TY - JOUR
T1 - Changes in mechanical properties of human plantar flexor muscles in ageing
AU - Ochala, Julien
AU - Lambertz, Daniel
AU - Pousson, Michel
AU - Goubel, Francis
AU - Van Hoecke, Jacques
PY - 2004/3
Y1 - 2004/3
N2 - Changes in contractile and elastic properties of human plantar flexor muscles in ageing, were investigated in 12 young (19-24 years, YG) and 11 old (61-74 year, OG) men. Maximal isometric and concentric voluntary torques, at several angular velocities, were measured to construct torque-angular velocity relationship. This led to the calculation of an index of maximal shorting velocity (VImax) at low torque. Two methods were then used to calculate musculotendinous (MT, quick-release movements) and musculoarticular (MA, sinusoidal perturbations) stiffness. In both cases, stiffness was linearly related to torque, leading to the calculation of a stiffness index (SI) as the slope of the stiffness-torque relationship: SIMT and SI MA, respectively. MA stiffness under passive conditions (K p) was also determined. Surface electromyograms were useful to control agonist and antagonist myoelectrical activities. As expected, maximal isometric (P<0.05) and concentric torques (P<0.05), as well as VI max(P<0.05) were lower in OG compared to YG. SIMT values were higher for OG compared to YG (P<0.05), leading to a mean difference of 55%, whereas SIMA and Kp were not significantly different between the two groups. Thus, older men were weaker and exhibited higher SIMT values. These impairments seem to be principally due to muscular atrophy and modifications in both muscle fibre-type distribution and fibre composition, in ageing. Invariance of SIMA and Kp would suggest an adaptive mechanism in articular structures to avoid the continuous integration of the ankle joint stiffness by the central nervous system, what may simplify most daily motor tasks.
AB - Changes in contractile and elastic properties of human plantar flexor muscles in ageing, were investigated in 12 young (19-24 years, YG) and 11 old (61-74 year, OG) men. Maximal isometric and concentric voluntary torques, at several angular velocities, were measured to construct torque-angular velocity relationship. This led to the calculation of an index of maximal shorting velocity (VImax) at low torque. Two methods were then used to calculate musculotendinous (MT, quick-release movements) and musculoarticular (MA, sinusoidal perturbations) stiffness. In both cases, stiffness was linearly related to torque, leading to the calculation of a stiffness index (SI) as the slope of the stiffness-torque relationship: SIMT and SI MA, respectively. MA stiffness under passive conditions (K p) was also determined. Surface electromyograms were useful to control agonist and antagonist myoelectrical activities. As expected, maximal isometric (P<0.05) and concentric torques (P<0.05), as well as VI max(P<0.05) were lower in OG compared to YG. SIMT values were higher for OG compared to YG (P<0.05), leading to a mean difference of 55%, whereas SIMA and Kp were not significantly different between the two groups. Thus, older men were weaker and exhibited higher SIMT values. These impairments seem to be principally due to muscular atrophy and modifications in both muscle fibre-type distribution and fibre composition, in ageing. Invariance of SIMA and Kp would suggest an adaptive mechanism in articular structures to avoid the continuous integration of the ankle joint stiffness by the central nervous system, what may simplify most daily motor tasks.
KW - Ageing
KW - Contractility
KW - Joint stiffness
KW - Musculotendinous stiffness
UR - http://www.scopus.com/inward/record.url?scp=1342286731&partnerID=8YFLogxK
U2 - 10.1016/j.exger.2003.11.004
DO - 10.1016/j.exger.2003.11.004
M3 - Journal article
C2 - 15036394
AN - SCOPUS:1342286731
VL - 39
SP - 349
EP - 358
JO - Experimental Gerontology
JF - Experimental Gerontology
SN - 0531-5565
IS - 3
ER -