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AAGL Practice Guidelines on the Prevention of Apical ... · 1 AAGL Practice Guidelines on the...
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AAGL Practice Guidelines on the Prevention of Apical Prolapse at the Time of 1 Benign Hysterectomy 2
Background 3
Hysterectomy is the most commonly performed gynecological surgical 4
procedure. In 2005, over 500,000 hysterectomies were performed in the United 5
States 1; 64% abdominally, 22% vaginally, and 14% laparoscopically [1]. Pelvic 6
organ prolapse is one of the most common reasons that hysterectomy is performed 7
[2], but evidence suggests that hysterectomy may also be a cause of future prolapse 8
[3-6]. 9
Pelvic organ prolapse may adversely impact physical, sexual and emotional 10
health. Women with symptomatic prolapse often experience altered bladder and 11
bowel function, increased pelvic pressure, diminution of sexual satisfaction, and 12
altered body image. With increasing vaginal descent, various bladder, bowel, and 13
prolapse symptoms are increased [7]. Personal and health care related costs for 14
prolapse are high, with the annual cost of ambulatory care of pelvic floor disorders 15
in the United States from 2005 to 2006 being almost $300 million [8]. Annual direct 16
costs for prolapse surgery in the United States are estimated to exceed 1 billion 17
dollars [9]. 18
Approximately 200,000 women undergo inpatient procedures for prolapse in 19
the United States each year [10], with regional and racial differences in rates of 20
surgery reported [11]. The demand for health care services related to pelvic floor 21
disorders will increase at twice the rate of the population itself [12]. The total 22
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number of women who will have surgery for prolapse is projected to increase from 23
166,000 in 2010 to 245,970 in 2050 [13]. 24
The true prevalence of pelvic organ prolapse is difficult to ascertain because 25
many women with prolapse do not seek medical care. Various studies report the 26
prevalence of symptomatic prolapse to be between 6 and 8% among adult women 27
[14-15]. Population-based studies report that 11 to 19% of women undergo surgery 28
for prolapse or incontinence during their lifetime [16-17]. 29
Hysterectomy is associated with a risk of subsequent surgery for pelvic organ 30
prolapse[3-4], particularly when performed on women with existing prolapse [5-6]. 31
While some studies suggest that post hysterectomy prolapse is more common 32
following vaginal hysterectomy, than after the abdominal approach [4-5] it is 33
unclear if this association is due to selection bias or whether the technique of 34
vaginal hysterectomy is more prone to cause surgical trauma to the vaginal support 35
tissues. Rates of the development of post-hysterectomy prolapse are compounded 36
by the fact that there are low institutional compliance rates with evidence-based 37
guidelines to perform a concurrent suspension procedure at the time of 38
hysterectomy for existing prolapse treatment [18]. 39
Randomized trials suggest that, over the short term, cervical preservation or 40
removal does not affect the rate of subsequent pelvic organ prolapse [19-20]. 41
However, no studies have addressed the risk of pelvic organ prolapse many years 42
after surgery, which may differ after total versus supracervical hysterectomy. 43
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The purpose of this Practice Guideline is to critically review the literature 44
and provide recommendations designed to reduce the incidence of de novo apical 45
vaginal prolapse following hysterectomy for benign disorders. 46
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Identification and Assessment of Evidence 48
This AAGL practice guideline was produced with the following search 49
methodology; electronic resources including Medline, PubMed, EMBASE, EBM / 50
Systematic Reviews, and ISI were searched for all English publications from 1945 to 51
present related to reduction of the risk of post hysterectomy vaginal vault prolapse. 52
The MeSH terms included all subheadings, where keywords ‘apical prolapse’, 53
‘uterine prolapse’, ‘pelvic organ prolapse’, ‘vaginal vault prolapse’, or ‘hysterectomy 54
adverse effects’, occurred with ‘colpocleisis’, ‘colpopexy’, ‘vaginal suspension repair’, 55
‘culdoplasty’, ‘culdeplasty’, or ‘culdosuspension’, and ‘vaginal prolapse prevention’ 56
or ‘gynecologic surgical procedures’. Additional publications were identified from a 57
hand search of the references in the identified publications, yielding 262 articles. 58
The full text of all publications was retrieved, abstracted, tabulated and added to a 59
data table. Articles were reviewed for relevance to the topic, with 58 publications 60
identified, including 6 RCTs. All studies were assessed for methodological rigor and 61
graded according to the classification system outlined at the end of this document. 62
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Clinical Presentation of Post-Hysterectomy Prolapse 64 65
As for any form of vaginal prolapse, post-hysterectomy vaginal vault 66
prolapse may be associated with a variety of symptoms or complaints, including 67
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vaginal bulging, palpable or visible tissue protrusion, pressure, discomfort with 68
ambulation or activity, pelvic or back pain, dyspareunia or obstructed intercourse. 69
Alterations in the support mechanisms may be associated with lower urinary tract 70
symptoms including irritative or obstructed voiding, urinary retention and/or 71
various forms of urinary incontinence, as well as bowel complaints such as 72
obstructed defecation, fecal urgency or fecal incontinence. Symptoms of prolapse 73
correspond poorly to compartment of defect and stage of prolapse [21]. 74
Some of the potential mechanisms for post-hysterectomy prolapse include 75
surgical injury to the innervation and vascularization of the pelvic floor muscles or 76
alterations in the connective tissues. DeLancey has described a system of 3 77
integrated levels of vaginal support. Level I consists of the cardinal and uterosacral 78
ligaments, and suspends the vaginal apex. Level II consists of the endopelvic fascia 79
connections to the arcus tendineus fascia pelvis, which attaches the vagina to the 80
aponeurosis of the levator ani. Level III consists of the perineal body and includes 81
interlacing muscle fibers of the bulbospongiosus, transverse perinei, and external 82
anal sphincter. Studies suggest it is the paracolpium's vertical fibers at Level I that 83
prevent prolapse of the vaginal apex [22]. Since the uterosacral/cardinal ligament 84
complex must be divided during hysterectomy, loss of Level I support contributes to 85
subsequent prolapse of the vaginal apex. 86
87
There is increasing recognition that anterior or posterior vaginal prolapse 88
may have a significant apical component [23-24]. Even in cases where the leading 89
edge of the prolapse represents the anterior or posterior vaginal compartment, 90
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failure to recognize or address apical prolapse is likely to lead to suboptimal 91
treatment outcomes for prolapse procedures, and perhaps to iatrogenic problems. 92
Midline colporrhaphy when undertaken for an apical support defect may 93
inadequately address the woman’s symptoms and lead to new complaints related to 94
vaginal stricture, foreshortening, or scar tissue. 95
Diagnosis of Post-Hysterectomy Prolapse 96
Assessment of women with symptoms of prolapse following hysterectomy 97
should include the fundamental targeted history and physical examination. The 98
current recommendations for objective assessment of vaginal support included use 99
of the Pelvic Organ Prolapse Quantification (POP-Q) system. The determination of 100
apical prolapse is made by measuring the location, relative to the vaginal hymen, of 101
the cuff, or hysterectomy scar (point C), during maximal valsalva and/or traction 102
during examination. Staging, by the POP-Q system, is an overall assessment 103
according to the compartment of most severe prolapse, and does not call for staging 104
of individual compartments. As described above, apical prolapse is frequently 105
associated with more severe anterior or posterior compartment prolapse, but is 106
essential to identify in order to formulate appropriate reparative strategies. Apical 107
support during the POP-Q examination may help to identify how much of the 108
observed prolapse is attributable to the apical component [25]. 109
There is debate as to whether previously described entities including vaginal 110
vault prolapse, enterocele, high rectocele or high cystocele, are indeed separate 111
entities, or are in fact different points along a spectrum of support disorders. The 112
traditional teaching that vault prolapse is a failure of support of an otherwise intact 113
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vagina, whereas enterocele represents a failure in the fibromuscularis sheath of the 114
vagina with a herniation of peritoneum is tempting, but has not been supported 115
histologically [26]. Strict adherence to the POP-Q terminology avoids the 116
presumptive diagnosis of which organs are affected by the lack of vaginal support, 117
and focuses rather on the vaginal supports themselves. Vaginal topography has 118
been shown to correlate poorly with the location of surrounding visceral structures 119
[27]. As such, researchers and clinicians may be well served to use “anterior vaginal 120
prolapse” rather than “cystocele,” and “apical prolapse” rather than “vault prolapse” 121
or enterocele. 122
A variety of imaging studies are available to more specifically and accurately 123
describe the effects of vaginal support defects on the surrounding organ systems. 124
Ultrasound, MRI and fluoroscopy with contrast are among these modalities, which 125
may demonstrate the organs contained within the vaginal prolapse. In some cases, it 126
may be clinically useful to make such determinations; in addition, imaging studies 127
may help to identify disorders that may not be readily demonstrated during a 128
vaginal exam, such as sigmoidocele or rectal intussusception. Consequently, many 129
providers obtain some form of imaging when the symptoms often associated with 130
prolapse are not supported by, or are disproportionate to the examination findings. 131
Use of the Uterosacral Ligaments 132
Native tissue repairs of apical prolapse incorporate structures such as the 133
uterosacral ligament to reestablish pelvic supports. In 1929, Richardson described 134
cuff angle closure incorporating the broad and uterosacral ligaments to support the 135
vault during abdominal hysterectomy [28]. In 1957, the McCall culdoplasty was 136
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described [29] in which the uterosacral ligaments are plicated in the midline, 137
incorporating the cul-de-sac peritoneum and posterior vaginal cuff. This obliterates 138
the peritoneum of the posterior cul-de-sac and elevates the vault toward the 139
plicated uterosacral ligaments. Several adaptations of this procedure have been 140
described utilizing different numbers of sutures and different points of fixation [30-141
31]. All rely on the uterosacral ligaments for support of the vaginal apex. Similar 142
procedures have been described for use during abdominal [32-33] and 143
laparoscopic[34-38] hysterectomy. These approaches have not been studied in 144
randomized trials for the prevention of post-hysterectomy prolapse. 145
146
Richardson angle stitch 147
The efficacy of this procedure was reported in a study of unembalmed 148
cadavers using hanging weights attached to the vaginal apex. Following total 149
hysterectomy, there was equal resistance following hysterectomy with a Richardson 150
angle stitch and after supracervical hysterectomy where the uterosacral ligament 151
was left intact [39]. Another cadaveric study assessing vaginal apical descent before 152
and after tying the Richardson angle stitch found that the distance of apical descent 153
was significantly reduced (cm difference and p value if mention significance) with 154
incorporation of the cardinal and uterosacral ligaments. This study suggested that 155
incorporation of this ligament complex to the vaginal angle at the time of 156
hysterectomy may prevent apical prolapse [40]. We were unable to identify any 157
published prospective studies on living patients evaluating the efficacy of this 158
technique. 159
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Vaginal Procedures 161 162
There is currently only one randomized trial comparing techniques to 163
prevent vault prolapse after vaginal hysterectomy performed for non-prolapse 164
related gynecologic disease. This randomized trial [41] compared a vaginal 165
Moschowitz-type operation, peritoneal closure of the cul-de-sac, and McCall’s 166
culdoplasty for prevention of post-hysterectomy enterocele in 100 women 167
undergoing vaginal hysterectomy. The authors found significantly fewer cases of 168
posterior-apical vaginal prolapse (stage 2) three years following the McCall’s 169
culdoplasty 2/32 (6%) than with either peritoneal closure 13/33 (39%) or the 170
vaginal Moschowitz procedure 10/33 (30%) (p=.004). 171
Colombo and Milani performed a retrospective case-control study comparing 172
62 women with advanced uterovaginal prolapse who underwent sacrospinous 173
fixation or McCall culdoplasty for the prevention of post-hysterectomy vault 174
prolapse. Although the investigators reported fewer recurrences at any vaginal site 175
(27% vs 15%) in the McCall group 4 - 9 years postoperatively, the results did not 176
reach statistical significance [42]. 177
Several case series have evaluated attachment of the vaginal cuff to the 178
uterosacral ligaments for the prevention of vaginal vault prolapse after 179
hysterectomy performed for uterovaginal prolapse (rather than for prolapse 180
prevention at the time of hysterectomy for non-prolapse related gynecologic 181
disease). Inmon described reattaching the apex to plicated, shortened cardinal-182
uterosacral ligaments after vaginal hysterectomy in 106 women with grade 2 (to the 183
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introitus) to 4 (complete) prolapse. While only 46/106 patients were followed to 2 184
years, the authors reported no recurrences. In a series of 112 patients who had 185
attachment of the cuff to the cardinal and uterosacral ligaments and high 186
obliteration of the cul-de-sac to prevent post-hysterectomy enterocele [43], no cases 187
of post-hysterectomy enterocele developed from 7 to 42 months after the 188
procedure. Chene el al. retrospectively evaluated the outcomes of 185 women who 189
underwent TVH and modified McCall culdoplasty for “mild to moderate hysterocele” 190
at their institution. They reported 89.2% with stage 0 prolapse at the apex 2 years 191
after surgery [44]. Given retrospectively reviewed 68 patients 2 - 22 years (average 192
7 years) after McCall culdoplasty performed for moderate to severe apical prolapse 193
and noted only 2 “failures” (although this was not defined)[45]. Hoffman reported a 194
ureteral obstruction rate of 4.5% in a series of 67 patients undergoing high McCall 195
culdoplasty over a 4-year period. All were recognized and resolved intraoperatively 196
[46]. While these case series suggest that the uterosacral ligaments can be 197
successfully utilized to prevent vaginal vault prolapse after hysterectomy done for 198
uterovaginal prolapse, they do not specifically address the issue of preventing 199
prolapse during hysterectomy for non-prolapse indications. 200
With uterosacral ligament suspension (USLS), the vaginal cuff is reattached 201
to the proximal uterosacral ligaments without plicating the uterosacral ligaments or 202
obliterating the cul-de-sac. There are currently no data on the use of USLS to 203
prevent vault prolapse following hysterectomy performed for non-prolapse 204
indications. We therefore reviewed articles that examined the efficacy of uterosacral 205
ligament suspension performed at the time of hysterectomy for prolapse in addition 206
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to those evaluating prophylactic uterosacral ligament suspension performed to 207
prevent post hysterectomy vault prolapse. 208
Laparoscopic Procedures 209
The only study evaluating laparoscopic uterosacral ligament suspension is a 210
retrospective comparison of 96 patients undergoing vaginal uterosacral ligament 211
suspension to 22 undergoing laparoscopic uterosacral ligament suspension found 212
no significant difference in recurrent apical prolapse (6% in the vaginal group and 213
0% in the laparoscopic group) [47]. This study identified a 4% rate of ureteral 214
compromise recognized intraoperatively in the vaginal group, with 0% in the 215
laparoscopic group, although this was not statistically significant. 216
Abdominal Procedures 217
We identified one retrospective study evaluating 250 women having 218
prophylactic uterosacral ligament suspension to prevent post-hysterectomy vault 219
prolapse at the time of abdominal hysterectomy [32]. This study reports only a 220
single complication (a rectovaginal hematoma that resolved spontaneously) and no 221
cases of postoperative vaginal vault prolapse. However, the results section is largely 222
qualitative, with no objective measures reported (such as POP-Q or Baden-Walker 223
exams postoperatively). 224
Lowenstein et al.’s case series [48] reported outcomes and complications 225
following abdominal uterosacral suspension (AUSS) for the treatment of pelvic 226
organ prolapse. At 1-year follow up, they found a 12% rate of subjective 227
symptomatic recurrence of prolapse, and a 7% rate of objective anatomic failure. In 228
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this series, there was a 9% suture erosion rate with the use of permanent (GoreTex) 229
sutures. 230
We identified two long-term outcome studies evaluating high uterosacral 231
ligament suspension. Doumouchtsis’ case series [49] evaluated the long-term 232
outcomes in 42 women who had uterosacral ligament suspension performed at the 233
time of vaginal hysterectomy for prolapse, with a mean follow-up time of 59 234
months. At follow-up, 85% had no prolapse; 15% had grade 1 vault prolapse. Two 235
patients (5%) underwent surgery to treat postoperative vaginal vault prolapse. Silva 236
et al. [50] evaluated 5-year anatomic and functional outcomes following high 237
uterosacral ligament suspension. In this study, the rate of symptomatic apical 238
recurrent prolapse was 1%. An additional 4.5% of these patients underwent a 239
second surgery to treat anterior and/or posterior compartment prolapse. 240
241
Procedures that attach the vagina to pelvic ligaments 242
Sacrospinous ligament fixation 243
Sederl first described the technique of attaching the vagina to the 244
sacrospinous ligament in 1958. It was later modified and made popular in the 245
United States by Randall and Nichols [51]. There are no studies to date evaluating 246
the efficacy of the sacrospinous ligament suspension technique at the time of 247
hysterectomy (in those without prolapse) for prevention of future prolapse. 248
There are no RCTs assessing the efficacy of the sacrospinous ligament 249
fixation for the treatment of uterovaginal and/or vaginal vault prolapse [52-55]. 250
Meta-analyses of prospective (from 52-55) and retrospective (from 52-55) studies 251
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report an anatomic or ‘objective’ failure rate from 3-37% [56-57]. Failure rates were 252
higher in the anterior compartment than in the posterior and apical compartments 253
and dependent on definition of prolapse recurrence (using Grade 1 vs Grade 2 as 254
criteria) (Morgan ref). Beer and Kuhn compiled complication events of 1922 women 255
reported in articles indexed in Medline from 1972 to 2002. It showed that most 256
common complications were that of febrile morbidity (fever or abscess) in 4.1% and 257
hemorrhage and transfusion in 1.9%. Damage to femoral, perineal and sciatic nerves 258
were reported in 1.8% and gluteal and bladder pain in 2%. 259
260
Procedures that attach the vagina to the anterior longitudinal ligament 261
There are no studies that assess this procedure for the prevention of apical 262
vaginal prolapse. 263
Sacrocolpopexy, a procedure that attaches the vaginal apex to the anterior 264
longitudinal ligament of the sacrum using permanent mesh, is generally considered 265
the gold standard for treatment of post-hysterectomy prolapse. The success rate is 266
reported to be between 78-100% when defined as lack of apical prolapse 267
postoperatively, and between 58-100% when defined as no postoperative prolapse 268
[58]. In a study of women with cervical or vaginal vault prolapse participants were 269
randomized to a vaginal repair (with bilateral sacrospinous vault suspension and 270
paravaginal repair) or an abdominal sacrocolpopexy (with paravaginal repair). 271
With a mean follow up period of 2.5 years, the relative risk of unsatisfactory 272
outcome with the vaginal route was 2.11 (95%, CI 0.9-4.9) [59] and reoperation rate 273
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for recurrence of prolapse was greater in the vaginal compared to the abdominal 274
group (33% vs 16%). 275
A study of women with vaginal vault prolapse randomized to laparoscopic 276
sacrocolpopexy or total vaginal mesh surgery, the total objective success rate was 277
significantly greater for laparoscopic sacrocolpopexy compared to vaginal mesh 278
when evaluated by blinded nonsurgical reviewers at 2-years (77% vs 43%, p< .001.) 279
Reoperation rate for recurrence of prolapse and/or mesh complications was 280
significantly higher in the vaginal mesh group compared to those randomized to 281
laparoscopic sacrocolpopexy (22% vs 5%, p=.006) [60]. 282
In comparing minimally invasive approaches to sacrocolpopexy, a 283
randomized trial reported that while both robotic and laparoscopic groups 284
demonstrated similar vaginal support and functional outcomes at 1 year, the robotic 285
approach was associated with longer operative time (67 min difference; p<.001) 286
and greater post-operative pain at rest and activity compared to the laparoscopic 287
group [61] . Sacrocolpopexy is not used for prolapse prevention and there are no 288
current studies evaluating its use for prophylaxis. 289
290
Summary of Recommendations 291
1. McCall’s culdoplasty may be performed at the time of vaginal hysterectomy 292
for non-prolapse related disease to reduce the risk of postoperative apical 293
prolapse for up to 3 years (Level B). 294
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2. Uterosacral ligament suspension may be performed at the time of abdominal 295
(Level B) and laparoscopic (Level C) hysterectomy to reduce the risk of post-296
hysterectomy vaginal vault prolapse. 297
3. Sacrospinous ligament fixation and abdominal sacral colpopexy are not 298
recommended for the prevention of prolapse at the time of hysterectomy for 299
non-prolapse related disease. (Level C). 300
301
Recommendations for future research 302
Available data guiding gynecologic surgeons about management of the 303
vaginal vault for the prevention of post-hysterectomy prolapse are limited. 304
Randomized trials comparing apical support procedures performed at the time of 305
hysterectomy for non-prolapse related disease are urgently needed since both 306
hysterectomy and vaginal vault prolapse are common. Specifically, a randomized 307
trial comparing McCall’s culdoplasty (with uterosacral ligament plication) to 308
uterosacral ligament suspension (without plication) is important, since both 309
procedures are accessible to the non-urogynecologic surgeon. 310
311
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15. Tegerstedt G, Maehle-Schmidt M, Nyren O, Hammarstrom M. Prevalence of 355 symptomatic pelvic organ prolapse in a Swedish population. Int Urogynecol J Pelvic 356 Floor Dysfunct 2005;16:497-503. (Evidence Class II-2 ) 357 16. Jones KA, Shepherd JP, Oliphant SS, Wang L, Bunker CH, Lowder JL. Trends in 358 inpatient prolapse procedures in the United States, 1979-2006. Am J Obstet Gynecol 359 2010;202:501 e1-7. (Evidence Class III) 360 17. Olsen AL, Smith VJ, Bergstrom JO, Colling JC, Clark AL. Epidemiology of 361 surgically managed pelvic organ prolapse and urinary incontinence. Obstet Gynecol 362 1997;89:501-6. (Evidence Class II-2) 363 18. Rhoads KF, Sokol ER. Variation in the quality of surgical care for uterovaginal 364 prolapse. Med Care 2011;49:46-51. (Evidence Class II-2 ) 365 19. Learman LA, Summitt RL, Jr., Varner RE, et al. A randomized comparison of 366 total or supracervical hysterectomy: surgical complications and clinical outcomes. 367 Obstet Gynecol 2003;102:453-62. (Evidence Class I) 368 20. Thakar R, Ayers S, Clarkson P, Stanton S, Manyonda I. Outcomes after total 369 versus subtotal abdominal hysterectomy. N Engl J Med 2002;347:1318-25. 370 (Evidence Class I) 371 21. Miedel A, Tegerstedt G, Maehle-Schmidt M, Nyren O, Hammarstrom M. 372 Symptoms and pelvic support defects in specific compartments. Obstet Gynecol 373 2008;112:851-8. (Evidence Class II-3) 374 22. DeLancey JO. Anatomic aspects of vaginal eversion after hysterectomy. Am J 375 Obstet Gynecol 1992;166:1717-24; discussion 24-8. (Evidence Class III) 376 23. Larson KA, Luo J, Guire KE, Chen L, Ashton-Miller JA, DeLancey JO. 3D 377 analysis of cystoceles using magnetic resonance imaging assessing midline, 378 paravaginal, and apical defects. Int Urogynecol J 2012;23:285-93. (Evidence Class II-379 3) 380 24. Rooney K, Kenton K, Mueller ER, FitzGerald MP, Brubaker L. Advanced 381 anterior vaginal wall prolapse is highly correlated with apical prolapse. Am J Obstet 382 Gynecol 2006;195:1837-40. (Evidence Class II-3) 383 25. Lowder JL, Park AJ, Ellison R, et al. The role of apical vaginal support in the 384 appearance of anterior and posterior vaginal prolapse. Obstet Gynecol 385 2008;111:152-7. (Evidence Class II-3) 386 26. Tulikangas PK, Walters MD, Brainard JA, Weber AM. Enterocele: is there a 387 histologic defect? Obstet Gynecol 2001;98:634-7. (Evidence Class II-2) 388 27. Kenton K, Shott S, Brubaker L. Vaginal topography does not correlate well 389 with visceral position in women with pelvic organ prolapse. Int Urogynecol J Pelvic 390 Floor Dysfunct 1997;8:336-9. (Evidence Class II-3) 391 28. Richardson E. A simplified technique for abdominal panhysterectomy. Surg 392 Gynecol Obstet 1929;48:248-52. (Evidence Class III) 393 29. McCall ML. Posterior culdeplasty; surgical correction of enterocele during 394 vaginal hysterectomy; a preliminary report. Obstet Gynecol 1957;10:595-602. 395 (Evidence Class III) 396 30. Lee RA, Symmonds RE. Surgical repair of posthysterectomy vault prolapse. 397 Am J Obstet Gynecol 1972;112:953-6. (Evidence Class III) 398
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31. Symmonds RE, Williams TJ, Lee RA, Webb MJ. Posthysterectomy enterocele 399 and vaginal vault prolapse. Am J Obstet Gynecol 1981;140:852-9. (Evidence Class 400 III) 401 32. Ostrzenski A. A new, simplified posterior culdoplasty and vaginal vault 402 suspension during abdominal hysterectomy. Int J Gynaecol Obstet 1995;49:25-34. 403 (Evidence Class II-3) 404 33. Wall LL. A technique for modified McCall culdeplasty at the time of 405 abdominal hysterectomy. J Am Coll Surg 1994;178:507-9. (Evidence Class III) 406 34. Carter JE, Winter M, Mendehlsohn S, Saye W, Richardson AC. Vaginal vault 407 suspension and enterocele repair by Richardson-Saye laparoscopic technique: 408 description of training technique and results. JSLS 2001;5:29-36. (Evidence Class III) 409 35. Lin LL, Phelps JY, Liu CY. Laparoscopic vaginal vault suspension using 410 uterosacral ligaments: a review of 133 cases. J Minim Invasive Gynecol 411 2005;12:216-20. (Evidence Class II-3) 412 36. Miklos JR, Kohli N, Lucente V, Saye WB. Site-specific fascial defects in the 413 diagnosis and surgical management of enterocele. Am J Obstet Gynecol 414 1998;179:1418-22; discussion 822-3. (Evidence Class II-3) 415 37. Ostrzenski A. Laparoscopic colposuspension for total vaginal prolapse. Int J 416 Gynaecol Obstet 1996;55:147-52. (Evidence Class II-3) 417 38. Seman EI, Cook JR, O'Shea RT. Two-year experience with laparoscopic pelvic 418 floor repair. J Am Assoc Gynecol Laparosc 2003;10:38-45. (Evidence Class II-2) 419 39. Rahn DD, Marker AC, Corton MM, et al. Does supracervical hysterectomy 420 provide more support to the vaginal apex than total abdominal hysterectomy? Am J 421 Obstet Gynecol 2007;197:650 e1-4. (Evidence Class III) 422 40. Rahn DD, Stone RJ, Vu AK, White AB, Wai CY. Abdominal hysterectomy with 423 or without angle stitch: correlation with subsequent vaginal vault prolapse. Am J 424 Obstet Gynecol 2008;199:669 e1-4. (Evidence Class III) 425 41. Cruikshank SH, Kovac SR. Randomized comparison of three surgical methods 426 used at the time of vaginal hysterectomy to prevent posterior enterocele. Am J 427 Obstet Gynecol 1999;180:859-65. (Evidence Class I) 428 42. Colombo M, Milani R. Sacrospinous ligament fixation and modified McCall 429 culdoplasty during vaginal hysterectomy for advanced uterovaginal prolapse. Am J 430 Obstet Gynecol 1998;179:13-20. (Evidence Class II-2) 431 43. Cruikshank SH. Preventing posthysterectomy vaginal vault prolapse and 432 enterocele during vaginal hysterectomy. Am J Obstet Gynecol 1987;156:1433-40. 433 (Evidence Class II-3) 434 44. Chene G, Tardieu AS, Savary D, et al. Anatomical and functional results of 435 McCall culdoplasty in the prevention of enteroceles and vaginal vault prolapse after 436 vaginal hysterectomy. Int J Urogynecol J Pelvic Floor Dysfunct 2008;19:1007-11. 437 (Evidence Class II-3) 438 45. Given FT, Jr. "Posterior culdeplasty": revisited. Am J Obstet Gynecol 439 1985;153:135-9. (Evidence Class II-3 ) 440 46. Hoffman MS, Lynch CM, Nackley A. Ureteral obstruction from high McCall's 441 culdeplasty. J Gynecol Surg 2000;16:119-23. (Evidence Class II-3 ) 442
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47. Rardin CR, Erekson EA, Sung VW, Ward RM, Myers DL. Uterosacral colpopexy 443 at the time of vaginal hysterectomy: comparison of laparoscopic and vaginal 444 approaches. J Reprod Med 2009;54:273-80. (Evidence Class II-2 ) 445 48. Lowenstein L, Fitz A, Kenton K, FitzGerald MP, Mueller ER, Brubaker L. 446 Transabdominal uterosacral suspension: outcomes and complications. Am J Obstet 447 Gynecol 2009;200:656.e1-.e5. (Evidence Class III) 448 49. Doumouchtsis SK, Khunda A, Jeffery ST, et al. Long-term outcomes of 449 modified high uterosacral ligament vault suspension (HUSLS) at vaginal 450 hysterectomy. Int Urogynecol J 2011;22:577-84. (Evidence Class II-3) 451 50. Silva WA, Pauls RN, Segal JL, Rooney CM, Kleeman SD, Karram MM. 452 Uterosacral ligament vault suspension - Five-year outcomes. Obstet Gynecol 453 2006;108:255-63. (Evidence Class II-3) 454 51. Randall CL, Nichols DH. Surgical treatment of vaginal inversion. Obstet 455 Gynecol 1971;38:327-32. (Evidence Class III) 456 52. Hefni MA, El-Toukhy TA. Sacrospinous colpopexy at vaginal hysterectomy: 457 method, results and follow up in 75 patients. J Obstet Gynaecol 2000;20:58-62. 458 (Evidence Class II-3) 459 53. Hoffman MS, Harris MS, Bouis PJ. Sacrospinous colpopexy in the management 460 of uterovaginal prolapse. J Reprod Med 1996;41:299-303. (Evidence Class II-3) 461 54. Meschia M, Bruschi F, Amicarelli F, Pifarotti P, Marchini M, Crosignani PG. 462 The sacrospinous vaginal vault suspension: Critical analysis of outcomes. Int 463 Urogynecol J Pelvic Floor Dysfunct 1999;10:155-9. (Evidence Class III) ? 464 55. Silva-Filho AL, Triginelli SA, Santos-Filho AS, Candido EB, Traiman P, Cunha-465 Melo JR. Sacrospinous fixation for treatment of vault prolapse and at the time of 466 vaginal hysterectomy for marked uterovaginal prolapse. Female Pelvic Medicine & 467 Reconstructive Surgery 2004;10:213-18. (Evidence Class II-3) 468 56. Beer M, Kuhn A. Surgical techniques for vault prolapse: a review of the 469 literature. Eur J Obstet Gynecol Reprod Biol 2005;119:144-55. (Evidence Class II-3) 470 57. Morgan DM, Rogers MA, Huebner M, Wei JT, Delancey JO. Heterogeneity in 471 anatomic outcome of sacrospinous ligament fixation for prolapse: a systematic 472 review. Obstet Gynecol 2007;109:1424-33. (Evidence Class II-3 ) 473 58. Nygaard IE, McCreery R, Brubaker L, et al. Abdominal sacrocolpopexy: a 474 comprehensive review. Obstet Gynecol 2004;104:805-23. (Class II-3) 475 59. Benson JT, Lucente V, McClellan E. Vaginal versus abdominal reconstructive 476 surgery for the treatment of pelvic support defects: A prospective randomized study 477 with long-term outcome evaluation. AJOG 1996;175:1418-22. (Evidence Class I) 478 60. Maher CF, Feiner B, DeCuyper EM, Nichlos CJ, Hickey KV, O’Rourke PO. 479 Laparoscopic sacral colpopexy versus total vaginal mesh for vaginal vault prolapse: 480 a randomized trial. AJOG 2011; 204:360. (Evidence Class 1) 481 61. Paraiso MFR, Jelovsek JE, Frick A, Chen CCG, Barber MD. Laparoscopic 482 compared with robotic sacrocolpopexy for vaginal prolapse. (Evidence Class I). 483 484
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Studies were reviewed and evaluated for quality according to the method outlined by the US 485 Preventive Services Task Force. 486 487 Class I Evidence obtained from at least 1 properly designed randomized controlled trial. 488 489 Class II Evidence obtained from nonrandomized clinical evaluation. 490 491
II-1 Evidence obtained from well-designed controlled trials without randomization. 492 II-2 Evidence obtained from well-designed cohort or case-control analytic studies, 493 preferably from more than 1 center or research center. 494 II-3 Evidence obtained from multiple time series with or without the intervention. 495 Dramatic results in uncontrolled experiments also could be regarded as this type of 496 evidence. 497
Class III Opinions of respected authorities, based on clinical experience, descriptive studies, or 498 reports of expert committees. 499 500 Based on the highest level of evidence found in the data, recommendations are provided and 501 graded according to the following categories: 502
Level A—Recommendations are based on good and consistent scientific evidence. 503
Level B—Recommendations are based on limited or inconsistent scientific evidence. 504
Level C—Recommendations are based primarily on consensus and expert opinion. 505
506
Acknowledgement 507
This report was developed under the direction of the Practice Committee of 508 the AAGL as a service to their members and other practicing clinicians. 509
The members of the AAGL Practice Committee have reported the following 510 financial interest or affiliation with corporations: Jason A. Abbott, PhD, FRANZCOG, 511 Hologic—Consultant, Speakers Bureau; Krisztina I. Bajzak, MD, FRCSC, MSc, Nothing 512 to disclose; Isabel C. Green, M.D., Nothing to disclose; Volker R. Jacobs, MD, PhD, 513 MBA, Nothing to disclose. Neil P. Johnson, M.D., CREI, FRANZCOG, FRCOG, MRCGP, 514 Nothing to disclose; Marit Lieng, MD, PhD, Nothing to disclose; Malcolm G. Munro, 515 M.D., Abbott Laboratories—Consultant, Aegea Medical—Consultant, Stock 516 Ownership, Baxter—Consultant, Bayer Healthcare Corp.—Consultant, Boston 517 Scientific Corp. Inc.—Consultant, channel Medical—Consultant, Stock Ownership, 518 Conceptus Incorporated—Consultant, CooperSurgical—Consultant, EndoSee 519 Corp.—Consultant, Ethicon Women’s Health & Urology—Consultant, Femasys—520 Consultant, Gynesonics—Consultant, Stock Ownership, Halt Medical—Consultant, 521 Stock Ownership, Hologic—Consultant, Idoman Teoranta—Consultant, Karl Storz 522 Endoscopy—Consultant; Sony Sukhbir Singh, BSc, M.D., FRCSC, Abbott 523 Laboratories—Consultant, Grants/Research, Speakers Bureau, Bayer Healthcare 524 Corp.—Consultant, Speakers Bureau, Ethicon Endo-Surgery—Speakers Bureau, 525 Minerva Surgical—Grants/Research, Covidien—Speakers Bureau; Eric R. Sokol, 526
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M.D., American Medical Systems—Consultant, Pelvalon—Stock Ownership, 527 Contura—Grants/Research. 528
The members of the AAGL Guideline Development Committee for the 529 Prevention of Apical Prolapse at the Time of Benign Hysterectomy have reported 530 the following financial interest or affiliation with corporations: Andrew I. Sokol, 531 M.D.,—Nothing to disclose. Rosanne Kho, MD.,—Nothing to disclose. Rebecca U. 532 Margulies, M.D.,—Nothing to disclose. Charles R. Rardin, M.D.,—Nothing to disclose. 533 Eric R. Sokol, M.D., American Medical Systems—Consultant, Pelvalon—Stock 534 Ownership, Contura—Grants/Research. 535
Acknowledgement: We would like to thank Ms. Eliane Purchase, Library Assistant at 536 Mayo Clinic-Arizona for her assistance with the literature search. 537
538