 ~ 0.979）和0.987 （95% CI: 0.984 ~ 0.989）。经PATHFAST-LAM检测的生痰和去污痰中的LAM浓度与Spearman系数也高度相关，为0.957 （95% CI: 0.950 - 0.964）。重要的是，在所有五个处理组中，PATHFAST-LAM浓度与基于培养方法确定的细菌负荷相关（Spearman系数：0.723 - 0.947）。此外，在治疗期间，LAM水平的变化反映了细菌负荷的变化。此外，基于培养的方法往往会由于污染而导致数据缺失：在我们的研究中，我们观察到量化CFU计数的数据缺失率为9.6%(62/649)，获得有效MGIT TTD的数据缺失率为4.2%(27/649)，而我们使用PATHFAST-LAM获得了有效的LAM值（原始样品为0/634，净化样品为0/637）。结论：我们的研究结果表明，PATHFAST-LAM可以量化治疗前14天的杀菌活性，并且周转时间短。与基于培养的方法相比，该测试在监测从阳性到阴性转化和预测无复发治愈方面的效用应在更长的试验中确定。

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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Frontiers in antibiotics

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