TY - JOUR
T1 - Vaginal pressure sensor measurement during maximal voluntary pelvic floor contraction correlates with vaginal birth and pelvic organ prolapse—A pilot study
AU - Parkinson, Luke A
AU - Karjalainen, Päivi K
AU - Mukherjee, Shayanti
AU - Papageorgiou, Anthony W
AU - Kulkarni, Mugdha
AU - Arkwright, John W
AU - Young, Natharnia
AU - Werkmeister, Jerome A
AU - Davies-Tuck, Miranda
AU - Gargett, Caroline E
AU - Rosamilia, Anna
PY - 2022/2
Y1 - 2022/2
N2 - Aims: To measure the force applied along the anterior and posterior vaginal walls in a cohort of 46 patients measured by a fiber-optic pressure sensor and determine if this correlates with vaginal parity and pelvic organ prolapse (POP). Methods: An intravaginal fiber-optic sensor measured pressure at nine locations along the anterior and posterior vaginal walls during a maximal voluntary pelvic floor muscle contraction (MVC). An automated probe dilation cycle measured the tissue resistance incorporating the vagina and surrounding anatomy. MVC and resting tissue resistance (RTR) were assessed between subjects grouped by the number of vaginal births and prolapse stage. Results: A previous vaginal birth was associated with a significant threefold decrease in the overall anterior pressure measurement during MVC. Decreased anterior pressure measurements were observed at Sensors 1 and 3 (distal vagina) and, posteriorly at Sensors 4–6 (midvagina). Women with Stage 2 posterior prolapse exhibited a decreased MVC pressure in the midvagina than those with Stage 0/1. In this pilot study, there was no difference in the vaginal wall RTR according to previous vaginal birth or stage of prolapse. Conclusion: This pilot study found that a decrease in vaginal pressure measured during MVC is associated with vaginal birth and with posterior POP. Greater sample size is required to assess the role of resting tissue pressure measurement.
AB - Aims: To measure the force applied along the anterior and posterior vaginal walls in a cohort of 46 patients measured by a fiber-optic pressure sensor and determine if this correlates with vaginal parity and pelvic organ prolapse (POP). Methods: An intravaginal fiber-optic sensor measured pressure at nine locations along the anterior and posterior vaginal walls during a maximal voluntary pelvic floor muscle contraction (MVC). An automated probe dilation cycle measured the tissue resistance incorporating the vagina and surrounding anatomy. MVC and resting tissue resistance (RTR) were assessed between subjects grouped by the number of vaginal births and prolapse stage. Results: A previous vaginal birth was associated with a significant threefold decrease in the overall anterior pressure measurement during MVC. Decreased anterior pressure measurements were observed at Sensors 1 and 3 (distal vagina) and, posteriorly at Sensors 4–6 (midvagina). Women with Stage 2 posterior prolapse exhibited a decreased MVC pressure in the midvagina than those with Stage 0/1. In this pilot study, there was no difference in the vaginal wall RTR according to previous vaginal birth or stage of prolapse. Conclusion: This pilot study found that a decrease in vaginal pressure measured during MVC is associated with vaginal birth and with posterior POP. Greater sample size is required to assess the role of resting tissue pressure measurement.
KW - fiber-optic pressure sensor
KW - parity
KW - pelvic organ prolapse
KW - tissue resistance
KW - vaginal pressure
UR - http://www.scopus.com/inward/record.url?scp=85123890452&partnerID=8YFLogxK
UR - http://purl.org/au-research/grants/NHMRC/1081944
UR - http://purl.org/au-research/grants/NHMRC/1042298
UR - http://purl.org/au-research/grants/NHMRC/1173882
U2 - 10.1002/nau.24882
DO - 10.1002/nau.24882
M3 - Article
C2 - 35094431
AN - SCOPUS:85123890452
SN - 0733-2467
VL - 41
SP - 592
EP - 600
JO - Neurourology and Urodynamics
JF - Neurourology and Urodynamics
IS - 2
ER -