Bifidobacterium and Lactobacillus Probiotics and Gut Dysbiosis in Preterm Infants: The PRIMAL Randomized Clinical Trial.

IF 24.7 1区医学 Q1 PEDIATRICS

JAMA Pediatrics Pub Date : 2024-08-05 DOI:10.1001/jamapediatrics.2024.2626

Thea Van Rossum, Annette Haiß, Rebecca L Knoll, Janina Marißen, Daniel Podlesny, Julia Pagel, Marina Bleskina, Maren Vens, Ingmar Fortmann, Bastian Siller, Isabell Ricklefs, Jonas Klopp, Katja Hilbert, Claudius Meyer, Roman Thielemann, Sybelle Goedicke-Fritz, Martin Kuntz, Christian Wieg, Norbert Teig, Thorsten Körner, Angela Kribs, Hannes Hudalla, Markus Knuf, Anja Stein, Christian Gille, Soyhan Bagci, Frank Dohle, Hans Proquitté, Dirk M Olbertz, Esther Schmidt, Lutz Koch, Sabine Pirr, Jan Rupp, Juliane Spiegler, Matthias V Kopp, Wolfgang Göpel, Egbert Herting, Sofia K Forslund, Dorothee Viemann, Michael Zemlin, Peer Bork, Stephan Gehring, Inke R König, Philipp Henneke, Christoph Härtel

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引用次数: 0

Abstract

Importance: The effects of probiotic interventions on colonization with resistant bacteria and early microbiome development in preterm infants remain to be clarified.

Objective: To examine the efficacy of Bifidobacterium longum subsp infantis, Bifidobacterium animalis subsp lactis (BB-12), and Lactobacillus acidophilus (La-5) probiotics to prevent colonization with multidrug-resistant organisms or highly epidemic bacteria (MDRO+) and to shape the microbiome of preterm infants toward the eubiotic state of healthy full-term infants.

Design, setting, and participants: The multicenter, double-blinded, placebo-controlled, group sequential, phase 3 Priming Immunity at the Beginning of Life (PRIMAL) randomized clinical trial, conducted from April 2018 to June 2020, included infants with gestational age of 28 to 32 weeks at 18 German neonatal units. Data analyses were conducted from March 2020 to August 2023.

Intervention: A total of 28 days of multistrain probiotics diluted in human milk/formula starting within the first 72 hours of life.

Main outcomes and measures: Colonization with MDRO+ at day 30 of life (primary end point), late-onset sepsis and severe gastrointestinal complication (safety end points), and gut dysbiosis, ie, deviations from the microbiome of healthy, term infants (eubiosis score) based on 16-subunit ribosomal RNA and metagenomic sequencing.

Results: Among the 643 infants randomized until the stop of recruitment based on interim results, 618 (median [IQR] gestational age, 31.0 [29.7-32.1] weeks; 333 male [53.9%]; mean [SD] birth weight, 1502 [369] g) had follow-up at day 30. The interim analysis with all available data from 219 infants revealed MDRO+ colonization in 43 of 115 infants (37.4%) in the probiotics group and in 39 of 104 infants (37.5%) in the control group (adjusted risk ratio, 0.99; 95% CI, 0.54-1.81; P = .97). Safety outcomes were similar in both groups, ie, late-onset sepsis (probiotics group: 8 of 316 infants [2.5%]; control group: 12 of 322 infants [3.7%]) and severe gastrointestinal complications (probiotics group: 6 of 316 infants [1.9%]; control group: 7 of 322 infants [2.2%]). The probiotics group had higher eubiosis scores than the control group at the genus level (254 vs 258 infants; median scores, 0.47 vs 0.41; odds ratio [OR], 1.07; 95% CI, 1.02-1.13) and species level (96 vs 83 infants; median scores, 0.87 vs 0.59; OR, 1.28; 95% CI, 1.19-1.38). Environmental uptake of the B infantis probiotic strain in the control group was common (41 of 84 [49%]), which was highly variable across sites and particularly occurred in infants with a sibling who was treated with probiotics.

Conclusions and relevance: Multistrain probiotics did not reduce the incidence of MDRO+ colonization at day 30 of life in preterm infants but modulated their microbiome toward eubiosis.

Trial registration: German Clinical Trials Register: DRKS00013197.

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双歧杆菌和乳酸杆菌益生菌与早产儿肠道菌群失调：PRIMAL 随机临床试验》。

重要性：益生菌干预对早产儿耐药菌定植和早期微生物组发育的影响仍有待明确：目的：研究长双歧杆菌亚种（Bifidobacterium longum subsp infantis）、动物双歧杆菌亚种（Bifidobacterium animalis subsp lactis，BB-12）和嗜酸乳杆菌（Lactobacillus acidophilus，La-5）益生菌对预防多重耐药菌或高流行性细菌（MDRO+）定植以及将早产儿微生物组塑造成健康足月儿的优生状态的功效：多中心、双盲、安慰剂对照、分组序列、生命之初的免疫预防（PRIMAL）第3期随机临床试验于2018年4月至2020年6月进行，纳入了德国18家新生儿科室胎龄为28周至32周的婴儿。2020年3月至2023年8月进行了数据分析：干预措施：从出生后 72 小时内开始，在母乳/配方奶中稀释多菌株益生菌，共计 28 天：出生后第30天的MDRO+定植（主要终点）、晚发败血症和严重胃肠道并发症（安全性终点）以及肠道菌群失调，即根据16亚单位核糖体RNA和元基因组测序得出的健康足月儿微生物组偏差（eubiosis评分）：在根据中期结果停止招募的 643 名随机婴儿中，有 618 名婴儿（中位数 [IQR] 胎龄，31.0 [29.7-32.1] 周；333 名男性 [53.9%]；平均 [SD] 出生体重，1502 [369] 克）在第 30 天时接受了随访。对 219 名婴儿的所有可用数据进行的中期分析显示，益生菌组 115 名婴儿中有 43 名（37.4%）出现 MDRO+ 定植，对照组 104 名婴儿中有 39 名（37.5%）出现 MDRO+ 定植（调整风险比为 0.99；95% CI 为 0.54-1.81；P = .97）。两组的安全性结果相似，即晚期败血症（益生菌组：316 名婴儿中的 8 名[2.5%]）：益生菌组：316 名婴儿中有 8 名[2.5%]；对照组：322 名婴儿中有 12 名[3.5%]：对照组：322 名婴儿中有 12 名[3.7%]）和严重胃肠道并发症（益生菌组：316 名婴儿中有 6 名[1.7%]）：益生菌组：316 名婴儿中有 6 名[1.9%]；对照组：322 名婴儿中有 7 名[2.7%]：322名婴儿中有7名[2.2%]）。益生菌组在属一级（254 对 258 名婴儿；中位数分数，0.47 对 0.41；几率比 [OR]，1.07；95% CI，1.02-1.13）和种一级（96 对 83 名婴儿；中位数分数，0.87 对 0.59；几率比，1.28；95% CI，1.19-1.38）的优生评分均高于对照组。在对照组中，婴儿乙型肝炎杆菌益生菌菌株被环境吸收的情况很常见（84 例中有 41 例 [49%]），不同地点的情况差异很大，特别是在有兄弟姐妹接受益生菌治疗的婴儿中：多菌株益生菌并未降低早产儿出生后第 30 天 MDRO+ 定植的发生率，但调节了他们的微生物组，使其向优生方向发展：试验注册：德国临床试验注册中心：DRKS00013197.

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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来源期刊

JAMA Pediatrics PEDIATRICS-

CiteScore

31.60

自引率

1.90%

发文量

357

期刊介绍： JAMA Pediatrics, the oldest continuously published pediatric journal in the US since 1911, is an international peer-reviewed publication and a part of the JAMA Network. Published weekly online and in 12 issues annually, it garners over 8.4 million article views and downloads yearly. All research articles become freely accessible online after 12 months without any author fees, and through the WHO's HINARI program, the online version is accessible to institutions in developing countries. With a focus on advancing the health of infants, children, and adolescents, JAMA Pediatrics serves as a platform for discussing crucial issues and policies in child and adolescent health care. Leveraging the latest technology, it ensures timely access to information for its readers worldwide.

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