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8 results on '"gardnerella"'

1. Defining the relationship between vaginal and urinary microbiomes.

Author

Komesu, Yuko M, Komesu, Yuko M, Dinwiddie, Darrell L, Richter, Holly E, Lukacz, Emily S, Sung, Vivian W, Siddiqui, Nazema Y, Zyczynski, Halina M, Ridgeway, Beri, Rogers, Rebecca G, Arya, Lily A, Mazloomdoost, Donna, Levy, Josh, Carper, Benjamin, Gantz, Marie G, Eunice Kennedy Shriver National Institute of Child Health and Human Development Pelvic Floor Disorders Network, Komesu, Yuko M, Komesu, Yuko M, Dinwiddie, Darrell L, Richter, Holly E, Lukacz, Emily S, Sung, Vivian W, Siddiqui, Nazema Y, Zyczynski, Halina M, Ridgeway, Beri, Rogers, Rebecca G, Arya, Lily A, Mazloomdoost, Donna, Levy, Josh, Carper, Benjamin, Gantz, Marie G, and Eunice Kennedy Shriver National Institute of Child Health and Human Development Pelvic Floor Disorders Network

Abstract

BackgroundAlthough the vaginal and urinary microbiomes have been increasingly well-characterized in health and disease, few have described the relationship between these neighboring environments. Elucidating this relationship has implications for understanding how manipulation of the vaginal microbiome may affect the urinary microbiome and treatment of common urinary conditions.ObjectiveTo describe the relationship between urinary and vaginal microbiomes using 16S rRNA gene sequencing. We hypothesized that the composition of the urinary and vaginal microbiomes would be significantly associated, with similarities in predominant taxa.Study designThis multicenter study collected vaginal swabs and catheterized urine samples from 186 women with mixed urinary incontinence enrolled in a parent study and 84 similarly aged controls. Investigators decided a priori that if vaginal and/or urinary microbiomes differed between continent and incontinent women, the groups would be analyzed separately; if similar, samples from continent and incontinent women would be pooled and analyzed together. A central laboratory sequenced variable regions 1-3 (v1-3) and characterized bacteria to the genus level. Operational taxonomic unit abundance was described for paired vaginal and urine samples. Pearson's correlation characterized the relationship between individual operational taxonomic units of paired samples. Canonical correlation analysis evaluated the association between clinical variables (including mixed urinary incontinence and control status) and vaginal and urinary operational taxonomic units, using the Canonical correlation analysis function in the Vegan package (R version 3.5). Linear discriminant analysis effect size was used to find taxa that discriminated between vaginal and urinary samples.ResultsUrinary and vaginal samples were collected from 212 women (mean age 53±11 years) and results from 197 paired samples were available for analysis. As operational taxonomic units in m

Published
2020

2. Defining the relationship between vaginal and urinary microbiomes.

Author

Komesu, Yuko M, Komesu, Yuko M, Dinwiddie, Darrell L, Richter, Holly E, Lukacz, Emily S, Sung, Vivian W, Siddiqui, Nazema Y, Zyczynski, Halina M, Ridgeway, Beri, Rogers, Rebecca G, Arya, Lily A, Mazloomdoost, Donna, Levy, Josh, Carper, Benjamin, Gantz, Marie G, Eunice Kennedy Shriver National Institute of Child Health and Human Development Pelvic Floor Disorders Network, Komesu, Yuko M, Komesu, Yuko M, Dinwiddie, Darrell L, Richter, Holly E, Lukacz, Emily S, Sung, Vivian W, Siddiqui, Nazema Y, Zyczynski, Halina M, Ridgeway, Beri, Rogers, Rebecca G, Arya, Lily A, Mazloomdoost, Donna, Levy, Josh, Carper, Benjamin, Gantz, Marie G, and Eunice Kennedy Shriver National Institute of Child Health and Human Development Pelvic Floor Disorders Network

Abstract

BackgroundAlthough the vaginal and urinary microbiomes have been increasingly well-characterized in health and disease, few have described the relationship between these neighboring environments. Elucidating this relationship has implications for understanding how manipulation of the vaginal microbiome may affect the urinary microbiome and treatment of common urinary conditions.ObjectiveTo describe the relationship between urinary and vaginal microbiomes using 16S rRNA gene sequencing. We hypothesized that the composition of the urinary and vaginal microbiomes would be significantly associated, with similarities in predominant taxa.Study designThis multicenter study collected vaginal swabs and catheterized urine samples from 186 women with mixed urinary incontinence enrolled in a parent study and 84 similarly aged controls. Investigators decided a priori that if vaginal and/or urinary microbiomes differed between continent and incontinent women, the groups would be analyzed separately; if similar, samples from continent and incontinent women would be pooled and analyzed together. A central laboratory sequenced variable regions 1-3 (v1-3) and characterized bacteria to the genus level. Operational taxonomic unit abundance was described for paired vaginal and urine samples. Pearson's correlation characterized the relationship between individual operational taxonomic units of paired samples. Canonical correlation analysis evaluated the association between clinical variables (including mixed urinary incontinence and control status) and vaginal and urinary operational taxonomic units, using the Canonical correlation analysis function in the Vegan package (R version 3.5). Linear discriminant analysis effect size was used to find taxa that discriminated between vaginal and urinary samples.ResultsUrinary and vaginal samples were collected from 212 women (mean age 53±11 years) and results from 197 paired samples were available for analysis. As operational taxonomic units in m

Published
2020

3. Defining the relationship between vaginal and urinary microbiomes.

Author

Sung, Vivian, Sung, Vivian, Siddiqui, Nazema, Zyczynski, Halina, Ridgeway, Beri, Rogers, Rebecca, Arya, Lily, Mazloomdoost, Donna, Levy, Josh, Carper, Benjamin, Gantz, Marie, Komesu, Yuko, Dinwiddie, Darrell, Richter, Holly, Lukacz, Emily, Sung, Vivian, Sung, Vivian, Siddiqui, Nazema, Zyczynski, Halina, Ridgeway, Beri, Rogers, Rebecca, Arya, Lily, Mazloomdoost, Donna, Levy, Josh, Carper, Benjamin, Gantz, Marie, Komesu, Yuko, Dinwiddie, Darrell, Richter, Holly, and Lukacz, Emily

Abstract

BACKGROUND: Although the vaginal and urinary microbiomes have been increasingly well-characterized in health and disease, few have described the relationship between these neighboring environments. Elucidating this relationship has implications for understanding how manipulation of the vaginal microbiome may affect the urinary microbiome and treatment of common urinary conditions. OBJECTIVE: To describe the relationship between urinary and vaginal microbiomes using 16S rRNA gene sequencing. We hypothesized that the composition of the urinary and vaginal microbiomes would be significantly associated, with similarities in predominant taxa. STUDY DESIGN: This multicenter study collected vaginal swabs and catheterized urine samples from 186 women with mixed urinary incontinence enrolled in a parent study and 84 similarly aged controls. Investigators decided a priori that if vaginal and/or urinary microbiomes differed between continent and incontinent women, the groups would be analyzed separately; if similar, samples from continent and incontinent women would be pooled and analyzed together. A central laboratory sequenced variable regions 1-3 (v1-3) and characterized bacteria to the genus level. Operational taxonomic unit abundance was described for paired vaginal and urine samples. Pearsons correlation characterized the relationship between individual operational taxonomic units of paired samples. Canonical correlation analysis evaluated the association between clinical variables (including mixed urinary incontinence and control status) and vaginal and urinary operational taxonomic units, using the Canonical correlation analysis function in the Vegan package (R version 3.5). Linear discriminant analysis effect size was used to find taxa that discriminated between vaginal and urinary samples. RESULTS: Urinary and vaginal samples were collected from 212 women (mean age 53±11 years) and results from 197 paired samples were available for analysis. As operational taxonomic

Published
2020

4. Effect of oral consumption of capsules containing Lactobacillus paracasei LPC-S01 on the vaginal microbiota of healthy adult women: A randomized, placebo-controlled, double-blind crossover study

Author

Koirala, R, Gargari, G, Arioli, S, Taverniti, V, Fiore, W, Grossi, E, Anelli, G, Cetin, I, Guglielmetti, S, Koirala R., Gargari G., Arioli S., Taverniti V., Fiore W., Grossi E., Anelli G. M., Cetin I., Guglielmetti S., Koirala, R, Gargari, G, Arioli, S, Taverniti, V, Fiore, W, Grossi, E, Anelli, G, Cetin, I, Guglielmetti, S, Koirala R., Gargari G., Arioli S., Taverniti V., Fiore W., Grossi E., Anelli G. M., Cetin I., and Guglielmetti S.

Abstract

Oral consumption of probiotics is practical and can be an effective solution to preserve vaginal eubiosis. Here, we studied the ability of orally administered Lactobacillus paracasei LPC-S01 (DSM 26760) to affect the composition of the vaginal microbiota and colonize the vaginal mucosa in nondiseased adult women. A total of 40 volunteers took oral probiotic (24 billion CFU) or placebo capsules daily for 4 weeks, and after a 4-week washout, they switched to placebo or probiotic capsules according to the crossover design. A total of 23 volunteers completed the study according to the protocol. Before and after capsule ingestion, vaginal swabs were collected for qPCR quantification to detect L. paracasei LPC-S01 and for 16S rRNA gene sequencing. Vaginal swabs were grouped according to their bacterial taxonomic structure into nine community state types (CSTs), four of which were dominated by lactobacilli. Lactobacillus paracasei LPC-S01 was detected in the vagina of two participants. Statistical modeling (including linear mixed-effects model analysis) demonstrated that daily intake of probiotic capsules reduced the relative abundance of Gardnerella spp. Quantitative PCR with Gardnerella vaginalis primers confirmed this result. Considering the pathogenic nature of G. vaginalis, these results suggest a potential positive effect of this probiotic capsule on the vaginal microbial ecosystem.

Published
2020

5. Effect of clindamycin and a live biotherapeutic on the reproductive outcomes of IVF patients with abnormal vaginal microbiota:Protocol for a double-blind, placebo-controlled multicentre trial

Author

Haahr, Thor, Freiesleben, Nina La Cour, Pinborg, Anja, Nielsen, Henriette Svarre, Hartvig, Vibeke, Mikkelsen, Anne Lis, Parks, Thomas, Uldbjerg, Niels, Jensen, Jørgen Skov, Humaidan, Peter, Haahr, Thor, Freiesleben, Nina La Cour, Pinborg, Anja, Nielsen, Henriette Svarre, Hartvig, Vibeke, Mikkelsen, Anne Lis, Parks, Thomas, Uldbjerg, Niels, Jensen, Jørgen Skov, and Humaidan, Peter

Abstract

Introduction Recent studies in in vitro fertilisation (IVF) patients have associated abnormal vaginal microbiota (AVM) with poor clinical pregnancy rates of 6%-9% per embryo transfer. The biological plausibility for this finding is hypothesised to be ascending infection to the endometrium which in turn hampers embryo implantation. New molecular based diagnosis may offer advantages compared to microscopical diagnosis of AVM which has huge inter-study variability ranging from 4 to 38%; however, the important question is whether screening and treatment of AVM would improve reproductive outcomes in IVF patients. Herein, we describe a protocol for an ongoing double-blind, placebo-controlled multicentre trial of IVF patients diagnosed with AVM and randomised in three parallel groups 1:1:1. Methods and analysis This is a drug intervention study where IVF patients will be screened for AVM, using a qPCR assay targeting Atopobium vaginae and Gardnerella vaginalis. If positive, patients will be randomised to one of the three study arms. The first arm consists of clindamycin 300 mg ×2 daily for 7 days followed by vaginal Lactobacillus crispatus CTV-05 until clinical pregnancy scan week 7-9. The second arm consists of clindamycin and placebo L. crispatus CTV-05, whereas patients in the third arm will be treated with placebo/placebo. We used a superiority design to estimate that active treatment in both arms will increase the primary outcome, clinical pregnancy rate per embryo transfer, from 20% to 40%. A potential difference between the two active arms was considered exploratory. With a power of 80% and an alpha at 5%, the sample size is estimated to be 333 patients randomised. A pre-planned interim analysis is scheduled at 167 patients randomised. Ethics and dissemination All patients have to give informed consent. Dissemination of results is ensured in clinical trial agreements whether they be positive or not. Ethics committee, Central Denmark Region approved this protocol.

Published
2020

6. Effect of clindamycin and a live biotherapeutic on the reproductive outcomes of IVF patients with abnormal vaginal microbiota:Protocol for a double-blind, placebo-controlled multicentre trial

Author

Haahr, Thor, Freiesleben, Nina La Cour, Pinborg, Anja, Nielsen, Henriette Svarre, Hartvig, Vibeke, Mikkelsen, Anne Lis, Parks, Thomas, Uldbjerg, Niels, Jensen, Jørgen Skov, Humaidan, Peter, Haahr, Thor, Freiesleben, Nina La Cour, Pinborg, Anja, Nielsen, Henriette Svarre, Hartvig, Vibeke, Mikkelsen, Anne Lis, Parks, Thomas, Uldbjerg, Niels, Jensen, Jørgen Skov, and Humaidan, Peter

Abstract

Introduction Recent studies in in vitro fertilisation (IVF) patients have associated abnormal vaginal microbiota (AVM) with poor clinical pregnancy rates of 6%-9% per embryo transfer. The biological plausibility for this finding is hypothesised to be ascending infection to the endometrium which in turn hampers embryo implantation. New molecular based diagnosis may offer advantages compared to microscopical diagnosis of AVM which has huge inter-study variability ranging from 4 to 38%; however, the important question is whether screening and treatment of AVM would improve reproductive outcomes in IVF patients. Herein, we describe a protocol for an ongoing double-blind, placebo-controlled multicentre trial of IVF patients diagnosed with AVM and randomised in three parallel groups 1:1:1. Methods and analysis This is a drug intervention study where IVF patients will be screened for AVM, using a qPCR assay targeting Atopobium vaginae and Gardnerella vaginalis. If positive, patients will be randomised to one of the three study arms. The first arm consists of clindamycin 300 mg ×2 daily for 7 days followed by vaginal Lactobacillus crispatus CTV-05 until clinical pregnancy scan week 7-9. The second arm consists of clindamycin and placebo L. crispatus CTV-05, whereas patients in the third arm will be treated with placebo/placebo. We used a superiority design to estimate that active treatment in both arms will increase the primary outcome, clinical pregnancy rate per embryo transfer, from 20% to 40%. A potential difference between the two active arms was considered exploratory. With a power of 80% and an alpha at 5%, the sample size is estimated to be 333 patients randomised. A pre-planned interim analysis is scheduled at 167 patients randomised. Ethics and dissemination All patients have to give informed consent. Dissemination of results is ensured in clinical trial agreements whether they be positive or not. Ethics committee, Central Denmark Region approved this protocol.

Published
2020

7. Exploring a road map to counter misconceptions about the cervicovaginal microbiome and disease.

Author

Macklaim, Jean M, Macklaim, Jean M, Cohen, Craig R, Donders, Gilbert, Gloor, Gregory B, Hill, Janet E, Parham, Groesbeck P, Ravel, Jacques, Spear, Gregory, van de Wijgert, Janneke, Reid, Gregor, Macklaim, Jean M, Macklaim, Jean M, Cohen, Craig R, Donders, Gilbert, Gloor, Gregory B, Hill, Janet E, Parham, Groesbeck P, Ravel, Jacques, Spear, Gregory, van de Wijgert, Janneke, and Reid, Gregor

Abstract

Urogenital diseases, especially infection and cancer, are major causes of death and morbidity in females. Yet, millions of women in the developing world have no access to basic urogynecological care, and the diagnosis and treatment of widespread aberrant bacterial conditions (bacterial vaginosis [BV] and aerobic vaginitis [AV]) remain suboptimal the world over. Samples from women living in resource-disadvantaged and developed countries have been analyzed by high-throughput sequencing to reveal the diversity of bacteria in the vagina, how rapidly the bacterial population fluctuates over time, and how rapidly the switch occurs between healthy and aberrant conditions. Unfortunately, clinical diagnostic methods are inefficient and too often outdated therapies are administered. The net result is suboptimal care and recurrent disease that adversely affects the quality of life. This viewpoint outlines a scientific and translational road map designed to improve the cervicovaginal health and treatment of disease. This comprises (1) improving education of women and physicians on the vaginal microbiota; (2) having agencies target funding for research to improve diagnosis and test new therapies; and (3) making sure that new approaches are accessible in developing countries, empowering to women, and are acceptable and appropriate for different populations.

Published
2012

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