Dr. Aivaras Ratkevicius

1. Human strength SR1502 Dr. Aivaras Ratkevicius

2. Human strengthPlan • Assessment of muscle strength • Cross sectional area of muscles • Muscle fibre types • Motor units • MU recruitment during exercise • Reading list: • 1. McArdle W.D. et al. Exercise Physiology: energy, nutrition, human performance. Lippincott Williams & Wilkins, 2001. p. 362-382, 501-510 • 2. Wilmore J.H. & Costill D.L. Physiology of sport and exercise. Human Kinetics, 2004, p. 33-57.

3. Muscle strengthDynamometry • Muscle strength is measured as maximal force generated by a particular muscle group • Popular methods for assessment of muscle strength: 1) Dynamometry (example in the figure) 2) 1 repetition maximum (1 RM) method (1 RM is the maximal weight that one can lift)

4. Muscle strengthAssessment • Force increases in repeated maximal voluntary contractions (MVCs) • Warm up and familiarization are important !!!

5. Force time curve Action potentials of muscle fibres Electromyogram (mV) Force curve • Maximal force can not be exerted instantaneously !!! • Time is needed to: • 1) design the motor program (Brain: CNS time) • 2) conduct APs to the muscle fibres (AP conduction via axons in CNS and periphery) • 3) generate force in muscle fibres (Ca2+ release and cross bridge formation) Force (N) 0 1.75 2.25 2.75 0.25 0.75 1.25 Time from movement initiation in the Brain (s)

6. Muscle strengthAssessment instructions • 1. Clear instructions (motor programme) • 2. Adequate practise should be allowed (warm up, familiarization) • 3. One contraction is performed every 2 min (fatigue prevention) • 4. Time (~3-5 s) should be allowed to reach maximal force levels (time for muscle force generation) • 5. Strong verbal encouragements are needed (motivation)

7. Muscle strengthCross sectional area • Muscle strength is proportional to cross sectional area of skeletal muscles

8. Muscle strengthCross sectional area • Cross sectional area of vastus lateralis decreases with age • Muscle mass decreases with age • This is referred to as sarcopenia (loss of flesh) Lexell et al. 1983

9. Magnetic Resonance Imaging (MRI)Cross sectional areas (CSA) of thigh muscles • Older people often have thinner muscles and more subcutaneous fat in their limbs • This is partly due to decreased levels of physical activity

10. Muscle strength Fm= specific tension x C.S.A. Specific tension = 30 N/cm2 From Edgerton, Apor & Roy (1990)

11. Muscle shapePhysiological cross sectional area Fusiform Pennate • Pennate muscles (fanshaped): • 1) Large physiological cross section, optimalfor force generation • 2)Small movement amplitude and low velocity of shortening • Fusiform muscles • 1) Small physiological cross section and low force generation • 2) Large movement amplitude optimal for high velocity of shortening • Note: Hamstrings (fusiform muscles) are prone to injury

12. Muscle fibre histochemistry • Muscles samples (biopsies) can be obtained applying needle biopsy technique (Bergstrom 1961)

13. Muscle fibre histochemistry • Muscle fibre cross sections were stained at different pH • Muscle fibres are divided into TWO major types: Type I (oxidative, slow) & Type II (glycolytic, fast) IIA, IIB, IIC are subtypes of type II • Contraction speed: Slowest I => IIC => IIA => IIB Fastest

14. Motor unit • Motor unit is the functional unit of the neuromuscular system • Motor unit is composed of a motor neuron (a MN), axon and muscle fibres • a-MN innervates <3000 muscle fibres • a-MNs are in the spinal cord • Motor neuron pool is a group of a MNs that innervates a muscle McArdle et al. 2001

15. Types of MUs • Small a MNs innervate small, slow, “aerobic” muscle fibres (type I) • Big a MNs innervate big, fast “anaerobic” fibres (type II) Fast Fast Fatigable Fast Fatigue Resistant Slow Fatigue Resistant Type I Type IIB Type IIA McArdle et al. 2001

16. MUs receive common neural input and are recruited according to their sizes !!! <= Increase in neural activation 1st recruited 2nd recruited 3rd recruited Motorneuron FF Slow (S type) FR S Fast Fatigue Resistant (FR type) Fast Fatigable (FF type) Muscle fibres THREE major types of a motor neurons: S type are small “high” excitability FR type are big “average” excitability FF type are very big “low” excitability

17. MU recruitment • Recruitment of muscle fibres during exercise: • Light intensity exercise: Type I (slow) • Medium intensity exercise: Type I + type IIA (FR) • High intensity exercise: Type I + Type IIA + Type IIB (FF) • Important observation: Type I fibres are always recruited during exercise

18. Muscle fibre type composition: • Power athletes have high content of type II (fast twitch, FT) fibres and average maximal oxygen consumption • Endurance athletes have high content of type I (slow twitch, ST ) fibres and high maximal oxygen consumption

19. Human strengthSummary • Clear instructions, adequate practise, sufficient time and motivation are all essential for assessment of muscle strength in humans • Muscle strength is directly proportional to physiological CSA of skeletal muscles • Type I (slow) and type II (fast) are two main fibre types in human muscles • Motor unit (MU) is composed of a motor neuron (a MN), axon and muscle fibres • Slow muscle fibres (MUs) are recruited at low forces and fast fibres (MUs) at high forces