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2. Effect of skiing speed on ski and pole forces in cross-country skiing.

Author

Vähäsöyrinki P, Komi PV, Seppälä S, Ishikawa M, Kolehmainen V, Salmi JA, and Linnamo V

Abstract

PURPOSE:: The present study characterized pole and ski forces in classical technique cross-country skiing. Eight elite junior cross-country skiers performed diagonal skiing at 65%, 75%, 90%, and 100% of maximum speed on a stable 100-m-low uphill (2.5 degrees ). METHOD:: The ski and the pole forces (vertical (Fz) and horizontal (Fy) directions) on the right and left sides were recorded separately when the skier skied over a special custom-made force platform system placed at the end of the uphill course. The entire system consisted of four separate 20-m-long rows of 1-m-long force plates connected in series, row by row. RESULTS:: When the forces were averaged for the various functional phases of skiing cycle, the ski Fz during the gliding phase decreased and the braking ski Fy and Fz remained the same with higher skiing speed. During the subsequent kick phase, both ski Fy and Fz increased significantly as a function of the skiing speed. Consequently, the Fy ratio between the ski and the pole plant increased with faster skiing speed. Simultaneously measured EMGs from five different muscles showed that the abdominals had a pattern of increasing activation with increase in speed of skiing. All the other muscles, vastus lateralis (VL), rectus femoris (RF), erector spinae (ES), and medial gastrocnemius (MG), were obviously active in the preloading and the kick phases. CONCLUSIONS:: The speed dependence of the ski and the pole force distributions in the present study are important for further understanding of the complexity of cross-country skiing. Especially relevant is to use these results as basis for studies aimed at better understanding of the propulsive force production, when more comprehensive EMG analysis is complemented with simultaneous kinematic recordings at varied slope, speed, and waxing conditions. [ABSTRACT FROM AUTHOR]

Published
2008
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4. Effects of muscle - tendon length on joint moment and power during sprint starts.

Author

Mero A, Kuitunen S, Harland M, Kyröläinen H, and Komi PV

Abstract

The aim of this study was to examine the effects of muscle-tendon length on joint moment and power during maximal sprint starts. Nine male sprinters performed maximal sprint starts from the blocks that were adjusted either to 40 degrees or 65 degrees to the horizontal. Ground reaction forces were recorded at 833 Hz using a force platform and kinematic data were recorded at 200 Hz with a film camera. Joint moments and powers were analysed using kinematic and kinetic data. Muscle - tendon lengths of the medial gastrocnemius, soleus, vastus medialis, rectus femoris and biceps femoris were calculated from the set position to the end of the first single leg contact. The results indicated that block velocity (the horizontal velocity of centre of mass at the end of the block phase) was greater (P < 0.01) in the 40 degrees than in the 65 degrees block angle condition (3.39 +/- 0.23 vs. 3.30 +/- 0.21 m . s(-1)). Similarly, the initial lengths of the gastrocnemius and soleus of the front leg in the block at the beginning of force production until half way through the block phase were longer (P < 0.001) in the 40 degrees than in the 65 degrees block angle condition. The initial length and the length in the middle of the block phase were also longer in the 40 degrees than in the 65 degrees block angle condition both for both the gastrocnemius (P < 0.01) and soleus (P < 0.01-0.05) of the rear leg. In contrast, the initial lengths of the rectus femoris and vastus medialis of the front leg were longer (P < 0.05) in the 65 degrees than in the 40 degrees block angle condition. All differences gradually disappeared during the later block phase. The peak ankle joint moment (P < 0.01) and power (P < 0.05) during the block phase were greater in the 40 degrees than in the 65 degrees block angle condition for the rear leg. The peak ankle joint moment during the block phase was greater (P < 0.05) in the 40 degrees block angle for the front leg, whereas the peak knee joint moment of the rear leg was greater (P < 0.01) in the 65 degrees block angle condition. The results suggest that the longer initial muscle-tendon lengths of the gastrocnemius and soleus in the block phase at the beginning of force production contribute to the greater peak ankle joint moment and power and consequently the greater block velocity during the sprint start. [ABSTRACT FROM AUTHOR]

Published
2006
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12. Leucine supplementation and serum amino acids, testosterone, cortisol and growth hormone in male power athletes during training.

Author

Mero A, Pitkanen H, Oja SS, Komi PV, Pontinen P, and Takala T

Abstract

OBJECTIVE: The purpose of the present study was to examine the effects of leucine supplementation on the amino acid and hormone profile during training. EXPERIMENTAL DESIGN: The study was a randomised double-blind cross-over study during 10 weeks of training. SETTING: The study occurred during a sport training period. PARTICIPANTS: Twenty adult male track and field power athletes finished the study. INTERVENTIONS: The subjects were given leucine (50.0 +/- 3.3 mg/ kg body weight per day) or placebo tablets. MEASUREMENTS: The measurements were carried out before, in the middle of, and after 10 weeks. RESULTS: The serum leucine concentration decreased significantly (p < 0.05) in the placebo group, by 20.1% (from 189 +/- 45 to 151 +/- 21 mumol/l) during the first 5 weeks, but not during the second 5 weeks (180 +/- 61 vs 154 +/- 23 mumol/l). When leucine was taken there were no changes in the serum leucine concentration. The total serum amino acid pool decreased significantly (p < 0.01) in all subjects, by 21.2% during the 10-week training period. The decrease occurred mostly during the first 5 weeks. Glutamine decreased (37.1%; p < 0.01) most of the single amino acids. The serum testosterone concentration increased by 20.7% (p < 0.05) and the serum cortisol concentration by 8.0% (p < 0.05) in all subjects during the first 5 weeks. During the second 5 weeks the testosterone concentration decreased by 19.0% (p < 0.001). CONCLUSIONS: The present findings indicate that on a daily protein intake of 1.26 g/kg body weight the serum concentrations of amino acids are lowered considerably and earlier than the decrease in the serum testosterone concentration during the training season in adult male power athletes. The leucine supplementation of 50 mg/kg body weight per day appears to prevent the decrease in the serum leucine concentration during intensive training. [ABSTRACT FROM AUTHOR]

Published
1997

14. Mechanical efficiency of pure positive and pure negative work with special reference to the work intensity

Author

Aura O and Komi Pv

Subjects
Male, Leg, Knee Joint, Electromyography, Work (physics), Physical Exertion, Energy metabolism, Physical Therapy, Sports Therapy and Rehabilitation, Negative work, Efficiency, Concentric, Omega, Models, Biological, Biomechanical Phenomena, Animal science, Eccentric exercise, Work Intensity, Eccentric, Humans, Orthopedics and Sports Medicine, Energy Metabolism, Mathematics
Abstract

The mechanical efficiencies of pure positive (eta) and pure negative (eta-) work were investigated on a special "sledge ergometer" with 25 and 36 subjects, respectively. The work intensities varied in positive work between 40% and 90% and in negative work from 30% to 120% of the maximum concentric exercise. In 54 exercises of positive work, eta was 17.1% +/- 2.2%, and its value correlated negatively with the work intensity (r = 0.367, P less than 0.01) and with the average knee angular velocity, omega+ (r = 0.359, P less than 0.01). In 103 eccentric exercises, eta- was on the average 80.2% +/- 31.8%, correlating positively with the work intensity (r = 0.396, P less than 0.01). Both inter- and intrasubject variations were large (32%-163%). The integrated electrical activity (IEMG) of the leg extensor muscles increased with an increase of work intensity both in the positive and in the negative work situations. Less efficient MU recruitment in higher positive work rates is suggested to be the reason for the decrease in eta, whereas better stiffness regulation via increased preactivation is speculated to cause high values of eta- in higher work intensities in eccentric exercise.

Published
1986

15. Training of muscle strength and power: interaction of neuromotoric, hypertrophic, and mechanical factors

Author

Komi Pv

Subjects
Adult, Male, medicine.medical_specialty, Physical Education and Training, Time Factors, medicine.diagnostic_test, Adolescent, business.industry, Electromyography, Muscles, Physical Exertion, Training (meteorology), Physical Therapy, Sports Therapy and Rehabilitation, Isometric exercise, Power (physics), Physical medicine and rehabilitation, Isometric Contraction, medicine, Muscle strength, Humans, Orthopedics and Sports Medicine, business
Published
1986

17. Achilles tendon length changes during walking in long-term diabetes patients.

Author

Cronin NJ, Peltonen J, Ishikawa M, Komi PV, Avela J, Sinkjaer T, and Voigt M

Abstract

BACKGROUND: Diabetes leads to numerous side effects, including an increased density of collagen fibrils and thickening of the Achilles tendon. This may increase tissue stiffness and could affect stretch distribution between muscle and tendinous tissues during walking. The primary aim of this study was to examine stretch distribution between muscle and tendinous tissues in the medial gastrocnemius muscle-tendon unit in long-term diabetes patients and control subjects during walking. METHODS: Achilles tendon length changes were investigated in 13 non-neuropathic diabetes patients and 12 controls, whilst walking at a self selected speed across a 10 m force platform. Electromyographic activity was recorded in the medial gastrocnemius, soleus and tibialis anterior muscles, goniometers were used to detect joint angle changes, and ultrasound was used to estimate tendon length changes. FINDINGS: Achilles tendon length changes were attenuated in diabetes patients compared to controls, and were inversely correlated with diabetes duration (r=-0.628; P<0.05), as was ankle range of motion (r=-0.693; P<0.01). Tendon length changes were also independent of walking speed (r=-0.299; P=0.224) and age (r=0.115; P=0.721) in the diabetic group. INTERPRETATION: Stretch distribution between muscle and tendon during walking is altered in diabetic patients, which could decrease walking efficiency, a factor that may be exacerbated with increasing diabetes duration. Diabetes-induced changes in mechanical tendon properties may be at least partly responsible for attenuated tendon length changes during walking in this patient group. [ABSTRACT FROM AUTHOR]

Published
2010
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18. Analysis of the men's 100m freestyle at the 1996 Atlanta Paralympic Games

Author

Daly, Daniel, Malone, LA, Vanlandewijck, Yves, Steadward, RD, Keskinen, KL, Komi, PV, and Hollander, AP

Subjects
education, human activities
Abstract

ispartof: Biomechanics and medicine in swimming III. Proceedings of the VIII International Symposium on Biomechanics and Medicine in Swimming, Jyväskylä, 1998 pages:309-314 ispartof: pages:309-314 ispartof: Biomechanics and Medicine in Swimming date:Jun - Jun 1998 status: published

Published
1999

19. Muscle-tendon architecture in Kenyans and Japanese: Potential role of genetic endowment in the success of elite Kenyan endurance runners.

Author

Kunimasa Y, Sano K, Oda T, Nicol C, Komi PV, and Ishikawa M

Subjects
Adult, Child, Humans, Japan, Kenya, Male, Muscle, Skeletal physiology, Achilles Tendon, Financial Management
Abstract

Aim: The specificity of muscle-tendon and foot architecture of elite Kenyan middle- and long-distance runners has been found to contribute to their superior running performance. To investigate the respective influence of genetic endowment and training on these characteristics, we compared leg and foot segmental lengths as well as muscle-tendon architecture of Kenyans and Japanese males (i) from infancy to adulthood and (ii) non-athletes versus elite runners., Methods: The 676 participants were divided according to their nationality (Kenyans and Japanese), age (nine different age groups for non-athletes) and performance level in middle- and long-distance races (non-athlete, non-elite and elite adult runners). Shank and Achilles tendon (AT) lengths, medial gastrocnemius (MG) fascicle length, pennation angle and muscle thickness, AT moment arm (MA AT ), and foot lever ratio were measured., Results: Above 8 years old, Kenyans had a longer shank and AT, shorter fascicle, greater pennation angle, thinner MG muscle as well as longer MA AT , with lower foot lever ratio than age-matched Japanese. Among adults of different performance levels and independently of the performance level, Kenyans had longer shank, AT and MA AT , thinner MG muscle thickness, and lower foot lever ratio than Japanese. The decrease in MG fascicle length and increase pennation angle observed for the adult Japanese with the increase in performance level resulted in a lack of difference between elite Kenyans and Japanese., Conclusion: The specificity of muscle-tendon and foot architecture of elite Kenyan runners could result from genetic endowment and contribute to the dominance of Kenyans in middle- and long-distance races., (© 2022 Scandinavian Physiological Society. Published by John Wiley & Sons Ltd.)

Published
2022
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20. Muscle-Tendon Interaction During Human Dolphin-Kick Swimming.

Author

Sano K, Sakamoto T, Nishimura R, Danno Y, Komi PV, and Ishikawa M

Abstract

Without high impact forces, it is not clear how humans can utilize tendon elasticity during low-impact activities. The purpose of the present study was to examine the muscle-tendon behavior together with the electromyographic (EMG) activities of the vastus lateralis (VL) muscle during the human dolphin-kicking. In a swimming pool, each subject ( n = 11) swam the 25 m dolphin-kicking at two different speeds (NORMAL and FAST). Surface EMGs were recorded from the VL and biceps femoris (BF) muscles. Simultaneous recordings of the knee joint angle by electro-goniometer and of the VL fascicle length by ultrasonography were used to calculate the muscle-tendon unit and tendinous length of VL (L MTU and L TT , respectively). In the dolphin-kicking, the stretching and shortening amplitudes of VL L MTU did not differ significantly between the two kicking speed conditions. However, both stretching and shortening amplitudes of the VL fascicle length were lower at FAST than at NORMAL speed whereas the opposite was found for the VL L TT values. At FAST, the contribution of the VL tendinous length to the entire VL MTU length changes increased. The EMG analysis revealed at FAST higher agonist VL activation from the late up-beat (MTU stretching) to the early down-beat phases as well as increased muscle co-activation of VL and BF muscles from the late down-beat to early up-beat phases of dolphin-kicking. These results suggest that at increasing kicking speeds, the VL fascicles and tendinous tissues during aquatic movements can utilize tendon elasticity in a similar way than in terrestrial forms of locomotion. However, these activation profiles of VL and BF muscles may differ from their activation pattern in terrestrial locomotion., (Copyright © 2019 Sano, Sakamoto, Nishimura, Danno, Komi and Ishikawa.)

Published
2019
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21. Neuromechanical Modulation of the Achilles Tendon During Bilateral Hopping in Patients with Unilateral Achilles Tendon Rupture, Over 1 Year After Surgical Repair.

Author

Oda H, Sano K, Kunimasa Y, Komi PV, and Ishikawa M

Subjects
Achilles Tendon physiopathology, Electromyography, Humans, Range of Motion, Articular, Recovery of Function, Rupture, Tendon Injuries rehabilitation, Treatment Outcome, Achilles Tendon injuries, Achilles Tendon surgery, Muscle Contraction physiology, Muscle, Skeletal physiopathology, Tendon Injuries surgery
Abstract

Background: Patients who have had an Achilles tendon (AT) rupture repaired are potentially at higher risk for re-rupture than those without previous rupture. Little attention has been given to the neuromechanical modulation of muscle-tendon interaction and muscle activation profiles during human dynamic movements after AT rupture repair., Objective: The purpose of this study was to examine muscle-tendon behavior and muscle activation during bilateral hopping., Methods: We enrolled nine subjects who had undergone surgical repair of unilateral AT rupture within the past 1-2 years. Subjects performed bilateral hopping while we took ultrasound, kinematic, and electromyogram recordings and measurements. AT behaviors were also recorded. We then compared responses between values obtained from the ruptured AT leg (LEG ATR ) and non-ruptured AT leg (LEG NOR )., Results: During hopping, the AT stretching amplitudes were greater in the LEG ATR than in the LEG NOR , although the peak AT force and stiffness were smaller in the LEG ATR than in the LEG NOR . The AT negative mechanical work did not show any significant differences between both legs. However, positive works were significantly lower in the LEG ATR than in the LEG NOR . Electromyogram patterns in both soleus and tibialis anterior muscles clearly differed after ground contact for the LEG ATR and the LEG NOR ., Conclusions: These results suggest that the repaired ruptured AT can be compliant and have insufficient Young's modulus, which can influence mechanical responses in muscle activities. The modulation of agonist-antagonist muscle activities corresponding to the different levels of stiffness between the LEG ATR and the LEG NOR may not be fully functioning during the pre-activation phase.

Published
2017
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22. Age-specific neuromuscular interaction during elderly habitual running.

Author

Sano K, Akiyama M, Hoffrén-Mikkola M, Ito A, Komi PV, and Ishikawa M

Subjects
Adolescent, Adult, Aged, Aging, Electromyography methods, Female, Habits, Humans, Leg innervation, Leg physiology, Male, Middle Aged, Movement physiology, Tendons physiology, Young Adult, Muscle Contraction physiology, Muscle, Skeletal innervation, Muscle, Skeletal physiology, Running physiology
Abstract

Aim: It has been reported that advancing age causes tendons to become more compliant and fascicles length shorter. This could then lead to enhancement of movement efficiency provided that the elderly adults can activate their muscles in the same way as the younger adults (YOUNG) during dynamic movements. This study was designed to examine the age-specific behaviour of the medial gastrocnemius (MG) fascicles and tendinous tissues together with lower-leg muscle activities when the well-trained elderly runners ran on the treadmill at preferred speeds., Methods: The well-trained 11 elderly subjects (ELD) who have running experiences and 11 YOUNG were recruited as subjects. While ELD were running on the treadmill at their preferred speed, the lengths of the MG fascicles and tendinous tissues (Lfa and LTT respectively) were measured by ultrasonography together with kinematics and lower-leg muscle activities., Results: Although the behaviour of the MG muscle-tendon unit did not show any significant differences between both groups during the contact, our results showed significant differences in fascicle-tendinous tissue behaviour as well as muscle activities. The LTT during the entire contact phase was greater in ELD than in YOUNG (P < 0.001). Co-activation of lower-leg muscles from pre-activation to braking phases was higher in ELD than in YOUNG (P < 0.01). The changes of the Lfa during contact were less, and the LTT shortening was greater in ELD than in YOUNG (P < 0.001)., Conclusion: These results imply that ELD cannot activate their muscles similar to YOUNG during running, and those different activities may modify the Lfa to utilize the tendon elasticity effectively., (© 2015 Scandinavian Physiological Society. Published by John Wiley & Sons Ltd.)

Published
2015
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23. Neuromuscular mechanics and hopping training in elderly.

Author

Hoffrén-Mikkola M, Ishikawa M, Rantalainen T, Avela J, and Komi PV

Subjects
Aged, Biomechanical Phenomena physiology, Electromyography, Humans, Male, Achilles Tendon physiology, Ankle Joint physiology, Exercise physiology, Muscle Contraction physiology, Muscle, Skeletal physiology
Abstract

Purpose: The present study examined the effects of repetitive hopping training on muscle activation profiles and fascicle-tendon interaction in the elderly., Methods: 20 physically active elderly men were randomly assigned for training (TG) and control groups (CG). TG performed supervised bilateral short contact hopping training with progressively increasing training volume. Measurements were performed before the training period (BEF) as well as after 2 weeks (2 W) and 11 weeks (11 W) of training. During measurements, the gastrocnemius medialis-muscle (GaM) fascicle and its outer Achilles tendon length changes during hopping were examined by ultrasonography together with electromyographic (EMG) activities of calf muscles, kinematics, and kinetics., Results: At 2 W, the ankle joint stiffness was increased by 21.0 ± 19.3 % and contact time decreased by 9.4 ± 7.8 % in TG. Thereafter, from 2-11 W the jumping height increased 56.2 ± 18.1 % in TG. Simultaneously, tendon forces increased 24.3 ± 19.0 % but tendon stiffness did not change. GaM fascicles shifted to shorter operating lengths after training without any changes in their length modifications during the contact phase of hopping. Normalized EMG amplitudes during hopping did not change with training., Conclusions: The present study shows that 11 W of hopping training improves the performance of physically active elderly men. This improvement is achieved with shorter GaM operating lengths and, therefore, increased fascicle stiffness and improved tendon utilization after training. Based on these results, hopping training could be recommended for healthy fit elderly to retain and improve rapid force production capacity.

Published
2015
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24. Can measures of muscle-tendon interaction improve our understanding of the superiority of Kenyan endurance runners?

Author

Sano K, Nicol C, Akiyama M, Kunimasa Y, Oda T, Ito A, Locatelli E, Komi PV, and Ishikawa M

Subjects
Adolescent, Asian People, Athletes, Humans, Leg physiology, Male, Muscle Contraction, Muscle, Skeletal anatomy & histology, Physical Endurance, Tendons anatomy & histology, Young Adult, Athletic Performance, Black People, Muscle, Skeletal physiology, Running physiology, Tendons physiology
Abstract

Purpose: Leg muscle activation profiles and muscle-tendon interaction were studied with eleven internationally high-level Kenyan and eleven national level Japanese distance runners., Methods: Ultrasonography and kinematics were applied together with surface electromyography (EMG) recordings of leg muscles when subjects ran on treadmill at 9.0 (SLOW) and 13.9 km h(-1) (MEDIUM)., Results: At each speed, both groups presented similar contact and flight times. The kinematic and ultrasound analyses revealed that, in contrast to the Japanese runners, the Kenyans demonstrated during contact smaller stretching and shortening amplitudes (p < 0.01) of the tendinous tissue of medial gastrocnemius (MG), but greater tendon contribution to the muscle-tendon unit shortening (p < 0.05). The MG fascicles of the Kenyans were shorter not only at the resting standing position, but also during the contact phase at both running speeds (p < 0.01). The EMG profiles of the Kenyans showed lower braking/preactivation ratio in both MG and tibialis anterior (p < 0.05) muscles. They were also characterized by negative relationships between the Achilles tendon moment arm and the MG fascicle shortening during contact (r = -0.54, p < 0.01). In contrast, the Japanese presented the classical stretch-shortening cycle muscle activation profile of relatively high MG EMG activity during the braking phase., Conclusion: These findings provide new suggestions that the Kenyans have unique structural characteristics which can result in the reduction of muscle and tendinous stretch-shortening loading together with smaller muscle activation during contact at submaximal running speed.

Published
2015
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25. Motor unit discharge rate in dynamic movements of the aging soleus.

Author

Kallio J, Søgaard K, Avela J, Komi PV, Selänne H, and Linnamo V

Abstract

Aging is related to a variety of changes at the muscular level. It seems that the age-related changes in motor unit activation are muscle- and intensity dependent. The purpose of this study was to examine the motor unit discharge rate (MUDR) in both isometric and dynamic contractions of the aging soleus muscle. Eight elderly males participated in the study. The subjects performed isometric and dynamic plantar flexions while seated in an ankle dynamometer. The force levels studied were 10, 20, 40, 60, 80 and 100% of the isometric (ISO) maximal voluntary contractions (MVC) in ISO and 10, 20 and 40% in concentric (CON) and eccentric (ECC) contractions. Soleus intramuscular EMG was recorded with bipolar fine-wire electrodes and decomposed to individual trains of motor unit discharges. In ISO the MUDR increased with each force level from 40 to 100% MVC. In dynamic contractions the descriptive analysis showed a higher MUDR in CON compared to ISO or ECC. The difficulties of recording single motor units in dynamic contractions, especially in the elderly is discussed.

Published
2014
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26. Specific muscle-tendon architecture in elite Kenyan distance runners.

Author

Kunimasa Y, Sano K, Oda T, Nicol C, Komi PV, Locatelli E, Ito A, and Ishikawa M

Subjects
Achilles Tendon diagnostic imaging, Adolescent, Adult, Anatomic Landmarks, Biomechanical Phenomena, Foot physiology, Humans, Japan, Kenya, Leg anatomy & histology, Leg diagnostic imaging, Muscle, Skeletal diagnostic imaging, Ultrasonography, Young Adult, Achilles Tendon anatomy & histology, Achilles Tendon physiology, Athletic Performance physiology, Muscle, Skeletal anatomy & histology, Running physiology
Abstract

The Achilles tendon moment arm (MA&#95;AT) and foot lever ratio (FLR) can play important roles for force production and movement economy during locomotion. This notion has become more relevant, and suggestion has been given that the Kenyan runners belonging to the world elite would have specific anatomical, mechanical, and functional properties in their lower limbs and that this feature could be responsible for their high running economy. The present study aimed to characterize the AT of elite Kenyan distance runners as compared with Japanese ones, and to examine the potential relationship with their running performance. Ultrasonography was used to measure AT cross-sectional area and AT soleus and gastrocnemius lengths. MA&#95;AT and FLR were calculated from the position of anatomical landmarks using sagittal plane photographs. MA&#95;AT was significantly longer and the FLR lower in Kenyans than in Japanese. Independently of the group, the running performance was positively related to the MA&#95;AT (r = 0.55, P < 0.001) and negatively to the FLR (r = -0.45, P = 0.002). These results suggest that longer MA&#95;AT and lower FLR could be advantageous in elite Kenyan runners, by contributing to effective endurance running performance in a protective and economical way.

Published
2014
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27. Muscle-tendon interaction and EMG profiles of world class endurance runners during hopping.

Author

Sano K, Ishikawa M, Nobue A, Danno Y, Akiyama M, Oda T, Ito A, Hoffrén M, Nicol C, Locatelli E, and Komi PV

Subjects
Achilles Tendon diagnostic imaging, Adult, Athletes, Black People, Electromyography, Humans, Kenya, Lower Extremity diagnostic imaging, Lower Extremity physiology, Male, Muscle, Skeletal diagnostic imaging, Ultrasonography, Achilles Tendon physiology, Muscle, Skeletal physiology, Running physiology
Abstract

The present study examined the muscle-tendon interaction of ten international level Kenyan runners. Ultrasonography and kinematics were applied together with EMG recordings of lower limb muscles during repetitive hopping performed at maximal level. The ten Kenyans had longer gastro Achilles tendon at rest (p < 0.01) as compared with ten control subjects matched in height. Conversely, the stretching and shortening amplitudes of the tendinous tissues of the medial gastrocnemius (MG) muscle were significantly smaller in the Kenyans than in controls during the contact phase of hopping. This applied also to the fascicle length changes, which were smaller and more homogeneous among Kenyans. These limited musculo-tendinous changes resulted in higher maximal hopping height and in larger power despite their reduced body weight. The associated finding of a greater shortening to stretching ratio of the MG tendinous tissues during contact could imply that the Kenyan MG muscle-tendon unit is optimized to favor efficient storage and recoil of elastic energy, while operating at optimal muscle fascicle working range (plateau region).

Published
2013
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28. Motor unit firing behaviour of soleus muscle in isometric and dynamic contractions.

Author

Kallio J, Søgaard K, Avela J, Komi PV, Selänne H, and Linnamo V

Subjects
Adult, Humans, Male, Torque, Isometric Contraction physiology, Motor Neurons physiology, Muscle Contraction physiology, Muscle, Skeletal physiology
Abstract

Introduction: Understanding the detailed control of human locomotion and balance can be improved, when individual motor units can be isolated and their firing rates followed in natural movement of large, fuctionally important muscles. For this reason the present study investigated the motor unit discharge rate (MUDR) in isometric and dynamic contractions of the soleus muscle., Methods: Eleven males performed isometric (10-100% MVC) and dynamic (10-40% MVC) plantar flexions. Intramuscular EMG was measured from Soleus with bipolar wire-electrodes and decomposed with custom built "Daisy" software., Results: The Soleus MUDR was significantly higher in concentric compared to isometric or eccentric contractions at all submaximal force levels (P<0.05). In isometric contractions MUDR increased up to 100% MVC., Conclusion: Motor unit discharge properties of a large plantarflexor can be measured in dynamic and maximal contractions. For a given torque output, MUDR is dependent upon contraction type, as set by the major mechanical differences between concentric and eccentric actions.

Published
2013
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29. Age-related fascicle-tendon interaction in repetitive hopping.

Author

Hoffrén M, Ishikawa M, Avela J, and Komi PV

Subjects
Adult, Age Factors, Aged, Biomechanical Phenomena, Case-Control Studies, Exercise physiology, Humans, Leg diagnostic imaging, Leg physiology, Male, Muscle, Skeletal diagnostic imaging, Tendons diagnostic imaging, Ultrasonography, Locomotion physiology, Muscle, Skeletal physiology, Tendons physiology
Abstract

Increasing age can influence the interaction of muscle fascicles and tendon during dynamic movements. The object of the present study was to examine occurrence and possible reasons for the age-specific behavior of fascicles and tendons and their interaction during hopping with different intensities. Nine young and 24 elderly subjects performed repetitive hopping with maximal effort as well as with 50, 65, 75 and 90 % intensities. During hopping joint kinematics and ground reaction, forces were measured together with recordings of ultrasound images of both the fascicle and the muscle-tendon junction part of the gastrocnemius medialis (GaM) muscle. The results showed that fascicle behavior during the braking phase of hopping was clearly age specific in nature with more fascicle shortening in the young (p < 0.001). In addition, the fascicle shortening increased in young subjects with increasing intensity (p < 0.05). At the instant of ground contact, the elderly subjects demonstrated decreased fascicle length with increasing hopping intensity (p < 0.01). Thereafter in the braking phase, the elderly showed much smaller changes in fascicle length as compared to the young. In contrast to the fascicles, the GaM outer tendon did not show major age-specific differences in stretching and shortening amplitudes during hopping although the peak tendon forces were clearly lower in the elderly (p < 0.001). These results suggest that GaM outer tendon behavior is not influenced greatly with increasing age. It is further suggested that when aging modifies the fascicle-tendon interaction, it is primarily due to the age-specific difference in the fascicle level. This notion poses a question that as compared to the young, the elderly individuals may have a different fascicle behavior for optimal SSC locomotion such as hopping.

Published
2012
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30. Leg and joint stiffness in human hopping.

Author

Kuitunen S, Ogiso K, and Komi PV

Subjects
Adult, Biomechanical Phenomena, Electromyography, Humans, Male, Muscle Contraction physiology, Physical Exertion physiology, Task Performance and Analysis, Young Adult, Ankle Joint physiology, Elasticity physiology, Knee Joint physiology, Leg physiology, Movement physiology, Range of Motion, Articular physiology
Abstract

The present study investigated the regulation of leg and joint stiffness in hopping at different intensity levels. Eight male subjects performed bilateral hopping at various intensity levels that were determined by peak vertical ground reaction force (GRF). In addition to the GRF, the measurements included hopping kinematics and electromyography (EMG) of selected leg muscles. While the leg and ankle joint stiffness remained invariant, the knee joint stiffness increased significantly (P<0.01) with the hopping intensity. EMG analysis revealed a significant increase in averaged EMG for all the measured muscles before and during the early phase of ground contact (P<0.05-0.001) with increasing hopping intensity. However, only the vastus lateralis muscle showed significant increase in stretch reflex EMG with increasing hopping intensity (P<0.01). The present study indicates that in hopping with short contact time the leg stiffness modulation is sensitive to changes in ankle joint stiffness and the role of knee joint stiffness is to regulate the jumping performance (height). Furthermore, our results suggest that leg and joint stiffness in hopping is mainly adjusted by centrally programmed motor commands and the contribution of stretch reflexes to muscle force output is muscle-dependent., (© 2010 John Wiley & Sons A/S.)

Published
2011
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31. Resistance exercise-induced hormonal response under the influence of delayed onset muscle soreness in men and boys.

Author

Pullinen T, Mero A, Huttunen P, Pakarinen A, and Komi PV

Subjects
Adolescent, Adult, Epinephrine blood, Exercise Test methods, Humans, Hydrocortisone blood, Isometric Contraction physiology, Male, Muscle Fatigue physiology, Norepinephrine blood, Quadriceps Muscle metabolism, Testosterone blood, Young Adult, Androgens blood, Growth Hormone blood, Pain metabolism, Quadriceps Muscle injuries, Resistance Training
Abstract

It was hypothesized that exercise-induced muscle damage (EIMD)-related alterations in hormonal responses could be observed if a second exercise bout is performed soon after an identical unaccustomed bout leading to delayed onset muscle soreness (DOMS). Eight men (31 ± 7 years) and eight boys (14 ± 0 years) performed two exercise bouts (E1 and E2, with 48 h rest in between) consisting of three sets of bilateral knee extensions until exhaustion with 40% load. No differences between the groups or bouts were observed in the number of repetitions performed and maximal isometric force decline, or between groups in serum creatine kinase activity and DOMS. Decreased peak epinephrine (EPI) (-38%), growth hormone (GH) (-45%) and cortisol (COR) (-31%) concentrations were found in E2 in men (P<0.05). In men, the peak GH concentration was also lower in E2 and COR was higher in both bouts than in boys. No changes in norepinephrine and testosterone responses were found in either group. The results suggest that in men, the responses of EPI, GH and COR are attenuated when the second bout is performed under the influence of DOMS. In boys, the lack of this attenuation may not be explained by less severe EIMD., (© 2010 John Wiley & Sons A/S.)

Published
2011
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32. Three-month bilateral hopping intervention is ineffective in initiating bone biomarker response in healthy elderly men.

Author

Rantalainen T, Hoffrén M, Linnamo V, Heinonen A, Komi PV, Avela J, and Nindl BC

Subjects
Aged, Aging blood, Aging metabolism, Aging physiology, Alkaline Phosphatase blood, Alkaline Phosphatase metabolism, Biomarkers blood, Collagen Type I blood, Collagen Type I metabolism, Humans, Male, Movement physiology, Peptides blood, Peptides metabolism, Postural Balance physiology, Time Factors, Treatment Outcome, Biomarkers metabolism, Bone and Bones metabolism, Exercise Therapy methods, Health
Abstract

In animal studies, bone adaptation has been initiated successfully without the transient force spike associated with high impact exercises. Consequently, a 12-week bilateral hopping on the balls of the feet intervention was conducted. 25 elderly men (age 72(SD4) years, height 171(6) cm, weight 75(9) kg) were randomly assigned into exercise and control groups. Ten subjects in each group completed the study. Carboxyterminal propeptide of type I collagen (CICP), bone-specific alkaline phosphatase (bALP) and carboxyterminal telopeptide of type I collagen (CTx) were measured from venous blood samples at baseline, at 2 weeks and at the end of the intervention. Maximal ground reaction force (GRF), osteogenic index (OI) and jump height (JH) were determined from bilateral hopping test and balance was assessed with velocity of center of pressure (COP(velocity)) while standing on the preferred leg with eyes open. The intervention consisted of 5-7 sets of 10 s timed bilateral hopping exercise at 75-90% intensity three times/week. There was no significant group × time interaction for GRF, OI and JH (P = 0.065). GRF (11% change from baseline vs. 4%), OI (15 vs. 6%) and COP(velocity) (-10 vs. -1%) were not influenced by the intervention (P > 0.170), while the control group improved JH (P = 0.031) (2 vs. 18%). For the biomarkers, no effect was observed in MANOVA (P = 0.536) or in univariate analyses (P = 0.082 to P = 0.820) (CICP -2 vs. -3%, CTx 8 vs. -12%, bALP 0 vs. -3.7%). Allowing transient impact force spikes may be necessary to initiate a bone response in elderly men as the intervention was ineffective.

Published
2011
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33. Age-related muscle activation profiles and joint stiffness regulation in repetitive hopping.

Author

Hoffrén M, Ishikawa M, Rantalainen T, Avela J, and Komi PV

Subjects
Adult, Aged, Aged, 80 and over, Elastic Modulus physiology, Female, Humans, Male, Middle Aged, Aging physiology, Ankle Joint physiology, Locomotion physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Range of Motion, Articular physiology
Abstract

It is well documented that increasing effort during exercise is characterized by an increase in electromyographic activity of the relevant muscles. How aging influences this relationship is a matter of great interest. In the present study, nine young and 24 elderly subjects did repetitive hopping with maximal effort as well as with 50%, 65%, 75% and 90% intensities. During hopping joint kinematics were measured together with electromyographic activity (EMG) from the soleus, gastrocnemius medialis, gastrocnemius lateralis and tibialis anterior muscles. The results showed that agonist activation increased in both age groups with increasing intensity. The highest jumping efficiency (EMG ratio of the braking phase to the push off-phase activation) was achieved with moderate hopping intensities (65-75%) in both the young and in the elderly. Age-comparison showed that elderly subjects had high agonist preactivation but thereafter lower activation during the braking phase. Antagonist coactivation was minimal and did not show age- or intensity-specificity. The elderly had more flexed knees at the instant of ground contact. When intensity increased, the elderly also plantarflexed their ankles more before ground contact. Ankle joint stiffness was lower in elderly subjects only in high hopping intensities (90% and Max). These results confirm that age-specific agonist muscle activation profiles exist during hopping even when exercise intensities are matched on the relative scale. The results suggest further that the elderly can adjust their reduced neuromuscular capacity to match the demands set by different exercise intensities., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published
2011
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34. Disturbed motor control of rhythmic movement at 2 h and delayed after maximal eccentric actions.

Author

Bottas R, Miettunen K, Komi PV, and Linnamo V

Subjects
Adult, Creatine Kinase blood, Electromyography, Humans, Lactic Acid blood, Male, Reflex, Stretch, Elbow Joint physiology, Movement physiology, Muscle Contraction physiology, Muscle Fatigue physiology, Muscle Strength physiology, Muscle, Skeletal physiology
Abstract

The aim of this study was to examine the influence of exercise-induced muscle damage on elbow rhythmic movement (RM) performance and neural activity pattern and to investigate whether this influence is joint angle specific. Ten males performed an exercise of 50 maximal eccentric elbow flexions in isokinetic machine with duty cycle of 1:15. Maximal dynamic and isometric force tests (90 degrees , 110 degrees and 130 degrees elbow angle) and both active and passive stretch reflex tests of elbow flexors were applied to the elbow joint. The intentional RM was performed in the horizontal plane at elbow angles; 60-120 degrees (SA-RM), 80-140 degrees (MA-RM) and 100-160 degrees (LA-RM). All measurements together with the determination of muscle soreness, swelling, passive stiffness, serum creatine kinase were conducted before, immediately and 2h as well as 2 days, 4 days, 6 days and 8 days post-exercise. Repeated maximal eccentric actions modified the RM trajectory symmetry acutely (SA-RM) and delayed (SA/MA/LA-RM) until the entire follow up of 8 days. Acutely lowered MA-RM peak velocity together with reduced activity of biceps brachii (BB) at every RM range, reflected a poorer acceleration and deceleration capacity of elbow flexors. A large acute drop of BB EMG burst amplitude together with parallel decrease in BB active stretch reflex amplitude, especially 2h post-exercise, suggested an inhibitory effect originating most likely from groups III/IV mechano-nociceptors., (Copyright (c) 2009 Elsevier Ltd. All rights reserved.)

Published
2010
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35. Seventy-year-old habitual volleyball players have larger tibial cross-sectional area and may be differentiated from their age-matched peers by the osteogenic index in dynamic performance.

Author

Rantalainen T, Linnamo V, Komi PV, Selänne H, and Heinonen A

Subjects
Absorptiometry, Photon, Acceleration, Adaptation, Physiological, Age Factors, Aged, Biomechanical Phenomena, Case-Control Studies, Femur Neck diagnostic imaging, Fourier Analysis, Humans, Male, Tibia diagnostic imaging, Tomography, X-Ray Computed, Femur Neck anatomy & histology, Osteogenesis, Physical Exertion, Tibia anatomy & histology, Volleyball
Abstract

The osteogenicity of a given exercise may be estimated by calculating an osteogenic index (OI) consisting of magnitude and rate of strain. Volleyball involves repetitive jumping and requires high power output and thus may be expected to be beneficial to bone and performance. The purpose of the present study was to examine if habitual volleyball playing is reflected in OI. Ten elderly habitual volleyball players [age 69.9 (SD 4.4) years] and ten matched controls volunteered [age 69.7 (4.2) years] as subjects. Distal tibia (d), tibial mid-shaft (50) and femoral neck (FN) bone characteristics were measured using pQCT and DXA. To estimate skeletal rigidity, cross-sectional area (ToA(50)), and compressive (BSI(d)) and bending strength indices (SSImax(50)) were calculated. Maximal performance was assessed with eccentric ankle plantar flexion, isometric leg press and countermovement jump (CMJ). A fast Fourier transform (FFT) was calculated from the acceleration of the center of mass during the CMJ. Maximal acceleration (MAG) and mean magnitude frequency (MMF) were selected to represent the constituents of OI. OI was calculated as the sum of the products of magnitudes and corresponding frequencies. Volleyball players had 7% larger ToA(50) and 37% higher power in CMJ, 15% higher MAG and 36% higher OI (P or= 0.646). In conclusion, habitual volleyball players may be differentiated from their matched peers by their dynamic jumping performance, and the differences are reflected in the magnitude but not rate of loading.

Published
2010
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36. Neuromuscular performance and body mass as indices of bone loading in premenopausal and postmenopausal women.

Author

Rantalainen T, Nikander R, Heinonen A, Multanen J, Häkkinen A, Jämsä T, Kiviranta I, Linnamo V, Komi PV, and Sievänen H

Subjects
Adult, Age Factors, Body Composition physiology, Body Weight physiology, Female, Humans, Middle Aged, Movement physiology, Muscle Contraction physiology, Osteoarthritis diagnostic imaging, Physical Exertion physiology, Radiography, Regression Analysis, Stress, Mechanical, Tibia diagnostic imaging, Weight-Bearing physiology, Compressive Strength physiology, Muscle Strength physiology, Osteoarthritis physiopathology, Postmenopause physiology, Premenopause physiology, Tibia physiology
Abstract

The strong association between body mass and skeletal robusticity has been attributed to increasing skeletal loading with increasing mass. However, it is unclear whether body mass is merely a coarse substitute for bone loading rather than a true independent predictor of bone strength. As indices of neuromuscular performance, impulse and peak power were determined from vertical ground reaction force during a maximal counter movement jump test in 221 premenopausal and 82 postmenopausal women. Bone compressive (BSI(d) g(2)/cm(4)) and bending (SSImax(mid) mm(3)) strength indices were measured with peripheral quantitative computed tomography (pQCT) at the distal ((d)) and midshaft ((mid)) sites of the tibia. A two-step forced regression model for predicting bone strength indices was constructed. Age, height and body mass were entered first, followed by impulse as an indicator of skeletal loading. The basic model explained 14% (P<0.001) of the variance in BSI(d) in the premenopausal group and 16% (P=0.004) in the postmenopausal group, and 32% (P<0.001) and 25% (P<0.001) of the variance in SSImax(nud) respectively. Entering impulse into the model increased the explanatory power by 9% (P<0.001) and 7% (P<0.001) for BSI(d) and by 8% (P<0.001) and 12% (P<0.001) for SSImax(mid). Furthermore, impulse replaced body mass as an independent significant factor explaining the variance in bone strength. These results indicate that neuromuscular performance should be measured and preferred over body mass in models predicting skeletal robusticity., (Copyright 2009 Elsevier Inc. All rights reserved.)

Published
2010
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37. Short-term bone biochemical response to a single bout of high-impact exercise.

Author

Rantalainen T, Heinonen A, Linnamo V, Komi PV, Takala TE, and Kainulainen H

Abstract

Bone response to a single bout of exercise can be observed with biochemical markers of bone formation and resorption. The purpose of this study was to examine the response of bone biochemical markers to a single bout of exhaustive high-impact exercise. 15 physically active young subjects volunteered to participate. The subjects performed continuous bilateral jumping with the ankle plantarflexors at 65 % of maximal ground reaction force (GRF) until exhaustion. Loading was characterized by analyzing the GRF recorded for the duration of the exercise. Venous blood samples were taken at baseline, immediately after, 2h and on day 1 and day 2 after the exercise. Procollagen type I amino terminal propeptide (P1NP, marker of bone formation) and carboxyterminal crosslinked telopeptide (CTx, marker of bone resorption) were analyzed from the blood samples. CTx increased significantly (32 %, p = 0.015) two days after the exercise and there was a tendensy towards increase seen in P1NP (p = 0.053) one day after the exercise. A significant positive correlation (r = 0.49 to 0.69, p ≤ 0.038) was observed between change in P1NP from baseline to day 1 and exercise variables (maximal slope of acceleration, body weight (BW) adjusted maximal GRF, BW adjusted GRF exercise intensity and osteogenic index). Based on the two biochemical bone turnover markers, it can be concluded that bone turnover is increased in response to a very strenuous single bout of exhaustive high-impact exercise. Key pointsStudies on bone acute biochemical response to loading have yielded unequivocal results.There is a paucity of research on the biochemical bone response to high impact exercise.An increase in bone turnover was observed one to two days post exercise.

Published
2009

38. Bone rigidity to neuromuscular performance ratio in young and elderly men.

Author

Rantalainen T, Sievänen H, Linnamo V, Hoffrén M, Ishikawa M, Kyröläinen H, Avela J, Selänne H, Komi PV, and Heinonen A

Subjects
Aged, Biomechanical Phenomena, Body Weight physiology, Humans, Male, Tibia physiology, Young Adult, Nervous System Physiological Phenomena, Tibia anatomy & histology
Abstract

Given the adaptation of bone to prevalent loading, bone loss should follow, but lag behind, the decline in physical performance during aging. Furthermore, bone responsiveness to load-induced strains is believed to decrease with aging. However, the relationship between bone and lean body ( approximately muscle) mass appears to remain rather constant throughout adulthood. The purpose of this study was to examine the association between age and bone to neuromuscular performance ratio. Young (N=20, age 24 SD+/-2 years, body mass 77+/-11 kg, height 178+/-6 cm) and elderly (N=25, 72+/-4 years, 75+/-9 kg, 172+/-5 cm) men served as subjects. Bone structural traits were measured at the right distal tibia and tibial mid-shaft with peripheral quantitative computed tomography (pQCT). Maximal section modulus (Z(max50)), total area (ToA(d)), cortical area (CoA(50)), total density (ToD(d)) and cortical density (CoD(50)) were determined from the pQCT images. Neuromuscular performance was measured by recording vertical ground reaction force (GRF) in maximal bilateral hopping. Load-induced strains were estimated by calculating appropriate indices for compressive and tensile loading that took into account both the bone structure and apparent biomechanics of the given bone site. Young subjects had significantly higher maximal GRF compared to older men (4260+/-800 N vs. 3080+/-600 N, P<0.001). They also had smaller ToA(d) (1100+/-170 mm(2) vs. 1200+/-100 mm(2), P=0.028) while their ToD(d) was higher (370+/-46 g/cm(3) vs. 330+/-22 g/cm(3), P=0.002). The Z(max50) did not differ significantly between young (1660+/-320 mm(3)) and elderly men (1750+/-320 mm(3)) (P=0.224). Compressive (0.484+/-0.102 vs. 0.399+/-0.078, P=0.016) and tensile (0.107+/-0.016 vs. 0.071+/-0.018, P<0.001) strain indices were significantly higher in the younger group. In conclusion, the difference in bone to loading ratio at the tibial mid-shaft is bigger than expected from the delay in bone adaptation alone. Potential candidates to explain this phenomenon include a decrease in mechanosensitivity with aging, inability of maximal physical performance to adequately represent the bone loading environment, or the need to maintain constant safety factors to functional strains.

Published
2009
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39. Effects of prolonged walking on neural and mechanical components of stretch responses in the human soleus muscle.

Author

Cronin NJ, Ishikawa M, Af Klint R, Komi PV, Avela J, Sinkjaer T, and Voigt M

Subjects
Adult, Female, Humans, Male, Adaptation, Physiological physiology, Gait physiology, Muscle, Skeletal innervation, Muscle, Skeletal physiology, Physical Exertion physiology, Reaction Time physiology, Reflex, Stretch physiology, Walking physiology
Abstract

After repeated passive stretching, tendinous tissue compliance increases in the human soleus (SOL) muscle-tendon unit. During movement, such changes would have important consequences for neural and mechanical stretch responses. This study examined the existence of such effects in response to a 75 min walking intervention. Eleven healthy subjects walked on a treadmill at 4 km h(1) with a robotic stretch device attached to the left leg. Ultrasonography was used to measure SOL fascicle lengths, and surface EMG activity was recorded in the SOL and tibialis anterior (TA) muscles. Perturbations of 6 deg were imposed at three different measurement intervals: Pre (immediately before the walking intervention), Mid (after approximately 30 min of walking) and Post (immediately after the intervention). Between the Pre-Mid and Mid-Post intervals, subjects walked for 30 min at a gradient of 3%. After the intervention, the amplitude and velocity of fascicle stretch both decreased (by 46 and 59%, respectively; P < 0.001) in response to a constant external perturbation, as did short (33%; P < 0.01) and medium (25%; P < 0.01) latency stretch reflex amplitudes. A faster perturbation elicited at the end of the protocol resulted in a recovery of fascicle stretch velocities and short latency reflex amplitudes to the pre-exercise values. These findings suggest that repeated stretching and shortening of a muscle-tendon unit can induce short-term structural changes in the tendinous tissues during human walking. The data also highlight the effect of these changes on neural feedback from muscle sensory afferents.

Published
2009
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40. Mechanical and neural stretch responses of the human soleus muscle at different walking speeds.

Author

Cronin NJ, Ishikawa M, Grey MJ, af Klint R, Komi PV, Avela J, Sinkjaer T, and Voigt M

Subjects
Adult, Ankle Joint innervation, Ankle Joint physiology, Biomechanical Phenomena, Electromyography, Female, Gait physiology, Humans, Male, Muscle Spindles innervation, Muscle Spindles physiology, Young Adult, Muscle, Skeletal innervation, Muscle, Skeletal physiology, Reflex, Stretch physiology, Walking physiology
Abstract

During human walking, a sudden trip may elicit a Ia afferent fibre mediated short latency stretch reflex. The aim of this study was to investigate soleus (SOL) muscle mechanical behaviour in response to dorsiflexion perturbations, and to relate this behaviour to short latency stretch reflex responses. Twelve healthy subjects walked on a treadmill with the left leg attached to an actuator capable of rapidly dorsiflexing the ankle joint. Ultrasound was used to measure fascicle lengths in SOL during walking, and surface electromyography (EMG) was used to record muscle activation. Dorsiflexion perturbations of 6 deg were applied during mid-stance at walking speeds of 3, 4 and 5 km h(-1). At each walking speed, perturbations were delivered at three different velocities (slow: approximately 170 deg s(-1), mid: approximately 230 deg s(-1), fast: approximately 280 deg s(-1)). At 5 km h(-1), fascicle stretch amplitude was 34-40% smaller and fascicle stretch velocity 22-28% slower than at 3 km h(-1) in response to a constant amplitude perturbation, whilst stretch reflex amplitudes were unchanged. Changes in fascicle stretch parameters can be attributed to an increase in muscle stiffness at faster walking speeds. As stretch velocity is a potent stimulus to muscle spindles, a decrease in the velocity of fascicle stretch at faster walking speeds would be expected to decrease spindle afferent feedback and thus stretch reflex amplitudes, which did not occur. It is therefore postulated that other mechanisms, such as altered fusimotor drive, reduced pre-synaptic inhibition and/or increased descending excitatory input, acted to maintain motoneurone output as walking speed increased, preventing a decrease in short latency reflex amplitudes.

Published
2009
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41. Adaptive changes in motor control of rhythmic movement after maximal eccentric actions.

Author

Bottas R, Nicol C, Komi PV, and Linnamo V

Subjects
Adaptation, Physiological physiology, Humans, Male, Motor Skills physiology, Periodicity, Task Performance and Analysis, Young Adult, Elbow Joint physiology, Movement physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Physical Endurance physiology, Physical Exertion physiology
Abstract

Effects of an exhaustive eccentric exercise (EE) on the motor control of maximal velocity rhythmic elbow extension/flexion movement (RM) were examined in eight male students. The exhaustive EE consisted of 100 maximal eccentric actions of the elbow flexor muscles. Movement range was 40-170 degrees in EE at an angular velocity of 2rads(-1). A directive scaled RM of 60 degrees with visual feedback was performed in a sitting position, with the right forearm fixed to the lever arm in horizontal plane above protractor. Surface electromyographic activity (EMG) was recorded from the biceps brachii (BB) and triceps brachii (TB) muscles. Maximal isokinetic eccentric and concentric tests and RM test were conducted before, after, 0.5h, 2 days and 7 days after the exercise. Dynamic force production was deteriorated after EE (P<.001), and did not recover fully within 7 days. The delayed recovery phase was characterized by delayed onset of muscle soreness (DOMS) and elevated serum creatine kinase (CK) activity. The RM test revealed a delayed increase of the fatigued BB muscle EMG activity, but the maximal RM velocity could be preserved. The present results emphasize the capacity of the neuromuscular system to compensate for prolonged eccentric-induced contractile failure by optimizing antagonistic muscles coordination in a demanding rhythmic task. The underlying compensatory mechanisms could be related to increased sensitization of small diameter muscle nerve endings.

Published
2009
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42. Neuromuscular control in landing from supra-maximal dropping height.

Author

Galindo A, Barthèlemy J, Ishikawa M, Chavet P, Martin V, Avela J, Komi PV, and Nicol C

Subjects
Adolescent, Adult, Biomechanical Phenomena, Electromyography, Humans, Lower Extremity, Male, Muscle, Skeletal diagnostic imaging, Reaction Time, Time Factors, Ultrasonography, Young Adult, Isometric Contraction, Movement, Muscle, Skeletal innervation, Reflex, Stretch
Abstract

The present study utilized high-impact supra-maximal landings to examine the influence of the pre-impact force level on the post-impact electromyographic (EMG) activity and, in particular, on the short latency EMG reflex (SLR) component. Unilateral-leg landings were performed in a sitting position on a sledge apparatus after release from high, but individually constant dropping height. A lower limb guiding device fixed to the front of the sledge seat allowed the subjects to sustain a given pre-set force level up to impact. This force level was either freely chosen or set at 20, 35, and 50% of maximal isometric plantarflexion force. EMG activity was recorded from eight major lower limb muscles. It was expected that the increase in the pre-impact force level would require the intervention of a protective neural strategy during the post-impact phase that would attenuate the SLR amplitude. The ultrasonography recordings confirmed that the soleus fascicles were stretched to induce SLR. The main finding was the similarity across all tested conditions of the impact peak force and post-impact EMG activity, including the SLR response. Both observations are mostly attributed to the similar EMG levels and close force levels reached toward impact. The instruction to maintain a given pre-set force level was indeed overruled when getting close to impact. It is suggested that, in the present supra-maximal landing condition, a protective central neural strategy did occur that took into account the pre-set force level to secure similar impact loads.

Published
2009
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43. Muscle fascicle and tendon behavior during human locomotion revisited.

Author

Ishikawa M and Komi PV

Subjects
Biomechanical Phenomena, Humans, Muscle Contraction physiology, Muscle, Skeletal diagnostic imaging, Reflex, Stretch physiology, Ultrasonography, Movement physiology, Muscle, Skeletal physiology, Running physiology, Tendons physiology, Walking physiology
Abstract

High-speed ultrasonography has revealed that, in human locomotion, the nature of fascicle and tendon length changes varies depending on the task, contraction intensity, and the muscles involved. The findings emphasize that the active fascicles of the gastrocnemius muscle are suddenly stretched, although they are shortening. This short-lasting stretch triggers the stretch reflex, timing of which is dependent on running speed.

Published
2008
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44. Effects of contraction intensity on muscle fascicle and stretch reflex behavior in the human triceps surae.

Author

Cronin NJ, Peltonen J, Ishikawa M, Komi PV, Avela J, Sinkjaer T, and Voigt M

Subjects
Adult, Data Interpretation, Statistical, Electromyography, Ergometry, Female, Humans, Isometric Contraction physiology, Leg diagnostic imaging, Leg physiology, Male, Muscle Spindles physiology, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal innervation, Ultrasonography, Muscle, Skeletal physiology, Reflex, Stretch physiology
Abstract

The aims of this study were to examine changes in the distribution of a stretch to the muscle fascicles with changes in contraction intensity in the human triceps surae and to relate fascicle stretch responses to short-latency stretch reflex behavior. Thirteen healthy subjects were seated in an ankle ergometer, and dorsiflexion stretches (8 degrees ; 250 degrees /s) were applied to the triceps surae at different moment levels (0-100% of maximal voluntary contraction). Surface EMG was recorded in the medial gastrocnemius, soleus, and tibialis anterior muscles, and ultrasound was used to measure medial gastrocnemius and soleus fascicle lengths. At low forces, reflex amplitudes increased despite a lack of change or even a decrease in fascicle stretch velocities. At high forces, lower fascicle stretch velocities coincided with smaller stretch reflexes. The results revealed a decline in fascicle stretch velocity of over 50% between passive conditions and maximal force levels in the major muscles of the triceps surae. This is likely to be an important factor related to the decline in stretch reflex amplitudes at high forces. Because short-latency stretch reflexes contribute to force production and stiffness regulation of human muscle fibers, a reduction in afferent feedback from muscle spindles could decrease the efficacy of human movements involving the triceps surae, particularly where high force production is required.

Published
2008
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45. Neuromuscular performance and bone structural characteristics in young healthy men and women.

Author

Rantalainen T, Heinonen A, Komi PV, and Linnamo V

Subjects
Adult, Compressive Strength, Elastic Modulus, Female, Humans, Male, Radiography, Stress, Mechanical, Tibia diagnostic imaging, Muscle Contraction physiology, Muscle, Skeletal physiology, Physical Exertion physiology, Tibia physiology
Abstract

Muscle mass and strength have been shown to be important factors in bone strength. Low muscular force predisposes to falling especially among elderly. Regular exercise helps to prevent falls and resulting bone fractures. Better understanding of muscle function and its importance on bone properties may thus add information to fracture prevention. Therefore the purpose of this study was to examine the relationship between bone strength and muscular force production. Twenty-young men [24 (2) years] and 20 [24 (3) years] women served as subjects. Bone compressive (BSI(d)) and bending strength indices (50 Imax) were measured with peripheral quantitative computed tomography (pQCT) at tibial mid-shaft and at distal tibia. Ankle plantarflexor muscle volume (MV) was estimated from muscle thickness measured with ultrasonography. Neuromuscular performance was evaluated from the measurements of maximal ground reaction force (GRF) in bilateral jumping and of eccentric maximal voluntary ankle plantarflexor torque (MVC). Specific tension (ST) of the plantarflexors was calculated by dividing the MVC with the muscle volume. Activation level (AL) was measured with superimposed twitch method. Distal tibia BSI(d) and tibial mid-shaft 50 Imax correlated positively with GRF, MVC and MV in men (r = 0.45-0.67, P < 0.05). Tibial mid-shaft 50 Imax and neuromuscular performance variables were correlated in women (r = 0.46-0.59, P < 0.05), whereas no correlation was seen in distal tibia. In the regression analysis, MV and ST could explain 64% of the variance in tibial mid-shaft bone strength and 41% of the variation in distal tibia bone strength. The study emphasizes that tibial strength is related to maximal neuromuscular performance. In addition, tibial mid-shaft seems to be more dependent on the neuromuscular performance, than distal tibia. In young adults, the association between bone adaptation and neuromuscular performance seems to be moderate and also site and loading specific.

Published
2008
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46. A single bout of exercise with high mechanical loading induces the expression of Cyr61/CCN1 and CTGF/CCN2 in human skeletal muscle.

Author

Kivelä R, Kyröläinen H, Selänne H, Komi PV, Kainulainen H, and Vihko V

Subjects
Adult, Amyloid beta-Protein Precursor genetics, Biopsy, Connective Tissue Growth Factor, Cysteine-Rich Protein 61, Gene Expression, Gene Expression Regulation, Humans, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Immediate-Early Proteins genetics, Insulin-Like Growth Factor Binding Proteins genetics, Intercellular Signaling Peptides and Proteins genetics, Male, Peptide Fragments genetics, Stress, Mechanical, Vascular Endothelial Growth Factor A genetics, Vascular Endothelial Growth Factor A metabolism, Vascular Endothelial Growth Factor B genetics, Vascular Endothelial Growth Factor B metabolism, Amyloid beta-Protein Precursor metabolism, Exercise physiology, Immediate-Early Proteins metabolism, Insulin-Like Growth Factor Binding Proteins metabolism, Intercellular Signaling Peptides and Proteins metabolism, Muscle, Skeletal metabolism, Peptide Fragments metabolism
Abstract

High mechanical loading was hypothesized to induce the expression of angiogenic and/or lymphangiogenic extracellular matrix (ECM) proteins in skeletal muscle. Eight men performed a strenuous exercise protocol, which consisted of 100 unilateral maximal drop jumps followed by submaximal jumping until exhaustion. Muscle biopsies were taken 30 min and 48 h postexercise from the vastus lateralis muscle and analyzed for the following parameters: mRNA and protein expression of ECM-associated CCN proteins [cysteine-rich angiogenic protein 61 (Cyr61)/CCN1, connective tissue growth factor (CTGF)/CCN2], and mRNA expression of vascular endothelial growth factors (VEGFs) and hypoxia-inducible factor-1alpha. The mRNA expression of Cyr61 and CTGF increased 30 min after the exercise (14- and 2.5-fold, respectively; P < 0.001). Cyr61 remained elevated 48 h postexercise (threefold; P < 0.05). The mRNA levels of VEGF-A, VEGF-B, VEGF-C, VEGF-D, or hypoxia-inducible factor-1alpha did not change significantly at either 30 min or 48 h postexercise; however, the variation between subjects increased markedly in VEGF-A and VEGF-B mRNA. Cyr61 protein levels were higher at both 30 min and 48 h after the exercise compared with the control (P < 0.05). Cyr61 and CTGF proteins were localized to muscle fibers and the surrounding ECM by immunohistochemistry. Fast fibers stained more intensively than slow fibers. In conclusion, mechanical loading induces rapid expression of CCN proteins in human skeletal muscle. This may be one of the early mechanisms involved in skeletal muscle remodeling after exercise, since Cyr61 and CTGF regulate the expression of genes involved in angiogenesis and ECM remodeling.

Published
2007
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47. Age-related neuromuscular function during drop jumps.

Author

Hoffrén M, Ishikawa M, and Komi PV

Subjects
Adult, Age Factors, Aged, Electromyography, Exercise Test, Fascia diagnostic imaging, Fascia physiology, Female, Humans, Leg, Male, Muscle, Skeletal diagnostic imaging, Reflex, Stretch physiology, Tendons diagnostic imaging, Tendons physiology, Ultrasonography, Aging physiology, Movement physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Physical Exertion physiology
Abstract

Muscle- and movement-specific fascicle-tendon interaction affects the performance of the neuromuscular system. This interaction is unknown among elderly and consequently contributes to the lack of understanding the age-related problems on neuromuscular control. The present experiment studied the age specificity of fascicle-tendon interaction of the gastrocnemius medialis (GM) muscle in drop jump (DJ) exercises. Twelve young and thirteen elderly subjects performed maximal squat jumps and DJs with maximal rebound effort on a sledge apparatus. Ankle and knee joint angles, reaction force, and electromyography (EMG) from the soleus (Sol), GM, and tibialis anterior (TA) muscles were measured together with the GM fascicle length by ultrasonography. The results showed that the measured ankle joint stiffness (AJS) during the braking phase correlated positively with the rebound speed in both age groups and that both parameters were significantly lower in the elderly than in young subjects. In both groups, the AJS correlated positively with averaged EMG (aEMG) in Sol during the braking phase and was further associated with GM activation (r = 0.55, P < 0.01) and TA coactivation (TA/GM r = -0.4 P < 0.05) in the elderly subjects. In addition, compared with the young subjects, the elderly subjects showed significantly lower GM aEMG in the braking phase and higher aEMG in the push-off phase, indicating less utilization of tendinous tissue (TT) elasticity. These different activation patterns are in line with the mechanical behavior of GM showing significantly less fascicle shortening and relative TT stretching in the braking phase in the elderly than in the young subjects. These results suggest that age-specific muscle activation patterns as well as mechanical behaviors exist during DJs.

Published
2007
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48. Influence of the sample collection method on salivary interleukin-6 levels in resting and post-exercise conditions.

Author

Minetto MA, Gazzoni M, Lanfranco F, Baldi M, Saba L, Pedrola R, Komi PV, and Rainoldi A

Subjects
Adult, Female, Humans, Isometric Contraction physiology, Male, Muscle Fatigue physiology, Reproducibility of Results, Specimen Handling, Exercise physiology, Interleukin-6 metabolism, Rest physiology, Saliva metabolism
Abstract

Previous studies demonstrated that no significant relationships exist between salivary and serum IL-6 in resting conditions and following exercise and that appropriate saliva collection procedures allow to avoid analytical drawbacks. This investigation aimed to: (a) compare the effects of two methods of saliva collection on IL-6 assay; (b) search for correlation between salivary and serum IL-6 in resting and post-exercise conditions; (c) evaluate the IL-6 response to isometric contractions. Seventeen sedentary subjects and fifteen athletes underwent one blood and two salivary draws: saliva was collected chewing on cotton salivettes and using a plastic straw (SA method and ST method, respectively). Afterwards, the athletes only completed a fatiguing isometric exercise of the knee extensors and blood and saliva were sampled after the exercise. In the entire group (n=32), ST method produced higher IL-6 levels than SA method and serum sampling. The exercise elicited significant responses of lactate, serum IL-6, salivary IL-6 (by ST method): salivary IL-6 values using the ST collection method were higher at each sampling point than with the SA method. The correlation analyses applied to both resting levels in the entire group and absolute changes above baseline in the athlete group showed that: (1) no significant relationships exist between serum and salivary IL-6 levels; (2) the greater the salivary IL-6 measurement, the higher the resultant inaccuracy of the SA method; (3) significant correlations exist between isometric force and mechanical fatigue during exercise and peaks of lactate and serum IL-6. These data provided demonstration of a cotton-interference effect for the results of salivary IL-6 assay and confirmed the lack of significant correlation between salivary and serum IL-6 in resting and post-exercise conditions.

Published
2007
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49. The role of the stretch reflex in the gastrocnemius muscle during human locomotion at various speeds.

Author

Ishikawa M and Komi PV

Subjects
Adult, Biomechanical Phenomena, Electromyography, Humans, Male, Tendons physiology, Time Factors, Muscle, Skeletal physiology, Reflex, Stretch physiology, Running physiology
Abstract

In the present study, the fascicle length (L(fa)) of the human medial gastrocnemius (MG) muscle was monitored to evaluate possible input from the short-latency stretch reflex (SLR) during the stance phase of running and to examine its timing at various running speeds. Eight subjects ran at 2.0, 3.5, 5.0, and 6.5 m/s. The L(fa) was measured with the high-speed ultrasound fascicle scanning together with kinematics and myoelectrical activities. The amplitudes and onset latency of SLR activities were determined. During ground contact, the sudden MG fascicle stretch occurred during the early contact at all running speeds. This was followed by the fascicle shortening. The timing of fascicle stretch depended on running speed and type of foot contact. In slower speed conditions (2.0, 3.5, 5 m/s), the MG fascicle stretch and the corresponding SLR activities occurred during the middle of the braking phase. In fast-speed running (6.5 m/s), however, the MG fascicle stretch occurred later compared with the lower speed. The corresponding SLR activities occurred significantly later at the end of the braking phase. In addition to the clear demonstration of the different timings of SLR in MG during ground contact of running, the results imply that the role of the MG SLR during the stance phase of running can be different between fast- and slow-speed running conditions.

Published
2007
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50. Loading and gait symmetry during level and stair walking in asymptomatic subjects with knee osteoarthritis: importance of quadriceps femoris in reducing impact force during heel strike?

Author

Liikavainio T, Isolehto J, Helminen HJ, Perttunen J, Lepola V, Kiviranta I, Arokoski JP, and Komi PV

Subjects
Aged, Electromyography, Female, Heel physiology, Humans, Male, Muscle Strength physiology, Pressure, Gait physiology, Muscle, Skeletal physiology, Osteoarthritis, Knee physiopathology, Walking physiology, Weight-Bearing physiology
Abstract

Repetitive impulsive forces during walking are claimed to result in joint osteoarthritis (OA). The aim of this study was to investigate impact loading and gait symmetry during level and stair walking in asymptomatic elderly subjects with knee OA. It was hypothesised that pre-activity of the quadriceps femoris muscle (QF) would be an important factor reducing impulsive loading when walking on level ground. Subjects [21 female, six men, 66.2 (7.6) years] were studied. The subjects had no knee pain or diminished functional capacity, but showed radiographically light or moderate bilateral knee OA changes. Ground reaction forces (GRFs), plantar pressure distribution, muscle activation pattern [vastus medialis (VM), vastus lateralis, biceps femoris and gastrocnemius medialis] and asymmetry during level walking and stair walking were evaluated. Almost 20% of subjects had a distinct heel-strike transient at maximal speed with lower pre-activity of VM (P<0.05). The most forceful maximum vertical GRF in the braking phase occurred in stair descent [1.52 (0.21) BW]. This was 32.5% (P<0.001) higher than seen when walking on the level at normal speed. The loading rate of stair descent [10.87 (2.96) BW/s] was significantly stronger (P<0.05) than in level walking at normal speed [8.55 (1.93) BW/s]. There was no asymmetry in kinematic or kinetic variables in level walking. However, asymmetry increased during stair walking. The control of quadriceps femoris prior to heel-strike is possibly an important factor that reduces impulsive loading during walking in asymptomatic OA subjects. Stair walking is a demanding motor task and the musculoskeletal system is loaded more during stair descent than level walking at normal speed.

Published
2007
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