Effects of joint angle and age on ankle dorsi- and plantar-flexor strength.

This study aimed at examining the effects of joint angle and age on the maximal voluntary contraction (MVC) torque, for the agonist and antagonist muscle groups around the ankle, i.e., the dorsi- and plantar-flexors. To this aim, neural and muscular factors were investigated in two groups of healthy men: 11 young (mean age, 24 years) and 18 older (mean age, 78 years). Plantar-flexion (PF) and dorsiflexion (DF) isometric MVC torques were measured in three different ankle joint angles and surface electromyographic activities of the triceps surae and of the tibialis anterior muscles were recorded. The main findings were that the DF-to-PF MVC torque ratio varied with joint angle and age, indicating that aging affected at different rates the two muscle groups: this ratio was always higher in older adults because of the PF strength decline with aging. Furthermore, the DF MVC torque-angle relationship appeared to be especially explained by neural factors, whereas the relationship in PF seemed to be mainly due to muscular parameters. These relationships would not be a discriminating factor between the two age groups. As a consequence, measurements at one ankle joint angle, whatever the angle, are thus enough to examine the differences within age groups and to perform a rapid assessment of the imbalance at the ankle joint.

[1]  Toshio Moritani,et al.  Electromyographic evidence of selective fatigue during the eccentric phase of stretch/shortening cycles in man , 2004, European Journal of Applied Physiology and Occupational Physiology.

[2]  Alain Martin,et al.  Central Versus Peripheral Adaptations Following Eccentric Resistance Training , 2002, International journal of sports medicine.

[3]  J. Duchateau,et al.  Load-dependent muscle strategy during plantarflexion in humans. , 1999, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[4]  J Cholewicki,et al.  Relationship between muscle force and stiffness in the whole mammalian muscle: a simulation study. , 1995, Journal of biomechanical engineering.

[5]  R. Boileau,et al.  Isometric intermittent endurance of four muscle groups in men aged 20-74 yr. , 1996, Medicine and science in sports and exercise.

[6]  Kenneth Meijer,et al.  The effect of age and joint angle on the proportionality of extensor and flexor strength at the knee joint. , 2004, The journals of gerontology. Series A, Biological sciences and medical sciences.

[7]  Carlo J. De Luca,et al.  The Use of Surface Electromyography in Biomechanics , 1997 .

[8]  C. Maganaris,et al.  Calf muscle-tendon properties and postural balance in old age. , 2006, Journal of applied physiology.

[9]  C. Maganaris,et al.  Effect of aging on human muscle architecture. , 2003, Journal of applied physiology.

[10]  J. Duchateau,et al.  Reflex regulation during sustained and intermittent submaximal contractions in humans , 2002, The Journal of physiology.

[11]  B. Freriks,et al.  Development of recommendations for SEMG sensors and sensor placement procedures. , 2000, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[12]  M. Solomonow,et al.  Surface and wire EMG crosstalk in neighbouring muscles. , 1994, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[13]  A. McComas,et al.  Extent of motor unit activation during effort. , 1981, Journal of applied physiology: respiratory, environmental and exercise physiology.

[14]  M. Narici,et al.  Triceps surae muscle power, volume, and quality in older versus younger healthy men. , 2005, The journals of gerontology. Series A, Biological sciences and medical sciences.

[15]  P. Zipp,et al.  Recommendations for the standardization of lead positions in surface electromyography , 1982, European Journal of Applied Physiology and Occupational Physiology.

[16]  Shingo Oda,et al.  Mechanomyographic and electromyographic responses of the triceps surae during maximal voluntary contractions. , 2003, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[17]  T. Kuiken,et al.  A simulation study to examine the use of cross-correlation as an estimate of surface EMG cross talk. , 2003, Journal of applied physiology.

[18]  V R Edgerton,et al.  Specific tension of human plantar flexors and dorsiflexors. , 1996, Journal of applied physiology.

[19]  J. Hayano,et al.  Bed rest attenuates sympathetic and pressor responses to isometric exercise in antigravity leg muscles in humans. , 2004, American journal of physiology. Regulatory, integrative and comparative physiology.

[20]  A J Sargeant,et al.  Changes in the tibialis anterior tendon moment arm from rest to maximum isometric dorsiflexion: in vivo observations in man. , 1999, Clinical biomechanics.

[21]  S. Hunter,et al.  Relationships among age-associated strength changes and physical activity level, limb dominance, and muscle group in women. , 2000, The journals of gerontology. Series A, Biological sciences and medical sciences.

[22]  Strength training alters contractile properties of the triceps brachii in men aged 65–78 years , 2004, European Journal of Applied Physiology and Occupational Physiology.

[23]  A. McComas,et al.  Influence of joint position on ankle plantarflexion in humans. , 1982, Journal of applied physiology: respiratory, environmental and exercise physiology.

[24]  M. Solomonow,et al.  Methods to reduce the variability of EMG power spectrum estimates. , 1998, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[25]  C. Rice,et al.  Normalized force, activation, and coactivation in the arm muscles of young and old men. , 2001, Journal of applied physiology.

[26]  Constantinos N Maganaris A predictive model of moment-angle characteristics in human skeletal muscle: application and validation in muscles across the ankle joint. , 2004, Journal of theoretical biology.

[27]  Theodore F. Towse,et al.  Effects of age on human muscle torque, velocity, and power in two muscle groups. , 2003, Journal of applied physiology.

[28]  E. Kellis Quantification of Quadriceps and Hamstring Antagonist Activity , 1998, Sports medicine.

[29]  Alain Martin,et al.  Muscular performances at the ankle joint in young and elderly men. , 2005, The journals of gerontology. Series A, Biological sciences and medical sciences.

[30]  J. Durnin,et al.  Body fat assessed from total body density and its estimation from skinfold thickness: measurements on 481 men and women aged from 16 to 72 Years , 1974, British Journal of Nutrition.

[31]  A A Vandervoort,et al.  An evaluation of the length-tension relationship in elderly human plantarflexor muscles. , 1997, The journals of gerontology. Series A, Biological sciences and medical sciences.

[32]  F Arabatzi,et al.  Static balance improvement in elderly after dorsiflexors electrostimulation training , 2005, European Journal of Applied Physiology.

[33]  Evaluation of voluntary and elicited dorsiflexor torque-angle relationships. , 1995, Journal of applied physiology.

[34]  J. Fleg,et al.  Muscle quality. I. Age-associated differences between arm and leg muscle groups. , 1999, Journal of applied physiology.

[35]  A A Vandervoort,et al.  Contractile changes in opposing muscles of the human ankle joint with aging. , 1986, Journal of applied physiology.

[36]  Nigel A. S. Taylor,et al.  Static and dynamic assessment of the Biodex dynamometer , 2004, European Journal of Applied Physiology and Occupational Physiology.

[37]  C. Kukulka,et al.  Relationship between muscle length and moment arm on EMG activity of human triceps surae muscle. , 2004, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[38]  M. Narici,et al.  Muscle strength, volume and activation following 12-month resistance training in 70-year-old males , 2005, European Journal of Applied Physiology.

[39]  M Solomonow,et al.  The effect of joint velocity on the contribution of the antagonist musculature to knee stiffness and laxity , 1990, The American journal of sports medicine.

[40]  A. McComas,et al.  Influence of joint position on ankle dorsiflexion in humans. , 1981, Journal of applied physiology: respiratory, environmental and exercise physiology.

[41]  D. Perrin,et al.  Reliability and validity of the Biodex system 3 pro isokinetic dynamometer velocity, torque and position measurements , 2003, European Journal of Applied Physiology.

[42]  A J Sargeant,et al.  Differences in human antagonistic ankle dorsiflexor coactivation between legs; can they explain the moment deficit in the weaker plantarflexor leg? , 1998, Experimental physiology.

[43]  D E Krebs,et al.  Quadriceps muscle strength and dynamic stability in elderly persons. , 1999, Gait & posture.

[44]  A L Hicks,et al.  An evaluation of the length-tension relationship in elderly human ankle dorsiflexors. , 1994, Journal of gerontology.

[45]  R. D'ambrosia,et al.  Muscular coactivation , 1988, The American journal of sports medicine.

[46]  P Capodaglio,et al.  Plantar flexor activation capacity and H reflex in older adults: adaptations to strength training. , 2002, Journal of applied physiology.

[47]  Roberto Merletti,et al.  The extraction of neural strategies from the surface EMG. , 2004, Journal of applied physiology.

[48]  Marco V Narici,et al.  In vivo physiological cross-sectional area and specific force are reduced in the gastrocnemius of elderly men. , 2005, Journal of applied physiology.

[49]  A. Arampatzis,et al.  Effect of ankle joint position and electrode placement on the estimation of the antagonistic moment during maximal plantarflexion. , 2004, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[50]  A. Macaluso,et al.  Contractile muscle volume and agonist‐antagonist coactivation account for differences in torque between young and older women , 2002, Muscle & nerve.

[51]  G. Melchiorri,et al.  A method for positioning electrodes during surface EMG recordings in lower limb muscles , 2004, Journal of Neuroscience Methods.

[52]  C. Klein,et al.  Fatigue and recovery contractile properties of young and elderly men , 2004, European Journal of Applied Physiology and Occupational Physiology.

[53]  C. Maganaris,et al.  Changes in Achilles tendon moment arm from rest to maximum isometric plantarflexion: in vivo observations in man , 1998, The Journal of physiology.

[54]  Alain Martin,et al.  Strength training in old age: Adaptation of antagonist muscles at the ankle joint , 2006, Muscle & nerve.

[55]  R. Woledge,et al.  Muscle weakness in women occurs at an earlier age than in men, but strength is preserved by hormone replacement therapy. , 1993, Clinical science.

[56]  M. Brown,et al.  The relationship of strength to function in the older adult. , 1995, The journals of gerontology. Series A, Biological sciences and medical sciences.

[57]  G. Hunter,et al.  The interrelationship among muscle mass, strength, and the ability to perform physical tasks of daily living in younger and older women. , 2001, The journals of gerontology. Series A, Biological sciences and medical sciences.