Presentation is loading. Please wait.

Presentation is loading. Please wait.

1. 2 Types of Muscle The human body is comprised of 324 muscles Muscle makes up 30-35% (in women) and 42-47% (in men) of body mass. Three types of muscle:

Similar presentations


Presentation on theme: "1. 2 Types of Muscle The human body is comprised of 324 muscles Muscle makes up 30-35% (in women) and 42-47% (in men) of body mass. Three types of muscle:"— Presentation transcript:

1 1

2 2 Types of Muscle The human body is comprised of 324 muscles Muscle makes up 30-35% (in women) and 42-47% (in men) of body mass. Three types of muscle: Skeletal muscle Smooth muscle Cardiac muscle

3 3 A. Skeletal (Striated) Muscle Connects the various parts of the skeleton through one or more connective tissue tendons During muscle contraction, skeletal muscle shortens and moves various parts of the skeleton Activated through signals carried to the muscles via nerves (voluntary control) Repeated activation of a skeletal muscle can lead to fatigue

4 4 B. Smooth Muscle Located in the blood vessels, the respiratory tract, the iris of the eye, the gastro-intestinal tract The contractions are slow and uniform Activation is involuntary

5 5 C. Cardiac Muscle Has characteristics of both skeletal and smooth muscle Functions to provide the contractile activity of the heart Is very fatigue resistant Activation of cardiac muscle is involuntary (like smooth muscle)

6 6 d) myofibril c) muscle fibre b) muscle fibre bundle a) Muscle belly Components of skeletal muscle

7 7 Muscle Fibres Each fibre is made up of a number of myofilaments Surrounded by a connective tissue sheath called Sarcolemma Many fibres are enclosed by connective tissue sheath Perimycium to form bundle of fibres Group of fibres activated via same nerve: motor unit Each fibre has capillaries that supply nutrients and eliminate waste

8 8 Muscle Teamwork Agonist (prime mover): - the muscle or group of muscles producing a desired effect Antagonist: - the muscle or group of muscles opposing the action Synergist: - the muscles surrounding the joint being moved Fixators: - the muscle or group of muscles that steady joints closer to the body axis so that the desired action can occur

9 9 Bending or straightening of elbow requires the coordinated interplay of the biceps and triceps muscles

10 10 Contractile Machinery: Sarcomeres Contractile units Organized in series ( attached end to end) Two types of protein myofilaments: - Actin: thin filament - Myosin: thick filament Each myosin is surrounded by six actin filaments Projecting from each myosin are tiny contractile myosin bridges Longitudinal section of myofibril a) at rest

11 11 Contractile Machinery: Crossbridge formation and movement Cross bridge formation: - a signal comes from the motor nerve activating the fibre - the heads of the myosin filaments temporarily attach themselves to the actin filaments Cross bridge movement: - similar to the stroking of the oars and movement of rowing shell - movement of myosin filaments in relation to actin filaments - shortening of the sarcomere - shortening of each sarcomere is additive b) contraction Longitudinal section of myofibril

12 12 Contractile Machinery: Optimal Crossbridge formation Sarcomeres should be optimal distance apart If the sarcomeres are stretched farther apart than optimal distance: - fewer cross bridges can form  less force produced If the sarcomeres are too close together: - cross bridges interfere with one another as they form  less force produced Longitudinal section of myofibril c) Powerful stretching d) Powerful contraction

13 13 Contractile Machinery: Optimal muscle length and optimal joint angle The distance between sarcomeres is dependent on the stretch of the muscle and the position of the joint Maximal muscle force occurs at optimal muscle length (lo) Maximal muscle force occurs at optimal joint angle Optimal joint angle occurs at optimal muscle length

14 14 Muscle tension during elbow flexion at constant speed

15 15 Contractile Machinery: Tendons, origin, insertion In order for muscles to contract, they must be attached to the bones to create movement Tendons: strong fibrous tissues at the ends of each muscle that attach muscle to bone Origin: the end of the muscle attached to the bone that does not move Insertion: the point of attachment of the muscle on the bone that moves

16 16 Muscle Fibre Types Slow twitch fibres: Slow Oxidative (Type I) Fast twitch fibres: Fast Glycolytic (Type IIb) Fast Oxidative Glyc. (Type IIb)

17 17 A. Slow Twitch Fibres Suited for repeated contractions during activities requiring a force output of < 20-25% of max force output Examples: lower power activities, endurance events

18 18 B) Fast Twitch Fibres Significantly greater force and speed generating capability than slow twitch fibres Well suited for activities involving high power Examples: sprinting, jumping, throwing

19 19 The Muscle Biopsy Used to determine muscle fibre type 1. Injection of local anesthetic into the muscle being sampled 2. Incision of approximately 5-7mm is made in the skin and fascia of the muscle 3. The piece of tissue (250-300mg) removed via the biopsy needle is imbedded in OCT compound 4. The sample is frozen in isopentane cooled to –180C

20 20 Nerve-Muscle Interaction Skeletal muscle activation is initiated through neural activation NS can be divided into central (CNS) and peripheral (PNS) The NS can be divided in terms of function: motor and sensory activity Sensory: collects info from the various sensors located throughout the body and transmits the info to the brain Motor: conducts signals to activate muscle contraction

21 21 Activation of motor unit and its innervation systems 1.Spinal cord 2. Cytosome 3. Spinal nerve 4. Motor nerve 5. Sensory nerve 6. Muscle with muscle fibres

22 22 Motor Unit Motor nerves extend from the spinal cord to the muscle fibres Each fibre is activated through impulses delivered via motor end plate Motor unit: a group of fibres activated via the same nerve Muscles needed to perform precise movements generally consist of a large number of motor units and few muscle fibres Less precise movements are carried out by muscles composed of fewer motor units with many fibres per unit

23 23 Muscle’s Adaptation to Strength Training Individual’s performance improvements occur through a process of biological adaptation, which is reflected in the body’s increased strength Adaptation process proceeds at different time rates for different functional systems and physiological processes Adaptation depends on intensity levels used in training and on athlete’s unique biological make-up Enzymes adapt within hours, cardiovascular adaptation within 10 to 14 days


Download ppt "1. 2 Types of Muscle The human body is comprised of 324 muscles Muscle makes up 30-35% (in women) and 42-47% (in men) of body mass. Three types of muscle:"

Similar presentations


Ads by Google