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JOURNAL ARTICLE
RESEARCH SUPPORT, N.I.H., EXTRAMURAL
Interactions among pelvic organ protrusion, levator ani descent, and hiatal enlargement in women with and without prolapse.
American Journal of Obstetrics and Gynecology 2017 November
BACKGROUND: Pelvic organ prolapse has 2 components: (1) protrusion of the pelvic organs beyond the hymen; and (2) descent of the levator ani. The Pelvic Organ Prolapse Quantification system measures the first component, however, there remains no standard measurement protocol for the second mechanism.
OBJECTIVE: We sought to test the hypotheses that: (1) difference in the protrusion area is greater than the area created by levator descent in prolapse patients compared with controls; and (2) prolapse is more strongly associated with levator hiatus compared to urogenital hiatus.
STUDY DESIGN: Midsagittal magnetic resonance imaging scans from 30 controls, 30 anterior predominant, and 30 posterior predominant prolapse patients were assessed. Levator area was defined as the area above the levator ani and below the sacrococcygeal inferior pubic point line. Protrusion area was defined as the protruding vaginal walls below the levator area. The levator hiatus and urogenital hiatus were measured. Bivariate analysis and multiple comparisons were performed. Bivariate logistic regression was performed to assess prolapse as a function of levator hiatus, urogenital hiatus, levator area, and protrusion. Pearson correlation coefficients were calculated.
RESULTS: The levator area for the anterior (34.0 ± 6.5 cm2 ) and posterior (35.7 ± 8.0 cm2 ) prolapse groups were larger during Valsalva compared to controls (20.9 ± 7.8 cm2 , P < .0001 for both); similarly, protrusion areas for the anterior (14.3 ± 6.2 cm2 ) and posterior (14.4 ± 5.7 cm2 ) prolapse groups were both larger compared to controls (5.0 ± 1.8 cm2 , P < .0001 for both). The levator hiatus length for the anterior (7.2 ± 1 cm) and posterior (6.9 ± 1 cm) prolapse groups were longer during Valsalva compared to controls (5.2 ± 1.5 cm, P < .0001 for both); similarly, urogenital hiatus lengths for the anterior (5.7 ± 1 cm) and posterior (6.3 ± 1.1 cm) prolapse groups were both longer than controls (3.8 ± 0.8 cm, P < .0001 for both). The difference in levator area in prolapse patients compared with controls was greater than the difference in protrusion area (14.0 ± 7.2 cm2 vs 9.4 ± 5.9 cm2 , P < .0002). The urogenital hiatus was more strongly associated with prolapse than the levator hiatus (odds ratio, 12.9; 95% confidence interval, 4.1-39.2, and odds ratio, 4.3; 95% confidence interval, 2.3-7.5). Levator hiatus and urogenital hiatus are both correlated with levator and protrusion areas, and all were associated with maximum prolapse size (P ≤ .001, for all comparisons).
CONCLUSION: In prolapse, the levator area increases more than the protrusion area and both the urogenital hiatus and levator hiatus are larger. The odds of prolapse for an increase in the urogenital hiatus are 3 times larger than for the levator hiatus, which leads us to reject both the original hypotheses.
OBJECTIVE: We sought to test the hypotheses that: (1) difference in the protrusion area is greater than the area created by levator descent in prolapse patients compared with controls; and (2) prolapse is more strongly associated with levator hiatus compared to urogenital hiatus.
STUDY DESIGN: Midsagittal magnetic resonance imaging scans from 30 controls, 30 anterior predominant, and 30 posterior predominant prolapse patients were assessed. Levator area was defined as the area above the levator ani and below the sacrococcygeal inferior pubic point line. Protrusion area was defined as the protruding vaginal walls below the levator area. The levator hiatus and urogenital hiatus were measured. Bivariate analysis and multiple comparisons were performed. Bivariate logistic regression was performed to assess prolapse as a function of levator hiatus, urogenital hiatus, levator area, and protrusion. Pearson correlation coefficients were calculated.
RESULTS: The levator area for the anterior (34.0 ± 6.5 cm2 ) and posterior (35.7 ± 8.0 cm2 ) prolapse groups were larger during Valsalva compared to controls (20.9 ± 7.8 cm2 , P < .0001 for both); similarly, protrusion areas for the anterior (14.3 ± 6.2 cm2 ) and posterior (14.4 ± 5.7 cm2 ) prolapse groups were both larger compared to controls (5.0 ± 1.8 cm2 , P < .0001 for both). The levator hiatus length for the anterior (7.2 ± 1 cm) and posterior (6.9 ± 1 cm) prolapse groups were longer during Valsalva compared to controls (5.2 ± 1.5 cm, P < .0001 for both); similarly, urogenital hiatus lengths for the anterior (5.7 ± 1 cm) and posterior (6.3 ± 1.1 cm) prolapse groups were both longer than controls (3.8 ± 0.8 cm, P < .0001 for both). The difference in levator area in prolapse patients compared with controls was greater than the difference in protrusion area (14.0 ± 7.2 cm2 vs 9.4 ± 5.9 cm2 , P < .0002). The urogenital hiatus was more strongly associated with prolapse than the levator hiatus (odds ratio, 12.9; 95% confidence interval, 4.1-39.2, and odds ratio, 4.3; 95% confidence interval, 2.3-7.5). Levator hiatus and urogenital hiatus are both correlated with levator and protrusion areas, and all were associated with maximum prolapse size (P ≤ .001, for all comparisons).
CONCLUSION: In prolapse, the levator area increases more than the protrusion area and both the urogenital hiatus and levator hiatus are larger. The odds of prolapse for an increase in the urogenital hiatus are 3 times larger than for the levator hiatus, which leads us to reject both the original hypotheses.
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