Background
Multicenter randomized clinical trials on pelvic floor disorders (PFDs) support evidence-based care. However, many of these studies include homogenous study populations lacking diversity. Heterogeneous sampling allows for greater generalizability while increasing knowledge regarding specific subgroups. The racial/ethnic makeup of key pelvic floor disorder (PFD) trials has not been examined.
Objective
This study aimed to investigate racial/ethnic representation in major PFD clinical trials in comparison to racial/ethnic distribution of PFD in the National Health and Nutritional Examination Survey (NHANES).
Methods
Demographic data were extracted from completed PFD Network (PFDN) and Urinary Incontinence Treatment Network studies, which have resulted in nearly 200 publications. Prevalence of PFD by race/ethnicity was obtained from the NHANES. A representative index (Observed “n” by PFD study/Expected “n” based on the NHANES-reported prevalence) was calculated as a measure of representation. Meta-analyses were performed for each outcome and overall with respect to race/ethnicity.
Results
Eighteen PFDN/Urinary Incontinence Treatment Network studies were analyzed. White women comprised 70%–89% of PFD literature; Black women, 6%–16%; Hispanic women, 9%–15%; Asians, 0.5%–6%; and American Indians, 0%–2%. Representation of White women was higher in 13 of 18 PFDN studies compared with the NHANES prevalence data. Representation of Black women was either decreased or not reported in 10 of 18 index studies compared with the NHANES prevalence data. Hispanic women were absent or underrepresented in 7 of 18 PFDN studies compared with the prevalence data.
Conclusions
Our examination of PFDN and other landmark trials demonstrates inconsistent reporting of minority subgroups, limiting applicability with respect to minority populations. Our study suggests that PFD research would benefit from targeted sampling of minority groups.
BackgroundIncreased tendon production of the inflammatory mediator prostaglandin E2 (PGE2) has been suggested to be a potential etiologic agent in the development of tendinopathy. Repeated injection of PGE2 into tendon has been proposed as a potential animal model for studying treatments for tendinopathy. In contrast, nonsteroidal anti-inflammatory drugs (NSAIDs) which inhibit PGE2 production and are commonly prescribed in treating tendinopathy have been shown to impair the healing of tendon after acute injury in animal models. The contradictory literature suggests the need to better define the functional effects of PGE2 on tendon. Our objective was to characterize the effects of PGE2 injection on the biomechanical and biochemical properties of tendon and the activity of the animals. Our hypothesis was that weekly PGE2 injection to the rat patellar tendon would lead to inferior biomechanical properties.MethodsForty rats were divided equally into four groups. Three groups were followed for 4 weeks with the following peritendinous injection procedures: No injection (control), 4 weekly injections of saline (saline), 4 weekly injections of 800 ng PGE2 (PGE2-4 wks). The fourth group received 4 weekly injections of 800 ng PGE2 initially and was followed for a total of 8 weeks. All animals were injected bilaterally. The main outcome measurements included: the structural and material properties of the patellar tendon under tensile loading to failure, tendon collagen content, and weekly animal activity scores.ResultsThe ultimate load of PGE2-4 wks tendons at 4 weeks was significantly greater than control or saline group tendons. The stiffness and elastic modulus of the PGE2 injected tendons at 8 weeks was significantly greater than the control or saline tendons. No differences in animal activity, collagen content, or mean fibril diameter were observed between groups.ConclusionsFour weekly peritendinous injections of PGE2 to the rat patellar tendon were not found to be an effective model of clinical tendinopathy. In contrast, improved structural and material properties of the patellar tendon were found after PGE2 injection. While PGE2 has been thought to have a contributory role in the development of tendinopathy and anti-inflammatory medications remain a common treatment, our results suggest a positive role of PGE2 in tendon remodeling in some circumstances.
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