Effects of exercise habituation and aging on the intersegmental coordination of lower limbs during walking with sinusoidal speed change

The time courses of the joint elevation angles of the thigh, shank, and foot in one stride during walking can be well approximated by a "plane" in a triaxial space. This intersegmental coordination (IC) of the lower limb elevation angles is referred to as the planar covariation law. We exa...

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Bibliographic Details
Published in:Journal of physiological anthropology 2022-06, Vol.41 (1), p.24-24, Article 24
Main Authors: Abe, Daijiro, Motoyama, Kiyotaka, Tashiro, Takehiro, Saito, Akira, Horiuchi, Masahiro
Format: Article
Language:English
Subjects:
Adaptability
Aged
Aging
Biomechanical Phenomena
Biomechanics
Erect bipedalism
Exercise
Fitness equipment
Gait
Geriatrics
Habituation
Habituation, Psychophysiologic
Humans
Interlimb coordination
Lack of exercise
Laws, regulations and rules
Limbs
Locomotion
Lower Extremity
Original
Physical fitness
Standard deviation
Walking
Whole-body coordination
Young Adult
Young adults
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Summary:The time courses of the joint elevation angles of the thigh, shank, and foot in one stride during walking can be well approximated by a "plane" in a triaxial space. This intersegmental coordination (IC) of the lower limb elevation angles is referred to as the planar covariation law. We examined the effects of exercise habituation and aging on the thickness of the IC plane of the lower limbs under sinusoidal speed changing conditions. Seventeen sedentary young (SY), 16 active young (AY), and 16 active elderly (AE) adults walked on a treadmill in accordance with a sinusoidal speed changing protocol at 120, 60, and 30 s periods with an amplitude of ± 0.56 m·s . Motion of the lower limbs from the sagittal direction was recorded to calculate the elevation angles of the lower limbs. When the best-fit IC plane was determined, the smallest standard deviation of the IC plane was considered as the anteroposterior gait variability of the lower limbs. The coefficient of variance of the step width was also quantified to evaluate the lateral step variability (CV ). The standard deviation of the IC plane was significantly greater in the order of SY, AY, and AE, regardless of the sinusoidal wave periods of the changing speed. The CV was not significantly different among the three groups. Exercise habituation influences anteroposterior gait variability of the lower limbs, but not lateral step variability, even in young adults. Given these, gait adaptability for sinusoidal speed changes does not always decline with aging. UMIN000031456 ( R000035911 ; registered February 23, 2018).
ISSN:1880-6805
1880-6791
1880-6805
DOI:10.1186/s40101-022-00298-w