ABSTRACT
Purpose: Rehabilitation to address modifiable factors associated with chronic hip-related groin pain (CHRGP) may lead to reduced pain and improved function, yet little is known about its effectiveness. We assessed the preliminary effects of two interventions that target two distinct mechanisms, sensory disturbances and abnormal movement patterns. Sensory disturbances such as peripheral and central sensitization may contribute to pain persistence long after initial injury. Joint mobilization (JtMob) may impart a neurophysiological response within the nervous system that results in pain reduction and improved mobility. Abnormal movement patterns may create altered mechanical stresses on hip joint structures, resulting in pain and activity limitations. Movement pattern training (MoveTrain) may improve movement patterns and thus patient function. Method(s): Patients with CHRGP, 18-40, were enrolled. Assessments included self-report questionnaires, clinical exam, and quantitative sensory testing. Outcomes included the Hip disability and Osteoarthritis Outcome Score (HOOS), a patient-reported outcome;frontal plane kinematics of hip, pelvis, and trunk during single leg squat;and pain pressure threshold (PPT) assessed at the anterior groin of the most bothersome hip and dominant thenar eminence (local and generalized pressure hypersensitivity, respectively). Patients were randomized to JtMob or MoveTrain in a 1:1 ratio stratified by sex and HOOS Symptoms. Treatment for both groups included 10 individualized visits over 12 weeks with a trained physical therapist (PT);assessment of patient goals and education which focused on patient-specific tasks reported by the patient to be symptom-producing;instruction in a home exercise program (HEP);and handouts that provided education, description and benefits of assigned treatment and instructions for HEP. The key element of JtMob was PT-provided manual techniques using specific criteria to determine the joint mobilization techniques and parameters used for each patient. The patient's symptom report to each technique was monitored and if indicated, the technique modified according to our outlined procedures. The HEP included flexibility exercises. The key element of MoveTrain was task-specific instruction to correct abnormal movement patterns displayed during daily and patient-specific tasks. For example, hip adduction was minimized during a step descent. The HEP included repeated practice of modified tasks. Task difficulty was progressed based on each patient's performance. Immediately after treatment completion, patients returned for follow up assessment. To assess treatment sustainability after the active treatment phase, we collected HOOS at 6 and 12 months (extended follow-up), and kinematics and PPT at 12 months. Data from patients who provided any data after baseline were analyzed with a repeated measures analysis of variance (RM-ANOVA) with baseline value as a covariate, patient as a random effect, and an autoregressive covariance structure. After adjusting for baseline, the between-group difference in change from post-treatment to each extended follow-up results from pre-planned statistical contrasts in a RM-ANOVA that includes main effects for treatment group, visit and the group by visit interaction. The within-group treatment effect at each extended follow-up was calculated by subtracting the earlier time point from the later follow-up within each treatment group. Dependent samples t-tests were used to assess the degree of within-group change. Result(s): Demographics and outcome data are provided in Tables 1 and 2, respectively. Thirty-three patients with CHRGP were randomized and 29 (88%) provided post-treatment data. Four patients did not complete treatment or post-treatment testing (3 due to COVID pandemic, 1 lost to follow up);6 patients did not complete 12 month laboratory testing (due to pandemic), but did complete 12 month questionnaires. Previously, we reported that both groups reported clinically important improvements in HOOS subscales and MoveTrain group improved hip and pelvis kinematics immediately after treatment compared to baseline. After adjusting for baseline, there were no between-group differences in change in outcomes between post-treatment and extended follow-up when comparing JtMob and MoveTrain, indicating that treatment effects immediately post-treatment were maintained at 12 months after treatment completion. Conclusion(s): Our preliminary findings suggest that 12 weeks of JtMob or MoveTrain, may result in improvements in patient-reported pain and function and these effects may persist 12 months after treatment completion. A future, larger trial to definitively assess the efficacy of JtMob and MoveTrain and identify factors associated with long-term outcomes will improve our ability to develop treatment strategies for people with CHRGP. [Formula presented] [Formula presented]Copyright © 2023