10 response of the skeletal system to exercise; osteoporosis and fitness new

10-Response of the Skeletal System to Exercise; Osteoporosis and Fitness Sport Nutrition Dr. Siham Mohamed Osman Gritly

objectives By the end of this lecture students should be able to identify the following; The main functions of skeletal muscle types of skeletal muscles fibres and exercise The role of skeletal muscle in physical exercise Osteoporosis and exercise Dr. Siham Mohamed Osman Gritly

The Skeletal System Dr. Siham Mohamed Osman Gritly

The skeletal system consists of; bones, ligaments and tendon Dr. Siham Mohamed Osman Gritly bones, ligaments which connect bones to other bones and cartilage Tendons connect muscle tissue to bone and although more elastic than ligaments, have a greater strength than muscle

A tendon connects muscle to bone. ligaments are similar to tendons, but they connect bone to bone and help to stabilize joints Dr. Siham Mohamed Osman Gritly

Synovial fluid joints produce an oil-like substance called synovial fluid. It is produced by the synovial membrane within our joints and is a short term or acute response to exercise. Dr. Siham Mohamed Osman Gritly

Main function of synovial fluid is to keep cartilage lubricated and nourished Dr. Siham Mohamed Osman Gritly

Four basic functions of skeletal system The skeletal system comprises of 206 bones and provides four basic functions : Support for tissues and muscle Protection for vital organs Movement through bones and attached muscles Storage for minerals and immature blood cells Dr. Siham Mohamed Osman Gritly

*1-Support for tissues and muscle Bones and cartilage that make up the skeleton are the only rigid materials in the body. Bones and skeletal provide a framework and points of attachment for many of the soft tissues of the body. Dr. Siham Mohamed Osman Gritly

*2-Protection for vital organs Skeletal muscles protect some of the vital tissues and functional organs of the body. examples are: -Skull - protects the brain -Vertebrae - protects the spinal cord -Thoracic cage - protects the heart and lungs Dr. Siham Mohamed Osman Gritly

*3-Movement through bones and attached muscles during movement bones provide solid structures to which muscles are attached. The joints allow movement between bones and these movements are directly related to the type of joint and range of motion. Dr. Siham Mohamed Osman Gritly

Joints fall into one of three categories: 1-Fixed fibrous (e.g. bones of the skull), 2-Slightly moveable (e.g. symphysis pubis) 3- Freely movable. Shoulder, hip, hinge joint, Knee, elbow, fingers, toes, jaw, gliding- wrist, ankle, vertebrae, - neck Dr. Siham Mohamed Osman Gritly

1-Fixed fibrous (e.g. bones of the skull), Dr. Siham Mohamed Osman Gritly

2-Slightly moveable (e.g. symphysis pubis) Dr. Siham Mohamed Osman Gritly

3-Freely movable. Shoulder Dr. Siham Mohamed Osman Gritly

*4-Storage for minerals and immature blood cells In some bones, there is red marrow which produces red blood cells, some white cells and platelets. Minerals, especially calcium and phosphorous are also stored in bones and can be distributed to other parts of the body. Dr. Siham Mohamed Osman Gritly

types of muscle fibres Skeletal muscles are composed of various types of muscle fibres and based on metabolic and contractile characteristics Skeletal muscles are used to create movement, by applying force to bones and joints; via contraction. 1-voluntarily contraction 2-involuntarily through reflexes. Dr. Siham Mohamed Osman Gritly

Dr. Siham Mohamed Osman Gritly the myofibrillar proteins Myosin and Actin , two proteins found in muscles for contraction and relaxation effect due to nerve impulses myosin ( important proteins that is responsible for the ability of muscle to contract). actin ( important proteins that is responsible for the ability of muscle to relax )

types of skeletal muscles fibres and exercise there are three major types of fibres for skeletal muscles: Type I, Type IIa andType IIb . The types are differ in the mechanism they use to produce ATP; the amount of each type of fibre varies from muscle to muscle and from person to person . Dr. Siham Mohamed Osman Gritly

Type I Red fibers. Slow oxidative (also called slow twitch or fatigue resistant fibers). Large amounts of myoglobin ( store oxygen) . Many mitochondria. Many blood capillaries. Generate ATP by the aerobic system, hence the term oxidative fibers. Split ATP at a slow rate. Slow contraction velocity. Resistant to fatigue. Needed for aerobic activities like long distance running (Marathon runners) . Dr. Siham Mohamed Osman Gritly

for endurance exercise rely on aerobic metabolism (oxidative metabolism) Dr. Siham Mohamed Osman Gritly

Type IIa Red fibers. Fast oxidative or ( also called fast twitch A or fatigue resistant fibers). Large amounts of myoglobin . Many mitochondria. Many blood capillaries. Large amount of glycogen. High capacity for generating ATP by oxidation. Split ATP at a very rapid rate and, hence, high contraction velocity Resistant to fatigue but not as much as slow oxidative fibers. Needed for sports such as middle distance running and swimming. Dr. Siham Mohamed Osman Gritly

Type IIb White. Fast glycolytic (also called fast twitch B or fatigable fibers). Low myoglobin content. Few mitochondria. Few blood capillaries. depend on anaerobic pathways (not oxygen dependent) but also use oxidative metabolism Large amount of Creatine phosphate. Split ATP very quickly. Fatigue easily. Needed for sports like sprinting and Weightlifters . Dr. Siham Mohamed Osman Gritly

used for short bursts of speed and power more likely to accumulate lactic acid. Dr. Siham Mohamed Osman Gritly

Effect of exercise on the skeletal system Exercise may improve to maintain healthy bones bone responds to mechanical stresses. When mechanical stresses are applied, more mineral salts are deposited and more collagenous fibres are produced. The physiological response to exercise is dependent on the intensity, duration and frequency of the exercise as well as the environmental conditions. Dr. Siham Mohamed Osman Gritly

During physical exercise, requirements for oxygen and substrate in skeletal muscle are increased, as are the removal of metabolites and carbon dioxide. Chemical, mechanical and thermal stimuli affect alterations in metabolic, cardiovascular and ventilatory function in order to meet these increased demands. Dr. Siham Mohamed Osman Gritly

Skeletal muscle & physical exercise Physical exercises are generally grouped into three types; Flexibility exercises , such as stretching, improve the range of motion of muscles and joints. Aerobic exercises , such as cycling, swimming, walking, skipping rope, rowing, running, hiking or playing tennis, focus on increasing cardiovascular endurance. Anaerobic exercise s, such as weight training, functional training, eccentric (unusual) training or sprint (run), increase short-term muscle strength. Dr. Siham Mohamed Osman Gritly

endurance exercise improves a number of factors known to govern the FA flux and the oxidative capacity of skeletal muscle. Such factors are: (1) blood flow and capillarization ; (2) lipolysis of triacylglycerol (TAG) in adipose tissue and circulating TAG and transport of FA from blood plasma to the sarcoplasm ; (3) availability and rate of hydrolysis of intramuscular TAG; (4) activation of the FA and transport across the mitochondrial membrane; Dr. Siham Mohamed Osman Gritly

(5) the activity of enzymes in the oxidative pathway; (6) hormonal adaptations, i.e. sensitivity to and insulin. Dr. Siham Mohamed Osman Gritly

skeletal muscle is powered by one and only one compound... adenosine triphosphate (ATP. However, the body stores only a small quantity of this 'energy currency' within the cells and its enough to power just a few seconds of all-out exercise. So the body must replace or resynthesize ATP on an ongoing basis Dr. Siham Mohamed Osman Gritly

Energy used by skeletal muscles Muscle Metabolism Oxidative metabolism and anaerobic metabolism are both used for provision of energy during exercise Adenosine triphosphate (ATP) is the principal high-energy phosphate molecule that enables muscle contraction. Energy supplies to muscle are initially provided from the immediate energy sources of ATP and phosphocreatine Dr. Siham Mohamed Osman Gritly

Phosphocreatine ( PCr ) is another high-energy compound containing a high-energy phosphate bond that can be hydrolysed to provide energy and resynthesize ATP: Skeletal muscle stores of PCr provide quantitatively the greatest contribution to energy provision in the first 10 s of high intensity activities such as sprinting Oxygen delivery during strenuous exercise is limited by cardiovascular function. Dr. Siham Mohamed Osman Gritly

immediate energy for exercising muscles immediate energy - used in first 10-30 seconds of vigorous exercise; ATP creatine phosphate (ATP-CP) system used; creatine phosphate contributes a phosphate to ADP to make ATP; 1 creatine phosphate (CP) = 1 ATP; all 3 skeletal fiber types use this system Dr. Siham Mohamed Osman Gritly

short-term energy for exercising muscles short-term energy - used approx. 30 - 90 seconds into vigorous exercise; uses glycolysis to break down glucose to pyruvate to lactate (lactic acid); 2 ATP; used by fast glycolytic fibers Dr. Siham Mohamed Osman Gritly

long-term energy for exercising muscles long-term energy - used approx after 2 min of vigorous exercise; uses glycolysis , citric acid cycle ( kreb’s cycle), and electron transport chain to fully oxidize glucose; 1 glucose = 36 ATP (max); used by slow oxidative fibers and fast oxidative fibers Dr. Siham Mohamed Osman Gritly

Ossification -direct ossification Ossification is the process by which bone is formed. Some bones (e.g. the flat bones of the skull) are formed in one stage from the connective tissue. This process is known as intramembranous or direct ossification. -indirect ossification Other bones (e.g. short bones) are formed from the cartilaginous cells during the development of embryo This process is known as endochondral or indirect ossification - most bones are formed this way. Dr. Siham Mohamed Osman Gritly

Osteoporosis Osteoporosis is a disease of the bones that affects men and women, especially women beyond menopause because estrogen helps to protect bone. Normal bone is composed of protein, collagen, and calcium, all of which give bone its strength. Bones that are affected by osteoporosis can break (fracture) with relatively minor injury that normally would not cause a bone to fracture. The osteoporosis condition can be present without any symptoms for decades Dr. Siham Mohamed Osman Gritly

Aging have an effects on bones;- Bones begin to lose calcium which lead to condition known as osteoporosis. less protein is produced which alters the make-up of bone and sometimes creates brittle or fragile bones. Osteoarthritis (wear and tear inflammation) upon weight bearing joints related to years of friction Dr. Siham Mohamed Osman Gritly

type of osteoporosis type I osteoporosis: osteoporosis characterized by rapid bone losses, primarily of trabecular bone. Women are most often the victims of this type of osteoporosis and bone breaks may occur suddenly. Trabecular bone becomes so fragile type II osteoporosis: osteoporosis characterized by gradual losses of both trabecular and cortical bone.these bones become weaken, breaks most often occur in the hip, Dr. Siham Mohamed Osman Gritly

Trabecular bone is network of calcium-containing crystals that fills the interior. Cortical bone is the dense, ivory like bone that forms the exterior shell Dr. Siham Mohamed Osman Gritly

Electron micrograph of healthy trabecular bone. Dr. Siham Mohamed Osman Gritly

Electron micrograph of trabecular bone affected by osteoporosis Dr. Siham Mohamed Osman Gritly

To keep bones healthy, a person should engage in weight training or weight-bearing endurance activities (such as tennis and jogging or vigorous walking) regularly. Regular physical activity combined with an adequate calcium intake helps to maximize bone density in adolescence. Adults can also maximize and maintain bone density with a regular program of weight training. Even past menopause, when most women are losing bone, weight training improves bone density. Dr. Siham Mohamed Osman Gritly

Osteoporosis and Exercise Physical activity may be the single most important factor supporting bone growth during adolescence active bones are denser and stronger than sedentary bones The benefit of exercise for osteoporosis has mostly to do with decreasing the risk of falls, probably because balance is improved and/or muscle strength is increased most doctors recommend weight-bearing exercise, such as walking, preferably daily. Dr. Siham Mohamed Osman Gritly

Best Types of Exercise All exercise benefits your general fitness. Weight-bearing exercise is best for strengthening bones. Here are some examples. Running and jogging Gymnastics Aerobics class -- step, dance and pump aerobics Weight lifting -- dumbbells, barbells, machines, body weight exercises Team sports involving running and throwing -- basketball, football, baseball, softball, volleyball Dr. Siham Mohamed Osman Gritly

Individual sports involving running -- racket sports Walking (but less effective than running or jogging) The least effective exercises for bones are: Swimming or water aerobics Cycling Other minimal weight-bearing exercise activities Dr. Siham Mohamed Osman Gritly

Key risk factors for osteoporosis genetic factors, lack of exercise, lack of calcium and vitamin D, personal history of fracture as an adult, rheumatoid arthritis, cigarette smoking, excessive alcohol consumption, low body weight, and family history of osteoporosis malabsorption (nutrients in the bowels are not properly absorbed) low estrogen levels chemotherapy Dr. Siham Mohamed Osman Gritly

loss of the menstrual period (amenorrhea) chronic inflammation hyperthyroidism (excessive thyroid hormone) hyperparathyroidism (excessive parathyroid hormone production causes too much calcium to be removed from the bone) Dr. Siham Mohamed Osman Gritly

EXERCISE PHYSIOLOGY Theory and Application to Fitness and Performance, 6 th edition Scott K. Powers & Edward T. Howley Åstrand P-O, Rodahl K. Textbook of Work Physiology—Physiological Bases of Exercise, 3rd Edn . McGraw–Hill Book Company, 1986 Dr. Siham Mohamed Osman Gritly

Sareen Gropper, Jack Smith and James Groff, Advanced Nutrition and Human Metabolism, fifth ed. WADSWORTH Melvin H Williams 2010; Nutrition for Health, Fitness and Sport. 9 th ed , McGraw Hill Heymsfield , SB.; Baumgartner N.; Richard and Sheau -Fang P. 1999. Modern Nutrition in Health and Disease; Shils E Maurice, Olson A. James, Shike Moshe and Ross A. Catharine eds. 9th edition Guyton, C. Arthur. 1985. Textbook of Medical Physiology. 6th edition, W.B. Company Dr. Siham Mohamed Osman Gritly

MACKENZIE, B. (2001) Physiology - Skeletal System [WWW] Available from: http://www.brianmac.co.uk/physiol.htm Dr. Siham Mohamed Osman Gritly

Flexibility;- Stretching activity that uses the major muscle groups 2 to 7 days per week. Enough to develop and maintain a full range of motion2 to 4 repetitions of 15 to 30 seconds per muscle group Dr. Siham Mohamed Osman Gritly

Strength;- Resistance activity that is performed at a controlled speed and through a full range of motion2 or more nonconsecutive days per week. Enough to enhance muscle strength and improve body composition. 8 to 12 repetitions of 8 to 10 different exercises (minimum. Pull-ups, push-ups, weight lifting, Dr. Siham Mohamed Osman Gritly

biceps muscle exercises Dr. Siham Mohamed Osman Gritly

10 response of the skeletal system to exercise; osteoporosis and fitness new

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