Owing to growing interest in uterine preservation, this evidence-based review compares hysteropexy with hysterectomy during surgery for uterovaginal prolapse.
LeFort colpocleisis is preferred over ...vaginal hysterectomy and total colpocleisis. The majority of studies show no differences in outcomes comparing sacrospinous hysteropexy with vaginal hysterectomy native tissue prolapse repair except for a single randomized controlled trial showing increased apical recurrences with advanced prolapse. Results comparing uterosacral hysteropexy and sacral hysteropexy with hysterectomy native tissue repairs are inconclusive. Potentially better outcomes are reported when laparoscopic hysterectomy (total or supracervical) is performed with sacral colpopexy compared with laparoscopic sacral hysteropexy, but mesh and morcellation risks should be considered. Data comparing vaginal mesh hysteropexy with currently available products with hysterectomy prolapse repairs are lacking but a high-quality study is underway.
High satisfaction and low reoperation rates can be accomplished using a variety of hysteropexy techniques. The advantages and disadvantages of uterine conservation must be considered when planning uterovaginal prolapse surgery. The type of hysteropexy and possible graft configuration may impact reoperation rates for recurrent prolapse. Vaginal mesh risks must be considered and laparoscopic mesh risks must be balanced with potential difficulty of future hysterectomy if needed.
Background There is growing interest in uterine conservation at the time of surgery for uterovaginal prolapse, but limited data compare different types of hysteropexy. Objective We sought to compare ...1-year efficacy and safety of laparoscopic sacral hysteropexy and vaginal mesh hysteropexy. Study Design This multicenter, prospective parallel cohort study compared laparoscopic sacral hysteropexy to vaginal mesh hysteropexy at 8 institutions. We included women ages 35–80 years who desired uterine conservation, were done with childbearing, and were undergoing 1 of the above procedures for stage 2–4 symptomatic anterior/apical uterovaginal prolapse (anterior descent at or beyond the hymen Aa or Ba ≥ 0 and apical descent at or below the midvagina C ≥ –TVL/2). We excluded women with cervical elongation, prior mesh prolapse repair, cervical dysplasia, chronic pelvic pain, uterine abnormalities, and abnormal bleeding. Cure was defined as no prolapse beyond the hymen and cervix above midvagina (anatomic), no vaginal bulge sensation (symptomatic), and no reoperations. Pelvic Organ Prolapse Quantification examination and validated questionnaires were collected at baseline and 12 months including the Pelvic Floor Distress Inventory Short Form, Female Sexual Function Index, and Patient Global Impression of Improvement. In all, 72 subjects/group were required to detect 94% vs 75% cure (80% power, 15% dropout). Intention-to-treat analysis was used with logistic regression adjusting for baseline differences. Results We performed 74 laparoscopic sacral hysteropexy and 76 vaginal mesh hysteropexy procedures from July 2011 through May 2014. Laparoscopic patients were younger ( P < .001), had lower parity ( P = .006), were more likely premenopausal ( P = .008), and had more severe prolapse ( P = .02). Laparoscopic procedure (174 vs 64 minutes, P < .0001) and total operating time (239 vs 112 minutes, P < .0001) were longer. There were no differences in blood loss, complications, and hospital stay. One-year outcomes for the available 83% laparoscopic and 80% vaginal hysteropexy patients revealed no differences in anatomic (77% vs 80%; adjusted odds ratio, 0.48; P = .20), symptomatic (90% vs 95%; adjusted odds ratio, 0.40; P = .22), or composite (72% vs 74%; adjusted odds ratio, 0.58; P = .27) cure. Mesh exposures occurred in 2.7% laparoscopic vs 6.6% vaginal hysteropexy ( P = .44). A total of 95% of each group were very much better or much better. Pelvic floor symptom and sexual function scores improved for both groups with no difference between groups. Conclusion Laparoscopic sacral hysteropexy and vaginal mesh hysteropexy had similar 1-year cure rates and high satisfaction.
The choice of midurethral sling type may impact efficacy and complications in women undergoing transvaginal native tissue repair of pelvic organ prolapse.
The primary aim was to determine if the ...single-incision sling is noninferior to retropubic sling for the management of stress urinary incontinence among patients undergoing reconstructive or obliterative native tissue vaginal repair. The secondary aims were to compare adverse events and surgeon ease of use with sling assignment.
A multicenter, noninferiority, randomized trial of women with ≥ stage II pelvic organ prolapse and objectively confirmed stress urinary incontinence undergoing reconstructive or obliterative vaginal repair was performed. Women were randomized to concomitant single-incision (Altis sling, Coloplast Minneapolis, MN) with suprapubic sham incisions or retropubic slings. The primary dichotomous outcome was abnormal lower urinary tract function within 12 months postsurgery, defined as bothersome stress urinary incontinence symptoms (>1 Pelvic Floor Distress Inventory question no. 17); retreatment for stress urinary incontinence or treatment for urinary retention. Secondary outcomes were adverse events, Patient Global Impression of Improvement of bladder function, and surgeon ease of use (1, worst; 10, best). All subjects completed validated questionnaires and underwent a Pelvic Organ Prolapse Quantification, cough stress test, and postvoid residual preoperatively, at 6 weeks and 12 months postoperatively. Assuming a subjective cure rate for retropubic of 82%, 80% power, and 1-sided 5% significance level, we estimated that 127 patients in each arm were needed to declare noninferiority of the single-incision sling if the upper bound of the 95% confidence interval for the between-group difference per protocol in abnormal bladder function was <12%. Assuming a 10% loss to follow-up, the total enrollment goal was 280.
Between December 2018 and January 2023, 280 subjects were enrolled across 7 sites, and 255 were randomized: 126 were for single-incision, and 129 were for retropubic sling. There were no preoperative or operative characteristic differences between groups. Overall, 81% had reconstructive, and 19% had obliterative native tissue repairs. The primary outcome, abnormal lower urinary tract function at 12 months, occurred in 29 (25%) of single-incision vs 24 (20%) of the retropubic sling group (risk difference, 0.04472 95% confidence interval, −0.03 to 0.1133; P=.001 for noninferiority). Bothersome stress urinary incontinence occurred in 20% vs 17% (P=.27) and was retreated in 4% vs 2% (P=.44) of single-incision vs retropubic groups, respectively. Adverse events were reported in 24 (16%) of single-incision vs 14 (9%) of the retropubic group (95% confidence interval, 0.95–3.29; P=.70) and included de novo or worsening urgency incontinence symptoms, urinary tract infection, mesh exposure, need for prolonged catheter drainage, and de novo pain, without differences between groups. Patient Global Impression of Improvement (very satisfied and satisfied) was 71% vs 67% (P=.43), and median surgeon ease of sling use was 8 (7–10) vs 9 (8–10), P=.03 in single-incision vs retropubic, respectively.
For women undergoing vaginal repair, single-incision was noninferior to retropubic sling for stress urinary incontinence symptoms, and complications, including treatment for urinary retention, did not differ.
To compare 6-month safety and efficacy outcomes of fractionated CO2 laser (laser) with topical clobetasol propionate (steroid) for treatment of symptomatic vulvar lichen sclerosus.
We conducted a ...single-center randomized controlled trial that compared fractionated CO2 laser with steroid treatment for patients with biopsy-proven lichen sclerosus. Randomization was stratified by prior clobetasol propionate use. The primary outcome was mean change in Skindex-29 score at 6 months. A total sample size of 52 participants were recruited to detect a mean difference of 16 points on the Skindex-29 (SD±22) with 80% power, based on a one-sided two-sample t test with α=0.05, accounting for 10% attrition. Secondary outcomes included validated subjective and objective measures. Intention-to-treat, per protocol, and regression analysis based on prior steroid exposure were performed.
From October 2015 to July 2018, 202 women were screened, 52 were randomized, and 51 completed a 6-month follow-up. No significant difference was found in baseline demographics, symptoms, and physician assessment scores. There was greater improvement in the Skindex-29 score in the laser arm at 6-months (10.9 point effect size, 95% CI 3.42-18.41; P=.007). Overall, 89% (23/27) of patients in the laser group rated symptoms as being "better or much better" compared with 62% (13/24) of patients in the steroid group, P=.07. More patients (81%, 21/27) were "satisfied or very satisfied" with laser treatment compared with steroid treatment (41%, 9/24); P=.01. After stratification for previous steroid use, the significant change of Skindex-29 score was only seen in the previously exposed group. There was one adverse event in each group: minor burning and blistering at the laser site and reactivation of genital herpes 1 week after starting steroid.
Fractionated CO2 laser treatment showed significant improvement in subjective symptoms and objective measures compared with clobetasol propionate, without serious safety or adverse events at 6 months.
ClinicalTrials.gov, NCT02573883.
Objective The purpose of this study was to show 12-month outcomes of a randomized trial that compared vaginal prolapse repair with and without mesh. Study Design Women with stage ≥2 prolapse were ...assigned randomly to vaginal repair with or without mesh. The primary outcome was prolapse stage ≤1 at 12 months. Secondary outcomes included quality of life and complications. Results All 65 evaluable participants were followed for 12 months after trial stoppage for mesh exposures. Thirty-two women had mesh repair; 33 women had traditional repair. At 12 months, both groups had improvement of pelvic organ prolapse-quantification test points to similar recurrence rates. The quality of life improved and did not differ between groups: 96.2% mesh vs 90.9% no-mesh subjects reported a cure of bulge symptoms; 15.6% had mesh exposures, and reoperation rates were higher with mesh. Conclusion Objective and subjective improvement is seen after vaginal prolapse repair with or without mesh. However, mesh resulted in a higher reoperation rate and did not improve 1-year cure.
Objective The objective of this study was to determine the minimum threshold level at which maximum anatomic prolapse predicts bothersome pelvic floor symptoms. Study Design We performed a ...cross-sectional study of women older than 40 years undergoing gynecologic and urogynecologic examinations using Pelvic Organ Prolapse Quantification (POP-Q) examinations to assess support and Pelvic Floor Distress Inventory questionnaires to assess symptoms. Across the spectrum of prolapse severity, we calculated receiver operating characteristic (ROC) curves and areas under the curves (AUCs) for each symptom. Results Of 296 participants, age was 56.3 ± 11.2 years, and 233 (79%) were white. POP-Q stage was 0 in 39 (13%), 1 in 136 (46%), 2 in 89 (30%), and 3 in 33 (11%). ROC analysis for each symptom revealed an AUC of 0.89 for bulging/protrusion; 0.81 for splinting to void; 0.55-0.62 for other prolapse and urinary symptoms; and 0.48-0.56 for bowel symptoms. Using a threshold of 0.5 cm distal to the hymen, the sensitivity (69%) and specificity (97%) were high for protrusion symptoms but poor for most other symptoms considered. Conclusion Vaginal descensus 0.5 cm distal to the hymen accurately predicts bulging/protrusion symptoms; however, we could not identify a threshold of prolapse severity that predicted other pelvic floor symptoms.
To compare mesh complications and failure rates after 1 year in laparoscopic minimally invasive sacrocolpopexy (MISC) with ultralightweight mesh attached vaginally during total vaginal hysterectomy ...(TVH), laparoscopically if posthysterectomy (PH), or laparoscopically during supracervical hysterectomy.
Single-center retrospective cohort study.
Tertiary referral center.
Women with symptomatic pelvic organ prolapse who elected for MISC.
Laparoscopic MISC with ultralightweight mesh attached vaginally during TVH, laparoscopically if PH, or laparoscopically during supracervical hysterectomy. Composite failure was defined as recurrent prolapse symptoms, prolapse past the hymen, or retreatment for prolapse.
Between 2010 and 2017, 650 patients met the inclusion criteria with 278 PH, 82 supracervical hysterectomy, and 290 vaginal hysterectomy patients. Median follow-up was similar for all groups (382 days vs 379 vs 345; p = .31). The majority in all groups were white (66.6%), nonsmokers (74.8%), postmenopausal (82.5%), and did not use estrogen (70.3%). Mesh complications did not differ among groups (1.6% PH, 2.5% supracervical hysterectomy, 2.2% vaginal hysterectomy; p >.99). There was no difference in anatomic failure (5% PH, 1.2% supracervical hysterectomy, 2.1% vaginal hysterectomy; p = .07), reoperation for prolapse (1.4% vs 1.2% vs 0.7%; p = .57), or composite failure (9.0% vs 3.7% vs 4.8%; p = .07).
TVH with vaginal mesh attachment of ultralightweight mesh had similar adverse events, mesh exposure rates, and failure rates to those of laparoscopic PH sacrocolpopexy or supracervical hysterectomy with laparoscopic mesh attachment.
OBJECTIVE:To present 3-month outcomes of a double-blind, multicenter randomized controlled trial comparing traditional vaginal prolapse surgery without mesh with vaginal surgery with mesh.
...METHODS:Women with pelvic organ prolapse quantification prolapse stages 2–4 were randomized to vaginal colpopexy repair with mesh or traditional vaginal colpopexy without mesh. The primary outcome measure was objective treatment success (pelvic organ prolapse quantification stage 1 or lower) at 3 months. Secondary outcome measures included quality-of-life variables and complication rates.
RESULTS:Sixty-five women were recruited from January 2007 to August 2009, when the study was halted due to predetermined stopping criteria for vaginal mesh erosion at a median follow-up of 9.7 months (range, 2.4–26.7 months). Thirty-two women underwent mesh colpopexy (24 anterior mesh, eight total mesh), and 33 women had vaginal colpopexies without mesh (primarily uterosacral ligament suspension) and concurrent colporrhaphy. There were no statistically significant baseline differences between the mesh and no-mesh groups with respect to demographics, menopausal status, and race. Analysis of the mesh and no-mesh women found no difference with respect to overall recurrence (mesh19 59.4% compared with no mesh24 70.4%, P=.28). There were five (15.6%) vaginal mesh erosions. Two cystotomies and one blood transfusion occurred in the mesh group only. Subjective cure of bulge symptoms was noted in 93.3% of mesh patients and 100% of no-mesh patients. Furthermore, subjective quality-of-life measurements did not differ between the two groups at baseline or 3 months postoperatively.
CONCLUSION:At 3 months, there is a high vaginal mesh erosion rate (15.6%) with no difference in overall objective and subjective cure rates. This study questions the value of additive synthetic polypropylene mesh for vaginal prolapse repairs.
CLINICAL TRIAL REGISTRATION:Clinicaltrials.gov, www.clinicaltrials.gov, NCT00475540.
LEVEL OF EVIDENCE:I
Objective Pessaries are important options for women with pelvic floor disorders, but many pessary users experience bacterial vaginosis (BV). The aim of this study was to evaluate the effect of ...TrimoSan gel (Milex Pessaries, Cooper Surgical, Trumbull, CT) on BV prevalence among pessary users. Study Design Women presenting for a pessary fitting completed questionnaires on vaginal symptoms and hormone therapy use and underwent a BV BLUE test and slide collection for BV analysis by Nugent’s criteria. Following pessary fitting, women were randomized to either standard pessary care with the use of TrimoSan placed vaginally twice weekly or to standard pessary care without TrimoSan gel. Women returned 2 weeks and 3 months later for a repeat slide collection for Gram stain, BV BLUE testing, and completion of questionnaires on vaginal symptoms and desire to continue the pessary. Results There were 184 women randomized after successful fitting (92 to the TrimoSan group), and 147 (79%) presented for 3-month follow up. Mean age was 56 ± 16 years; patients were mostly white (57%) or Hispanic (23%), and 36% were using hormone therapy. The groups did not differ in the prevalence of BV by Nugent’s criteria at 2 weeks (20% TrimoSan vs 26% no gel, P = .46) or 3 months (24% TrimoSan vs 23% no gel, P = .82), nor did they differ in BV by BV BLUE testing at 2 weeks (0% TrimoSan vs 4% no gel, P = .12) or 3 months (3% TrimoSan vs 0% no gel, P = .15). The prevalence of at least one vaginal symptom did not differ between groups at 2 weeks (44% TrimoSan vs 45% no gel, P = .98) or 3 months (42% TrimoSan vs 32% no gel, P = .30). The TrimoSan group was equally likely to want to continue their pessary use compared with the standard care group at 2 weeks (90% vs 86%, P = .64) and 3 months (63% vs 60%, P = .76). Conclusion TrimoSan gel in the first 3 months of pessary use does not decrease the prevalence of BV or vaginal symptoms and does not alter the likelihood of a woman desiring to continue pessary use.
Urethral diverticulum is a rare entity and requires a high suspicion for diagnosis based on symptoms and physical exam with confirmation by imaging. A common presenting symptom is stress urinary ...incontinence (SUI). The recommended treatment is surgical excision with urethral diverticulectomy. Postoperatively, approximately 37% of patients may have persistent and 16% may have de novo SUI. An autologous fascial pubovaginal sling (PVS) placed at the time of urethral diverticulectomy (UD) has the potential to prevent and treat postoperative SUI. However, little has been published about the safety and efficacy of a concomitant pubovaginal sling.
The objective of this study was to compare the clinical presentation, outcomes, complications, and diverticulum recurrence rates in women who underwent a urethral diverticulectomy with vs without a concurrent pubovaginal sling.
This multicenter, retrospective cohort study included women who underwent a urethral diverticulectomy between January 1, 2000, and December 31, 2016. Study participants were identified by Current Procedure Terminology codes, and their records were reviewed for demographics, medical or surgical history, symptoms, preoperative testing, concomitant surgeries, and postoperative outcomes. Symptoms, recurrence rates, and complications were compared between women with and without a concomitant pubovaginal sling. The primary outcome was the presence of postoperative stress urinary incontinence symptoms. Based on a stress urinary incontinence rate of 50% with no pubovaginal sling and 10% with a pubovaginal sling, we needed a sample size of 141 participants who underwent diverticulectomy without a pubovaginal sling and 8 participants with a pubovaginal sling to achieve 83% power with P<.05.
We identified 485 diverticulectomy cases from 11 institutions who met the inclusion criteria; of these, 96 (19.7%) cases had a concomitant pubovaginal sling. Women with a pubovaginal sling were older than those without a pubovaginal sling (53 years vs 46 years; P<.001), and a greater number of women with pubovaginal sling had undergone diverticulectomy previously (31% vs 8%; P<.001). Postoperative follow-up period (14.6±26.9 months) was similar between the groups. The pubovaginal sling group had greater preoperative stress urinary incontinence (71% vs 33%; P<.0001), dysuria (47% vs 30%; P=.002), and recurrent urinary tract infection (49% vs 33%; P=.004). The addition of a pubovaginal sling at the time of diverticulectomy significantly improved the odds of stress urinary incontinence resolution after adjusting for prior diverticulectomy, prior incontinence surgery, age, race, and parity (adjusted odds ratio, 2.27; 95% confidence interval, 1.02–5.03; P=.043). It was not significantly protective against de novo stress urinary incontinence (adjusted odds ratio, 0.86; 95% confidence interval, 0.25–2.92; P=.807). Concomitant pubovaginal sling increased the odds of postoperative short-term (<6 weeks) urinary retention (adjusted odds ratio, 2.5; 95% confidence interval, 1.04–6.22; P=.039) and long-term urinary retention (>6 weeks) (adjusted odds ratio, 6.98; 95% confidence interval, 2.20–22.11; P=.001), as well as recurrent urinary tract infections (adjusted odds ratio, 3.27; 95% confidence interval, 1.26–7.76; P=.013). There was no significant risk to develop a de novo overactive bladder (adjusted odds ratio, 1.48; 95% confidence interval, 0.56–3.91; P=.423) or urgency urinary incontinence (adjusted odds ratio, 1.47; 95% confidence interval, 0.71–3.06; P=.30). A concomitant pubovaginal sling was not protective against a recurrent diverticulum (adjusted odds ratio, 1.38; 95% confidence interval, 0.67–2.82; P=.374). Overall, the diverticulum recurrence rate was 10.1% and did not differ between the groups.
This large retrospective cohort study demonstrated a greater resolution of stress urinary incontinence with the addition of a pubovaginal sling at the time of a urethral diverticulectomy. There was a considerable risk of postoperative urinary retention and recurrent urinary tract infections in the pubovaginal sling group.