尼日尔学龄前儿童长期大量服用阿奇霉素和大环内酯类药物耐药性的决定因素:分组随机试验(MORDOR)的子研究。

IF 15.8 1区 医学 Q1 Medicine PLoS Medicine Pub Date : 2024-05-06 eCollection Date: 2024-05-01 DOI:10.1371/journal.pmed.1004386
Ahmed M Arzika, Amza Abdou, Ramatou Maliki, Nassirou Beido, Boubacar Kadri, Abdoul N Harouna, Abdoul N Galo, Mankara K Alio, Elodie Lebas, Catherine E Oldenburg, Kieran S O'Brien, Cindi Chen, Lina Zhong, Zhaoxia Zhou, Daisy Yan, Armin Hinterwirth, Jeremy D Keenan, Travis C Porco, Thomas M Lietman, Thuy Doan
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引用次数: 0

摘要

背景:随机对照试验发现,每年两次大规模使用阿奇霉素(MDA)可降低儿童死亡率,这可能是通过减少感染负担实现的。鉴于对抗生素耐药性的担忧,世界卫生组织(WHO)发布了在撒哈拉以南非洲死亡率较高地区大规模使用阿奇霉素的有条件指南。虽然在小型随机对照试验中,一年两次的长期MDA已被证明会增加抗生素耐药性,但本研究的目的是确定在更大的环境中,肠道中的大环内酯类和非大环内酯类抗生素耐药性是否会随着阿奇霉素MDA的持续时间而增加:2014年12月至2020年6月在尼日尔开展了 "大环内酯类药物降低耐药性研究"(MORDOR)。这是一项阿奇霉素(A)与安慰剂(P)的分组随机试验,旨在评估儿童死亡率。这是 MORDOR 试验的一项子研究,旨在跟踪阿奇霉素长期 MDA 后抗生素耐药性的变化。共有 594 个社区符合条件。在 163 个随机选择的社区中,1 到 59 个月大的儿童有资格接受治疗,并被纳入耐药性监测。参与者、工作人员和调查人员都对治疗分配蒙上了面。根据设计,在 MORDOR 第一阶段结束时,所有社区都将再接受一年的阿奇霉素治疗,每年两次(第二阶段)。因此,在第二阶段结束时,参与社区的治疗史(每 6 个月 1 个字母)为(PP-PP-AA)或(AA-AA-AA)。在第三阶段,参与社区被重新随机分配接受另外三轮阿奇霉素或安慰剂治疗,从而产生 4 种治疗史:第一组(AA-AA-AA-AA-A,51 人)、第二组(PP-PP-AA-AA-A,40 人)、第三组(AA-AA-AA-PP-P,27 人)和第四组(PP-PP-AA-PP-P,32 人)。在最后一次治疗 6 个月后采集每个儿童(5340 人)的直肠拭子。每个儿童提供 1 份直肠拭子,这些拭子在社区层面集中起来,进行 DNA-seq 处理,并分析遗传抗性决定因素。预设的主要结果是肠道中的大环内酯耐药性决定因素。次要结果是对β-内酰胺类和其他抗生素类别的耐药性。最近随机接受阿奇霉素治疗的群体(第1组和第2组)的大环内酯类药物耐药性决定簇明显多于最近随机接受安慰剂治疗的群体(第3组和第4组)(折叠变化2.18,95% CI 1.5至3.51,Punadj < 0.001)。然而,与最近 2.5 年治疗的社区(第 2 组)相比,治疗 4.5 年的社区(第 1 组)对大环内酯类药物的耐药性没有明显增加(折叠变化为 0.80,95% CI 为 0.50 至 1.00,Padj = 0.010),过去治疗 3 年的社区(第 3 组)与过去治疗 1 年的社区(第 4 组)之间也没有明显增加(折叠变化为 1.00,95% CI 为 0.78 至 2.35,Padj = 0.52)。我们还发现,β-内酰胺类和其他抗生素类别之间没有明显差异。我们研究的主要局限性在于缺乏耐药性的表型特征,没有完整的安慰剂组,也没有在尼日尔以外地区进行监测,这限制了研究的普遍性:在这项研究中,我们观察到尼日尔学龄前儿童因儿童死亡而大量使用阿奇霉素会增加肠道中的大环内酯类耐药性决定因素,但耐药性可能会在治疗 2-3 年后趋于稳定。需要对其他类药物的共同选择进行监测:NCT02047981 https://classic.clinicaltrials.gov/ct2/show/NCT02047981。
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Prolonged mass azithromycin distributions and macrolide resistance determinants among preschool children in Niger: A sub-study of a cluster-randomized trial (MORDOR).

Background: Randomized controlled trials found that twice-yearly mass azithromycin administration (MDA) reduces childhood mortality, presumably by reducing infection burden. World Health Organization (WHO) issued conditional guidelines for mass azithromycin administration in high-mortality settings in sub-Saharan Africa given concerns for antibiotic resistance. While prolonged twice-yearly MDA has been shown to increase antibiotic resistance in small randomized controlled trials, the objective of this study was to determine if macrolide and non-macrolide resistance in the gut increases with the duration of azithromycin MDA in a larger setting.

Methods and findings: The Macrolide Oraux pour Réduire les Décès avec un Oeil sur la Résistance (MORDOR) study was conducted in Niger from December 2014 to June 2020. It was a cluster-randomized trial of azithromycin (A) versus placebo (P) aimed at evaluating childhood mortality. This is a sub-study in the MORDOR trial to track changes in antibiotic resistance after prolonged azithromycin MDA. A total of 594 communities were eligible. Children 1 to 59 months in 163 randomly chosen communities were eligible to receive treatment and included in resistance monitoring. Participants, staff, and investigators were masked to treatment allocation. At the conclusion of MORDOR Phase I, by design, all communities received an additional year of twice-yearly azithromycin treatments (Phase II). Thus, at the conclusion of Phase II, the treatment history (1 letter per 6-month period) for the participating communities was either (PP-PP-AA) or (AA-AA-AA). In Phase III, participating communities were then re-randomized to receive either another 3 rounds of azithromycin or placebo, thus resulting in 4 treatment histories: Group 1 (AA-AA-AA-AA-A, N = 51), Group 2 (PP-PP-AA-AA-A, N = 40), Group 3 (AA-AA-AA-PP-P, N = 27), and Group 4 (PP-PP-AA-PP-P, N = 32). Rectal swabs from each child (N = 5,340) were obtained 6 months after the last treatment. Each child contributed 1 rectal swab and these were pooled at the community level, processed for DNA-seq, and analyzed for genetic resistance determinants. The primary prespecified outcome was macrolide resistance determinants in the gut. Secondary outcomes were resistance to beta-lactams and other antibiotic classes. Communities recently randomized to azithromycin (groups 1 and 2) had significantly more macrolide resistance determinants than those recently randomized to placebo (groups 3 and 4) (fold change 2.18, 95% CI 1.5 to 3.51, Punadj < 0.001). However, there was no significant increase in macrolide resistance in communities treated 4.5 years (group 1) compared to just the most recent 2.5 years (group 2) (fold change 0.80, 95% CI 0.50 to 1.00, Padj = 0.010), or between communities that had been treated for 3 years in the past (group 3) versus just 1 year in the past (group 4) (fold change 1.00, 95% CI 0.78 to 2.35, Padj = 0.52). We also found no significant differences for beta-lactams or other antibiotic classes. The main limitations of our study were the absence of phenotypic characterization of resistance, no complete placebo arm, and no monitoring outside of Niger limiting generalizability.

Conclusions: In this study, we observed that mass azithromycin distribution for childhood mortality among preschool children in Niger increased macrolide resistance determinants in the gut but that resistance may plateau after 2 to 3 years of treatment. Co-selection to other classes needs to be monitored.

Trial registration: NCT02047981 https://classic.clinicaltrials.gov/ct2/show/NCT02047981.

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来源期刊
PLoS Medicine
PLoS Medicine MEDICINE, GENERAL & INTERNAL-
CiteScore
17.60
自引率
0.60%
发文量
227
审稿时长
4-8 weeks
期刊介绍: PLOS Medicine is a prominent platform for discussing and researching global health challenges. The journal covers a wide range of topics, including biomedical, environmental, social, and political factors affecting health. It prioritizes articles that contribute to clinical practice, health policy, or a better understanding of pathophysiology, ultimately aiming to improve health outcomes across different settings. The journal is unwavering in its commitment to uphold the highest ethical standards in medical publishing. This includes actively managing and disclosing any conflicts of interest related to reporting, reviewing, and publishing. PLOS Medicine promotes transparency in the entire review and publication process. The journal also encourages data sharing and encourages the reuse of published work. Additionally, authors retain copyright for their work, and the publication is made accessible through Open Access with no restrictions on availability and dissemination. PLOS Medicine takes measures to avoid conflicts of interest associated with advertising drugs and medical devices or engaging in the exclusive sale of reprints.
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