Investigation of the Effect of the Female Urinary Microbiome on Incontinence (FUM)

Overactive bladder (OAB) syndrome is characterized by the symptom complex of urinary urgency, usually with associated frequency and nocturia, with or without urgency urinary incontinence in the absence of infection or other pathology. OAB affects approximately 31% of women over the age of 65. Vaginal estrogen, a well-documented treatment for OAB in hypoestrogenic women, has been shown to improve symptoms of frequency, urgency and urgency urinary incontinence (UUI). Several theories have been proposed to explain the mechanism underlying estrogen's effect on lower urinary tract symptoms (LUTS). The investigators propose that estrogen treatment influences bacterial communities (microbiomes) in the vagina and bladder and alters urothelial and vaginal (AMPs) thereby improving OAB symptoms in hypoestrogenic women.

Long-standing medical dogma has been replaced by clear evidence that a female urinary microbiome (FUM) exists. The investigators recently reported that the FUM in women without OAB is less diverse than the FUM of women with OAB. The investigators soon will report that FUM status stratifies women with OAB into treatment response groups and women with less diverse FUMs are more likely to respond to anti-cholinergic OAB therapy (Thomas-White et al., in preparation). This suggests that the FUM is a factor in lower urinary tract symptoms (LUTS) and that FUM diversity contributes to LUTS and treatment response, like the vaginal microbiome and its contribution to vaginal symptoms.

In hypoestrogenic women, the vaginal microbiome shifts from low diversity communities, commonly dominated by Lactobacillus, to more diverse communities dominated by anaerobes; this change can be reversed with estrogen treatment. Since the FUM of women with OAB includes bacteria similar to those of the vaginal microbiome (e.g. Lactobacillus, Gardnerella, and diverse anaerobes), the investigators reason the FUM would respond similarly to estrogen and become less diverse. Although transvaginal medications likely alter nearby bacterial niches (e.g. the bladder), no study has reported the urinary microbiomic response to vaginal estrogen.

While almost nothing is known about urinary/vaginal microbiome interplay, even less is known about immune response modulation in the bladder and vagina. However, estrogen reduces the subsequent urinary tract infection (UTI) rate in hypoestrogenic women affected by recurrent UTI, and estrogen induces urothelial antimicrobial peptide (AMP) expression. Since AMPs exhibit microbicidal activity, stimulate inflammation, and facilitate epithelial barrier homeostasis, estrogen may work through AMPs as mediators to optimize microbial equilibrium.

The investigators hypothesize that, following estrogen treatment of hypoestrogenic women with OAB, symptom improvement will be associated with 1) reduced FUM diversity, 2) alteration of other FUM characteristics and 3) increased AMP levels. The investigators propose two specific aims:

Aim 1: To compare pelvic floor microbiome (PFM) diversity and AMP levels before and after estrogen treatment in hypoestrogenic women with OAB symptoms.

Aim 2: Determine if FUM characteristics correlate with OAB symptoms.