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Towards a deeper understanding of the vaginal microbiota.
France, M, Alizadeh, M, Brown, S, Ma, B, Ravel, J
Nature microbiology. 2022;7(3):367-378
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The vaginal microbiota of reproductive-age cisgender women is often dominated by a single species of Lactobacillus and this is associated with good vaginal health. This review looks at the current understanding of the vaginal microbiota and its connection with host health. Women with vaginal microbiota that are not dominated by Lactobacillus species are often diagnosed with bacterial vaginosis (BV). They have an increased risk for sexually transmitted infections (STI), spontaneous preterm birth, prevalence of human papillomavirus (HPV), increased risk for cervical cancer, urinary tract infections and pelvic inflammatory disease. Factors that affect the vaginal microbiota composition are race, age, pre puberty and menopause where levels of circulating oestrogen are lower. Efforts to modulate the vaginal microbiota with antibiotics, oestrogen therapy, lactic or boric acid and vaginal probiotics have not been that successful. Vaginal microbiota transplants (VMT) are a potential approach to treat recurrent BV but further studies are needed.
Abstract
The human vaginal microbiota is a critical determinant of vaginal health. These communities live in close association with the vaginal epithelium and rely on host tissues for resources. Although often dominated by lactobacilli, the vaginal microbiota is also frequently composed of a collection of facultative and obligate anaerobes. The prevalence of these communities with a paucity of Lactobacillus species varies among women, and epidemiological studies have associated them with an increased risk of adverse health outcomes. The mechanisms that drive these associations have yet to be described in detail, with few studies establishing causative relationships. Here, we review our current understanding of the vaginal microbiota and its connection with host health. We centre our discussion around the biology of the vaginal microbiota when Lactobacillus species are dominant versus when they are not, including host factors that are implicated in shaping these microbial communities and the resulting adverse health outcomes. We discuss current approaches to modulate the vaginal microbiota, including probiotics and vaginal microbiome transplants, and argue that new model systems of the cervicovaginal environment that incorporate the vaginal microbiota are needed to progress from association to mechanism and this will prove invaluable for future research.
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Association between postmenopausal vulvovaginal discomfort, vaginal microbiota, and mucosal inflammation.
Mitchell, CM, Ma, N, Mitchell, AJ, Wu, MC, Valint, DJ, Proll, S, Reed, SD, Guthrie, KA, Lacroix, AZ, Larson, JC, et al
American journal of obstetrics and gynecology. 2021;225(2):159.e1-159.e15
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Close to half of postmenopausal women report bothersome symptoms of vulvar, vaginal or urinary discomfort collectively referred to as genitourinary syndrome of menopause. These are associated with negative impacts on sexual function and quality of life. The study’s hypothesis is that vaginal microbiota and inflammatory markers (i.e. increased Lactobacillus abundance and decreased inflammation) would differ significantly between women with the largest reductions in most bothersome symptom (MBS) severity compared to those women with smaller reductions, regardless of treatment arm. This study is a sub-study (secondary analysis of samples collected) of the Menopause Strategies: Finding Lasting Answers for Symptoms and Health (MsFLASH) Vaginal Health Trial. Of 302 women randomised in the parent trial, 120 were enrolled in this sub-study. Results did not show significant associations between change in MBS severity and vaginal microbiota composition, Lactobacillus dominance, soluble immune markers, vaginal maturation index or vaginal fluid metabolites. Authors conclude that efforts to change superficial features of the vaginal microenvironment, such as pH or Lactobacillus colonization, may not address the primary underlying mechanism that leads to postmenopausal vaginal discomfort and is unlikely to be effective in relieving moderate to severe bothersome symptoms.
Abstract
BACKGROUND Half of all postmenopausal women report symptoms of vulvar, vaginal, or urinary discomfort with substantial impact on sexual function and quality of life; underlying mechanisms leading to symptoms are poorly understood. OBJECTIVE To examine the possibility that the vaginal microbiota and/or mucosal immune response contributes to the severity of bothersome vaginal symptoms, we conducted a substudy of samples from a randomized trial of vaginal treatment for genitourinary syndrome of menopause to compare these features between women whose symptoms improved and women whose symptoms did not improve. STUDY DESIGN This is a secondary analysis of samples collected in a 12-week randomized trial of treatment with vaginal estradiol or moisturizer vs placebo for moderate-severe postmenopausal symptoms of vaginal discomfort. We randomly selected 20 women in each arm with ≥2-point decrease in most bothersome symptom severity (responders) and 20 matched controls with ≤1-point decrease (nonresponders). At 0, 4, and 12 weeks, we characterized vaginal microbiota (16S ribosomal RNA gene sequencing), vaginal fluid metabolites (broad-based metabolomic profiling), vaginal fluid-soluble immune markers (Meso Scale Discovery), pH, and vaginal maturation index. We compared responders with nonresponders at baseline and across all visits using linear mixed models to evaluate associations with microbiota, metabolites, and immune markers, incorporating visit and participant-specific random effects while controlling for treatment arm. RESULTS Here, the mean age of women was 61 years (n=120), and most women (92%) were White. At enrollment, no significant differences were observed between responders and nonresponders in age, most bothersome symptom type or severity, microbiota composition or diversity, Lactobacillus dominance, metabolome, or immune markers. There was a significant decrease in diversity of the vaginal microbiota in both responders and nonresponders (P<.001) over 12 weeks. Although this change did not differ by responder status, diversity was associated with treatment arm: more women in the estradiol arm (63%) had Lactobacillus-dominant, lower diversity bacterial communities than women in the moisturizer (35%) or dual placebo (23%) arms (P=.001) at 12 weeks. The metabolome, vaginal maturation index, and measured immune markers were not associated with responder status over the 12 weeks but varied by treatment arm. CONCLUSION Postmenopausal vaginal symptom severity was not significantly associated with vaginal microbiota or mucosal inflammatory markers in this small study. Women receiving vaginal estradiol experienced greater abundance of lactobacilli and lower vaginal pH at end of treatment.
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Association of vaginal bacterial communities and reproductive outcomes with prophylactic antibiotic exposure in a subfertile population undergoing in vitro fertilization: a prospective exploratory study.
Eskew, AM, Stout, MJ, Bedrick, BS, Riley, JK, Herter, BN, Gula, H, Jungheim, ES, Wylie, KM
F&S science. 2021;2(1):71-79
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Approximately 1 in 8 couples receive infertility services in their lifetime. However, despite the increasing usage of in vitro fertilisation (IVF) technologies, the success rate, as measured using live birth rates, is just <50% in women <35 years of age. A low-diversity, Lactobacillus-dominated microbiome in the female reproductive tract has been thought to be a sign of optimal reproductive health, whereas an increased microbial diversity has been shown to be associated with poorer reproductive outcomes. The aims of this study were to (a) explore the effect of prophylactic azithromycin treatment on the vaginal bacterial microbiome longitudinally throughout an IVF cycle and (b) determine whether the characteristics of the vaginal bacterial communities are associated with clinical outcomes. This study is an a priori prospective exploratory cohort study conducted as a part of an ongoing randomized, controlled noninferiority trial. Subjects in the parent trial were randomly assigned to an azithromycin group or no-azithromycin group. The female subjects of the parent trial who were aged between 18–43 years and undergoing the first IVF cycle with a fresh embryo transfer were eligible for this study (n=27). Results show that in vaginal microbiome samples taken at the time of egg retrieval and embryo transfer, changes in the taxonomic composition, alpha diversity, and beta diversity are not associated with azithromycin [antibiotic] exposure at the time of gonadotropin initiation. Furthermore, bacterial community structures at baseline are not predictive of those at the time of embryo transfer. Authors conclude that their findings highlight the importance of timing in the assessment of vaginal microbiome to determine its associations with reproductive outcomes.
Abstract
OBJECTIVE To determine whether prophylactic azithromycin is associated with the vaginal bacterial microbiome and clinical outcomes in subfertile women undergoing in vitro fertilization (IVF). DESIGN Prospective exploratory cohort study. SETTING Single academic fertility center. PATIENTS Subfertile women aged 18-43 years undergoing their first IVF cycle and fresh embryo transfer. INTERVENTION Primary exposure to prophylactic azithromycin (1 g orally) once at baseline. MAIN OUTCOME MEASURES The primary outcome was the effect of azithromycin on the vaginal microbiome compared with a no-azithromycin group at 3 time points throughout the IVF cycle (baseline, retrieval, and embryo transfer). The secondary outcomes were associations of vaginal bacterial communities with clinical outcomes. RESULTS A planned a priori exploratory cohort of 27 subjects (12 in the azithromycin treatment group and 15 in the no-azithromycin group) contributed 79 vaginal swabs for the analysis as part of an ongoing randomized, controlled noninferiority trial. No specific taxa were associated with azithromycin or pregnancy at any time point. Azithromycin did not affect alpha diversity or community stability. Although there were trends of a lower bacterial load and higher percentage of Lactobacillus species in the azithromycin group at the time of transfer, these were not statistically significant. In women who did not become pregnant, the percentage of Lactobacillus species was lower (P = .048; Hodges-Lehmann estimate of difference, 0.41; 95% confidence interval, 0.08-0.65) and the change in community composition over time was higher. The percentage of Lactobacillus species at baseline was not predictive of the percentage of Lactobacillus species at the time of embryo transfer. CONCLUSIONS Prophylactic azithromycin at baseline is not associated with changes in vaginal bacterial communities. Bacterial community features at the time of embryo transfer are associated with pregnancy. Bacterial community structures at baseline are not predictive of those at the time of embryo transfer. CLINICAL TRIAL REGISTRATION NUMBER NCT03386227.