Treatment Comparison of Antibiotics Versus Vaginal Lactic Acid in Non-pregnant Women With Acute Symptomatic Bacterial Vaginosis

Bacterial Vaginosis Clinical Trial

Official title: Controlled, Multicenter, Randomized Parallel Group Pilot Study With 2 Treatment Arms in Non-pregnant Women With Acute Symptomatic Bacterial Vaginosis (BV)

Status Completed

Clinical Trial Summary

Bacterial vaginosis (BV) is the most common cause of vaginitis in women of childbearing age. Women with symptomatic BV may present with malodorous discharge that is off-white, thin, and homogenous and has a fishy smell especially after intercourse. It is of importance to treat women with BV, as this condition is associated with serious risks, such as an increased risk of preterm birth in pregnant women, and particular vulnerability to the acquisition of sexually transmitted disease (STD). The pathophysiology of BV consists of changes in the microbiologic composition of the vaginal flora. The treatment of choice for BV is oral metronidazole for 7 days. Although the available antibiotic therapies produce good results in the short term, symptomatic BV persists or recurs at 3 months in up to 50% to 70% of patients, with long-term recurrence approaching 85%. An alternative treatment option may be a vaginal acid gel which aims to optimize the vaginal milieu. The aim of this pilot study is to assess the efficacy of Gynofit® vaginal gel (lactic acid and glycogen) compared to oral metronidazole in the treatment of BV.

Clinical Trial Description

Background Bacterial vaginosis (BV) is the most common cause of vaginitis in women of childbearing age, with an estimated prevalence of 29% in the general population of women aged 14 to 49 years. Women with symptomatic BV may present with malodorous discharge that is off-white, thin, and homogenous and has a fishy smell especially after intercourse. However, only the minority of women with BV is symptomatic. Regardless of the symptoms, it may be of importance to treat women with BV, as this condition is associated with serious risks, such as an increased risk of preterm birth in pregnant women, particular vulnerability to the acquisition of sexually transmitted disease (STD), including gonorrhea, chlamydia trachomatis, genital herpes and HIV and a possibly higher risk of pelvic inflammatory disease (PID). Moreover, endometrial bacterial colonization, plasma-cell endometritis, postpartum fever, post-hysterectomy vaginal cluff cellulitis and post-abortal infection seem to be associated with BV. The pathophysiology of BV consists of changes in the microbiologic composition of the vaginal flora. In the healthy vaginal flora, lactobacilli are the predominant bacteria, producing lactic acid and H2O2, maintaining a pH<4.5 and inhibiting the growth of other organisms. In BV, the concentration of H2O2-producing lactobacilli is reduced and other species become more prevalent, notably Gardnerella vaginalis, Prevotella species, Porphyromonas species, Bacteroides species, Peptostreptococcus species, Mycoplasma hominis, Ureaplasma urealyticum, and Mobiluncus species. These vaginal anaerobes produce carboxylase enzymes, breaking down peptides to amines, which get volatile and malodorous with the increased pH. More over the amines increase vaginal transudation and squamous epithelial cell exfoliation, leading to the typical discharge in BV. With the increased pH, Gardnerella vaginalis can adhere to squamous epithelial cells and create a biofilm. The mechanism by which this floral imbalance occurs is not clear, but sexual activity seems to be a major risk factor, as BV does not occur in sexual inactive women. Additionally, multiple or new sexual partners, frequency of vaginal intercourse, vaginal douching, and cigarette smoking have also been identified as risk factors, whereas the use of condoms had a protective effect. BV can be diagnosed by the use of clinical criteria or Gram stain. For standard clinical use, practical diagnostic criteria were proposed by Amsel et al.. Amsel criteria include: (a) an adherent grayish-white discharge; (b) a positive whiff test (a fishy odor of the vaginal discharge before or after addition of 10% potassium hydroxide); (c) an elevated vaginal pH (pH > 4.5); and (d) the presence of clue cells on microscopy. The diagnosis of BV is made, if 3 of these 4 symptoms are present. A Gram stain (Nugent Score) is considered the gold standard laboratory method for diagnosing BV and determines the relative concentration of Gram-positive lactobacilli, Gram-negative and Gram-variable rods and cocci and curved Gram-negative rods characteristic of BV. BV resolves spontaneously in up to one-third of non-pregnant and one-half of pregnant women. The Centers for Disease Control and Prevention (CDC) recommend a treatment for all non-pregnant women with symptomatic BV to relieve vaginal symptoms and signs of infection. Treatment is also indicated to prevent postoperative infection in those with asymptomatic infection prior to abortion or hysterectomy. Some experts recommend treating all women with BV, for reducing the risk of acquiring STDs. The treatment of choice for BV is oral metronidazole 500 mg orally twice a day for 7 days. Other recommended regimens are metronidazole gel 0.75%, one full applicator (5 g) intravaginally, once a day for 5 days; or clindamycin cream 2%, one full applicator (5 g) intravaginally at bedtime for 7 days. Alternative regimens are tinidazole 2 g orally once daily for 2 days; or tinidazole 1 g orally once daily for 5 days; or clindamycin 300 mg orally twice daily for 7 days; or clindamycin ovules 100 mg intravaginally once a bedtime for 3 days. Oral metronidazole is considered the treatment of choice with a cure rate of 80 - 90%. Although the available antibiotic therapies produce good results in the short term, symptomatic BV persists or recurs at 1 month in approximately 11% to 29% of patients. At 3 months, recurrence of BV has been reported in 50% to 70% of patients, with long-term recurrence approaching 85%. Although the causes of recurrence are not known, it has been found that the vaginal biofilm with Gardnerella vaginalis and Atopobium vaginae persisted after treatment, probably explaining the high recurrence rates. In in vitro studies lactobacilli were able to disrupt the biofilm and reduce the risk of BV. Thus, it is being investigated, if recolonizing the vagina with healthy stains of H2O2-producing lactobacilli could prevent relapse after treatment. Systemic reviews of trials investigating probiotics for treatment of BV have not found sufficient evidence for or against efficacy. Acidification is another treatment option, as lowering the vaginal pH encourages the growth of lactobacilli. In one study, acid gel was as effective as metronidazole in the treatment of BV. Similarly, in an observational study, the use of acetic acid vaginal gel after the treatment of BV significantly reduced the rate of recurrence. However, data on the treatment and prevention efficacy by acidification is scarce and controversial. Objective The principal exploratory goal of the present pilot study is to assess the efficacy of Gynofit® vaginal gel (lactic acid and glycogen) compared to oral metronidazole in the treatment of BV. Methods In this pilot study clinical efficacy of treatment will be assessed using the Amsel criteria, which are diagnostic criteria used in standard clinical practice. The Nugent score, a laboratory method for diagnosing BV, will be measured as well to confirm clinical findings. Finally, subjective BV symptoms are assessed by means of a questionnaire to determine the subjective effectiveness of treatment. The following collaborator is providing support for this study: Dr. rer. nat. Ulrich Stefenelli, Würzburg, Germany. ;

Related Conditions & MeSH terms

• Bacterial Vaginosis
• Vaginal Diseases
• Vaginosis, Bacterial

• NCT number: NCT02042287
• Study type: Interventional
• Source: University Hospital Inselspital, Berne
• Status: Completed
• Phase: Phase 4
• Start date: June 2014
• Completion date: March 19, 2020