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Journal of Robotic Surgery
Published in: Journal of Robotic Surgery 5/2020

01-10-2020 | Ultrasound | Original Article

Ultrasonography and robotic-assisted laparoscopic sacrocervicopexy with pubocervical fascia reconstruction: comparison with standard technique

Authors: Hugo H. Davila, Sarah Abdelhameed, Deni Malave-Huertas, F. Felix Bigay, Kristy Crawford, Allen Friedenstab, Katharine Lum, Lindsey Bruce, Lindsey Goodman, Taryn Gallo

Published in: Journal of Robotic Surgery | Issue 5/2020

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Abstract

The objective of this study was to evaluate our technique of ultrasonography and robotic-assisted sacrocervicopexy with pubocervical fascia reconstruction (u-RALS-PFR) versus standard robotic-assisted laparoscopic sacrocervicopexy (s-RALS) in the treatment of patients with symptomatic apical/anterior vaginal prolapse. A retrospective analysis was done using the data in two community hospitals. Thirty women presented with symptomatic vaginal apical prolapse and desired minimally invasive surgery (video): (a) standard robotic-assisted laparoscopic sacrocervicopexy (s-RALS) (n = 15) or (b) ultrasound and robotic-assisted sacrocervicopexy with pubocervical fascia reconstruction (u-RALS-PFR) (n = 15) were eligible to participate. All participants underwent a standardized evaluation, including a structured urogynecologic history and physical examination with pelvic organ prolapse quantitative staging. There was longer operating room time in the u-RALS-PFR group compared with the s-RALS group (average difference 35 min); however, sacral promontory dissection time was less in the u-RALS-PFR (average difference of 15 min). The anterior/posterior vaginal dissection and mesh tensioning time was longer in the u-RALS-PFR, as expected. There was only one surgical and anatomic failure (7%) in the s-RALS group after 6 months of surgery (POP Q = Aa + 1, Ba0, Ap-2, Bp-3, C-7). Our technique of ultrasonography and pubocervical fascia reconstruction during RALS appears to be feasible and safe. It aims to improve anterior and apical support, minimize the use of mesh and improve visualization during surgery. u-RALS-PFR approach will add some additional time during surgery but may provide better outcomes.
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Literature
1.
Singh K, Jakab M, Reid WM, Berger LA, Hoyte L (2003) Three-dimensional magnetic resonance imaging assessment of levator ani morphologic features in different grades of prolapse. Am J Obstet Gynecol 188(2):(2):910–915–915CrossRef
2.
Nichols DH, Randall CL (1996) Vaginal surgery. In: Chapter 5, Types of prolapse, 4th edn. Williams & Wilkins, Baltimore, pp 101–118
3.
Petros PE, Ulmsten UI (1990) An integral theory of female urinary incontinence. Experimental and clinical considerations. Acta Obstet Gynecol Scand Suppl 153:7–31 (Review)
4.
Davila HH, Gallo T, Bruce L, Landrey C (2017) Robotic and laparoendoscopic single-site utero-sacral ligament suspension for apical vaginal prolapse: evaluation of our technique and perioperative outcomes. J Robot Surg 11(2):171–177CrossRef
5.
Hendrix SL, Clark A, Nygaard I, Aragaki A, Barnabei V, McTiernan A (2002) Pelvic organ prolapse in the women’s health initiative: gravity and gravidity. Am J Obstet Gynecol 186(6):1160–1166CrossRef
6.
Olsen AL, Smith VJ, Bergstrom JO, Colling JC, Clark AL (1997) Epidemiology of surgically managed pelvic organ prolapse and urinary incontinence. Obstet Gynecol 89:501–506CrossRef
7.
Subak LL, Waetjen LE, van den Eeden S, Thom DH, Vittinghoff E, Brown JS (2001) Cost of pelvic organ prolapse surgery in the United States. Obstet Gynecol 98:646–651PubMed
8.
Nygaard IE, McCreery R, Brubaker L, Connolly AM, Cundiff G, Weber AM et al (2004) Abdominal sacrocolpopexy: a comprehensive review. Obstet Gynecol 104:805–823CrossRef
9.
Serati M, Bogani G, Sorice P, Braga A, Torella M, Salvatore S, Uccella S, Cromi A, Ghezzi F (2014) Robot-assisted sacrocolpopexy for pelvic organ prolapse: a systematic review and meta-analysis of comparative studies. Eur Urol 66(2):303–318CrossRef
10.
Jelovsek JE, Barber MD, Brubaker L, Norton P, Gantz M, Richter HE, Weidner A, Menefee S, Schaffer J, Pugh N, Meikle S (2018) NICHD pelvic floor disorders network. effect of uterosacral ligament suspension vs sacrospinous ligament fixation with or without perioperative behavioral therapy for pelvic organ vaginal prolapse on surgical outcomes and prolapse symptoms at 5 years in the optimal randomized clinical trial. JAMA 319(15):1554–1565. https://​doi.​org/​10.​1001/​jama.​2018.​2827.
11.
12.
13.
14.
Paraiso MF, Walters MD, Rackley RR, Melek S, Hugney C (2005) Laparoscopic and abdominal sacral colpopexies: a comparative cohort study. Am J Obstet Gynecol 192:1752–1758CrossRef
15.
Klauschie JL, Suozzi BA, O’Brien MM, McBride AW (2009) A comparison of laparoscopic and abdominal sacral colpopexy: objective outcome and perioperative differences. Int Urogynecol J Pelvic Floor Dysfunct 20:273–279CrossRef
16.
Hsiao KC, Latchamsetty K, Govier FE, Kozlowski P, Kobashi KC (2007) Comparison of laparoscopic and abdominal sacrocolpopexy for the treatment of vaginal vault prolapse. J Endourol 21:926–930CrossRef
17.
Geller EJ, Siddiqui NY, Wu JM, Visco AG (2008) Short-term outcomes of robotic sacrocolpopexy compared with abdominal sacrocolpopexy. Obstet Gynecol 112:1201–1206CrossRef
18.
J. Eric Jelovsek, Matthew D. Barber, Linda Brubaker, Peggy Norton, Marie Gantz, Holly E. Richter, AlisonWeidner, Shawn Menefee, Joseph Schaffer, Norma Pugh, Susan Meikle (2018) Effect of uterosacral ligament suspension vs sacrospinous ligament fixation with or without perioperative behavioral therapy for pelvic organ vaginal prolapse on surgical outcomes and prolapse symptoms at 5 years in the optimal randomized clinical trial. JAMA 319(15):1554–1565.
Metadata
Title
Ultrasonography and robotic-assisted laparoscopic sacrocervicopexy with pubocervical fascia reconstruction: comparison with standard technique
Authors
Hugo H. Davila
Sarah Abdelhameed
Deni Malave-Huertas
F. Felix Bigay
Kristy Crawford
Allen Friedenstab
Katharine Lum
Lindsey Bruce
Lindsey Goodman
Taryn Gallo
Publication date
01-10-2020
Publisher
Springer London
Published in
Journal of Robotic Surgery / Issue 5/2020
Print ISSN: 1863-2483
Electronic ISSN: 1863-2491
DOI
https://doi.org/10.1007/s11701-020-01051-0

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