Physical activity does not impact mediolateral margin of stability across a range of postural-perturbing conditions in young adults

• Published in: Gait & posture Vol. 96; pp. 236 - 243
• Main Authors: Monaghan, Patrick G., Brinkerhoff, Sarah A., Roper, Jaimie A.
• Format: Journal Article
• Language: English
• Published: England Elsevier B.V 01.07.2022
• Subjects: Balance; Biomechanical Phenomena; Gait; Humans; Perturbation; Postural Balance; Stability; Walking; Walking Speed; Young Adult; Stability; Perturbation; Gait; Balance
• ISSN: 0966-6362; 1879-2219
• DOI: 10.1016/j.gaitpost.2022.05.038

The maintenance of stability during walking is critical for successful locomotion. While targeted balance training can improve stability, it is unclear how simply meeting recommended physical activity guidelines may impact dynamic stability in healthy young adults. Examining the differences in the mediolateral margin of stability (ML-MOS) and the variability of the ML-MOS in physically active and inactive young adults across a range of stability-challenging walking tasks Twenty-one physically active and twenty inactive young adults completed four experimental walking conditions: (1) Overground Walking, (2) Tandem Walking, (3) Beam Walking, and (4) Stepping-Stones. The ML-MOS and coefficient of variation of the ML-MOS were calculated at each heel strike while participants walked at their preferred walking speed. A two-way mixed-effects ANOVA was conducted to examine the effects of group and condition and their interaction on ML-MOS and ML-MOS variability Neither the ML-MOS nor the variability of the ML-MOS was significantly different between physically active and physically inactive young adults during any experimental walking conditions. A significant main effect of the experimental walking condition was observed, with the ML-MOS decreasing from overground walking to the tandem and beam walking conditions. The ML-MOS also became more variable in the tandem, beam, and stepping-stones conditions than in overground gait. Physical activity status did not influence frontal plane dynamic balance in healthy young adults, even in stability-challenging environments. Conditions that constrain step width, such as tandem and beam walking, are adequate for challenging frontal plane dynamic balance and indicate that trunk kinematics may be adjusted when step width is constrained. •Physical activity in young adults does not alter mediolateral dynamic stability.•Stability is lower and more variable during tandem and beam walking in young adults.•Physical activity does not alter stability during stability-demanding tasks.