The human preference for symmetric walking often disappears when one leg is constrained

Abstract: Key points We hypothesized that minimization of metabolic power could drive people to walk asymmetrically when one leg is constrained We studied healthy young adults and independently constrained one or both step lengths to be markedly shorter or longer than preferred using visual feedback When one leg was constrained to take a shorter or longer step than preferred, asymmetric walking patterns were less metabolically costly than symmetric walking patterns When one leg was constrained to take a shorter or long… Show more

“…The older adults may sacrifice metabolic efficiency in order to maintain symmetry in their balance parameters. Recent work has investigated whether asymmetry in the AP direction is metabolically inefficient 13 , 42 , with mounting evidence suggesting asymmetry is more efficient when one leg is constrained 43 , but to our knowledge metabolic cost of asymmetry in the ML direction has not been studied. However, it is conceivable that the current findings are in line with recent work suggesting step time asymmetry is optimized to reduce metabolic expenditure 44 .…”

Age differences in adaptation of medial-lateral gait parameters during split-belt treadmill walking

“…The older adults may sacrifice metabolic efficiency in order to maintain symmetry in their balance parameters. Recent work has investigated whether asymmetry in the AP direction is metabolically inefficient 13 , 42 , with mounting evidence suggesting asymmetry is more efficient when one leg is constrained 43 , but to our knowledge metabolic cost of asymmetry in the ML direction has not been studied. However, it is conceivable that the current findings are in line with recent work suggesting step time asymmetry is optimized to reduce metabolic expenditure 44 .…”

Age differences in adaptation of medial-lateral gait parameters during split-belt treadmill walking

Reduced joint motion supersedes asymmetry in explaining increased metabolic demand during walking with mechanical restriction

Addressing imperfect symmetry: A novel symmetry-learning actor-critic extension