Impact of Pilates on Running Mechanics

Study Design and Participants A 12-week randomized controlled trial using a mat-based Pilates core-strengthening exercise program was conducted involving thirty-four young, healthy adults. Twenty men (mean ± SD; height: 171.77 ± 9.42 cm; weight: 72.59 ± 8.99 kg; BMI: 24.99 ± 2.10 kg/m2) and fourteen women (mean ± SD; height: 158.46 ± 2.96 cm; weight: 53.70 ± 2.45 kg; BMI: 21.81 ± 1.37 kg/m2) completed this study. All participants were over 18 and signed a written informed consent document approved by the Institutional Review Board. Inclusion criteria included no history of injury in the preceding six months, no history of lower extremity surgeries, and a generally healthy state. Before involvement in the main trials, each participant's height, body mass, leg length, pelvis, knee, and ankle width were measured according to the motion analysis software computerized model (Vicon Plugin Gait Model, Vicon Motion Inc., Denver, CO).

Procedures Participants reported to the laboratory having refrained from strenuous exercise during the preceding 48 hours. A running protocol was conducted four times during this study: at baseline, and at the fourth, eighth, and twelfth weeks. Participants underwent a standardized warm-up session running at four miles per hour (mph) on a treadmill for five minutes before progressively increasing the intensity to five mph without any inclination for another four minutes. To measure dynamic knee valgus during each session, a 3-dimensional high-speed (240 Hz) system (Vicon Motion Inc., Denver, CO) was used during the running protocol, emphasizing the running cycle's stance phase to measure medial knee displacement. For each participant, 3D kinematics were recorded for the dominant leg throughout the stance phase during the running protocol execution. The dominant leg was defined as the preferred leg to perform a single leg jump. Medial knee displacement was defined as the medial trajectory difference traveled by the knee joint center from initial contact to push-off, identified by two footswitches (500Hz; Delsys, Inc, Boston, MA) placed on the plantar aspect of the calcaneus and hallux. Three-dimensional data and pressure from the footswitches were real-timed synchronized in the motion analysis software (Vicon Nexus software, Vicon Motion Inc., Denver, CO).

Once baseline measurements were recorded, the participants were randomly assigned to either a home-based Pilates intervention or a control group. The Pilates intervention consisted of a warm-up, seven strengthening exercises, and a cool-down. The frequency of the program was three times a week, performing each exercise once for 15 repetitions. Participants in the Pilates group performed their first session with a certified Pilates instructor to ensure appropriate technique was performed. The control group was encouraged to continue their daily routine and not engage in additional physical activity or exercise. At the fourth and eighth weeks, the Pilates program's difficulty level increased by progressing to more challenging exercises.

Data Analysis T-tests were performed at baseline for anthropometrics and valgus variables to ensure both groups were homogenous. A 2 x 4 (group x time) repeated measures ANOVA (RepANOVA) was used to evaluate dynamic knee valgus changes. Group by time interaction and within and between main effects were separately assessed regardless of the interaction being significant based on recommendations by Wei et al. 2012 (Wei et al., 2012). Given the pilot nature of this investigation, an alpha level of p ≥ 0.05 was considered statistically significant for all analyses. SPSS version 26 (IBM SPSS, Armonk, New York) was used for statistical analyses.