Vaginal Probiotics During Pregnancy After Premature Rupture of Membranes

Overview

The goal of this clinical trial is to compare the microbiota of preterm babies born after premature breaking water with full-term babies microbiota. The main questions it aims to answer are: * Is babies' microbiota differs with premature water breaking than full-term babies microbiota? * Is vaginal probiotics given to the mother influence the baby microbiota? Researchers will compare vaginal probiotics use to no treatment to see if the babies microbiota and mother microbiota is influenced. Participants will * Take vaginal probiotics between premature breaking water until delivery (group A) * Keep a diary of their symptoms and compliance to treatment (group A) * Take samples of vaginal secretions and of baby's stool (all groups)

Premature rupture of fetal membranes before labor (PPROM) reprensents 30% of premature births. As PPROM is strongly associated with ascending vaginal infection, antibiotics are recommended during the latent period (LP) (the interval between rupture and birth). They prolong the LP and improve the health of the children, but they also aggravate pre-existing vaginal dysbiosis. The addition of vaginal probiotics (VP) stabilizes the vaginal microbiota (VM) and increases Lactobacillus levels. By increasing the number of good germs in the vagina, they will rebalance the good germs and the pathogenic germs that make their way up to the uterus. This could reduce uterine infection and improve the foetus; intestinal flora. Pathophysiological hypotheses for improving neonatal health: The use of VP could have three modes of action on neonatal outcome: i) decrease vaginal dysbiosis: pregnancy prolongation and reduce fetal immaturity complications (e.g.reduce intraventricular hemorrhage); ii) Reduction of intra-uterine infection/inflammation: Reduce neonatal complications linked to inflammation (e.g. diminish cystic periventricular leukomalacia); iii) improvement of neonatal intestinal microbiota (NIM) (probiotic swallowing): reduce complications associated with neonatal dysbiosis (e.g. reduce ulcerative colitis (NEC)). 3.1 Primary objective Mechanistic proof of concept To compare the NIM of the babies of the participants after PPROM with or without probiotics compared with the NIM of the babies of the participants without PRPOM (meconium and at 7 days of life). Secondary objectives Primary secondary objectives (Group A or B versus C) 1. To compare the VM of participants after PPROM with or without probiotics with the VM of participants without PPROM at the end of pregnancy (early latency phase). 2. Compare the VM of participants after PPROM with or without probiotics with the VM of participants without PPROM in early labor (end of latency phase). 3. To test the possibility of transmission analysis of VP in the NIM (meconium and at 7 d of life) with groups B and C: PPROM-control and control without PPROM. Secondary clinical objectives 1. Explore recruitment (rate, reasons for acceptance and refusal, characteristics of mothers recruited), treatment adherence \>80% and attrition rate \<5%. 2. Test tools for sample collection, participant information and consent form. Population: Pregnant women aged 18 and over, giving birth at one the three centers participating in the study CHUM, CHUSJ or CHUQ (Quebec). These women will be divided into 3 groups: * Group A: PPROM-VP Pregnant women admitted for PPROM with VP intake * Group B: PPROM-control Pregnant women admitted for PPROM without VP intake * Group C: term-control without PPROM Pregnant women with expected full-term deliveries, without VP intake

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Outcomes