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The Muscular System. Did you know that ? -more than 50% of body weight is muscle ! -And muscle is made up of proteins and water.

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Presentation on theme: "The Muscular System. Did you know that ? -more than 50% of body weight is muscle ! -And muscle is made up of proteins and water."— Presentation transcript:

1 The Muscular System

2 Did you know that ? -more than 50% of body weight is muscle ! -And muscle is made up of proteins and water

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4 The Muscular System Muscles are responsible for all movement of the body There are three basic types of muscle –Skeletal –Cardiac –Smooth

5 Info About Muscles Only body tissue able to contract create movement by flexing and extending joints Body energy converters (many muscle cells contain many mitochondria)

6 3 Types of Muscles

7 Three types of muscle SkeletalCardiacSmooth

8 Classification of Muscle Skeletal- found in limbs Cardiac- found in heart Smooth- Found in viscera Striated, multi- nucleated Striated, 1 nucleus Not striated, 1 nucleus voluntaryinvoluntary

9 Characteristics of Muscle Skeletal and smooth muscle are elongated Muscle cell = muscle fiber Contraction of a muscle is due to movement of microfilaments (protein fibers) All muscles share some terminology –Prefixes myo and mys refer to muscle –Prefix sarco refers to flesh

10 Shapes of Muscles Triangular- shoulder, neck Spindle- arms, legs Flat- diaphragm, forehead Circular- mouth, anus

11 Skeletal Muscle Most are attached by tendons to bones Cells have more than one nucleus (multinucleated) Striated- have stripes, banding Voluntary- subject to conscious control Tendons are mostly made of collagen fibers Found in the limbs Produce movement, maintain posture, generate heat, stabilize joints

12 Structure of skeletal muscle Each cell (fibre) is long and cylindrical Typically 50-60mm in diameter, and up to 10cm long The contractile elements of skeletal muscle cells are myofibrils

13 Skeletal muscle structure Endomysium- sheath of connective tissue covering each individual fiber Perimysium- course fibrous membrane wrapping several fibers Fascicle-bundle of fibers wrapped by perimysium Epimysium- tough connective tissue wrapping entire muscle

14 Attaching to bone Tendon- strong cordlike collagenic fibers (strong and durable) Aponeurosis- sheet- like attachment of muscle to bone.

15 Smooth Muscle No striations Spindle shaped Single nucleus Involuntary- no conscious control Found mainly in the walls of hollow organs

16 Smooth muscle Lines walls of viscera Found in longitudinal or circular arrangement Alternate contraction of circular & longitudinal muscle in the intestine leads to peristalsis

17 Cardiac Muscle Striations Branching cells Involuntary Found only in the heart Usually has a single nucleus, but can have more than one

18 Cardiac muscle Main muscle of heart Pumping mass of heart Critical in humans Heart muscle cells behave as one unit Heart always contracts to it’s full extent

19 Structure of cardiac muscle Cardiac muscle cells (fibres) are short, branched and interconnected Cells are striated & usually have 1 nucleus Adjacent cardiac cells are joined via electrical synapses (gap junctions) These gap junctions appear as dark lines and are called intercalated discs

20 Muscle Control Type of muscle Nervous control Type of control Example Skeletal Controlled by CNS Voluntary Lifting a glass Cardiac Regulated by ANS Involuntary Heart beating Smooth Controlled by ANS Involuntary Peristalsis

21 Muscle Contractions Muscle fibers are made of tiny cylindrical structures called myofibrils made of protein filaments Myofibrils- 2 parts –Thick filaments- protein called myosin –Thin filaments- protein called actin Sarcomere- unit of alternating think and thin filaments, separated from one another by dense matter called z lines

22 Muscle Contractions Continued During a muscle contraction thin filaments slide past thick filaments shortening the sarcomere. Actin- 2 important proteins Tropomyosin Troponin When a muscle is about to contract Ca is released and binds to troponin which moves the tropomyosin away from myosin binding sites

23 Muscle Contractions Cont. Myosin heads split ATP becoming energized and in position Once the binding sites are accessible myosin heads can bind to the actin forming crossbridges. Myosin heads rotate and pulling the actin filament along with it (power stroke) Contractions continue while ATP and Ca are available When more ATP binds to the myosin head it releases from the actin filament

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25 Powering the Process Muscles use energy in the form of ATP! ATP resets the myosin head and releases the actin filament. To make ATP, the muscle does the following: Breaks down creatine phosphate, converting ADP into ATP Carries out anaerobic respiration, breaks glucose down into lactic acid and ATP is formed Carries out aerobic respiration, by which glucose, fats and amino acids are broken down in the presence of oxygen to produce ATP

26 Where Does the Energy Come From? Energy is stored in the muscles in the form of ATP ATP comes from the breakdown of glucose during Cellular Respiration This all happens in the Mitochondria of the cell When a muscle is fatigued (tired) it is unable to contract because of lack of Oxygen

27 Exercise and Muscles Isotonic- muscles shorten and movement occurs ( most normal exercise) Isometric- tension in muscles increases, no movement occurs (pushing one hand against the other)

28 How are Muscles Attached to Bone? Origin-attachment to a movable bone Insertion- attachment to an immovable bone Muscles are always attached to at least 2 points Movement is attained due to a muscle moving an attached bone

29 Muscle Attachments Origin Insertion

30 Flexion Types of Musculo-Skeletal Movement

31 Extension

32 Hyperextension

33 Abduction, Adduction & Circumduction

34 Rotation

35 More Types of Movement…… Inversion- turn sole of foot medially Eversion- turn sole of foot laterally Pronation- palm facing down Supination- palm facing up Opposition- thumb touches tips of fingers on the same hand

36 The Skeletal Muscles There are about 650 muscles in the human body. They enable us to move, maintain posture and generate heat. In this section we will only study a sample of the major muscles.

37 Sternocleidomastoideus Flexes and Rotates Head

38 Masseter Elevate Mandible

39 Temporalis Elevate & Retract Mandible

40 Trapezius Extend Head, Adduct, Elevate or Depress Scapula

41 Latissimus Dorsi Extend, Adduct & Rotate Arm Medially

42 Deltoid Abduct, Flex & Extend Arm

43 Pectoralis Major Flexes, adducts & rotates arm medially

44 Biceps Brachii Flexes Elbow Joint

45 Triceps Brachii Extend Elbow Joint

46 Rectus Abdominus Flexes Abdomen

47 External Oblique Compress Abdomen

48 External Intercostals Elevate ribs

49 Internal Intercostals Depress ribs

50 Diaphragm Inspiration

51 Forearm Muscles Flexor carpi—Flexes wrist Extensor carpi—Extends wrist Flexor digitorum—Flexes fingers Extensor digitorum—Extends fingers Pronator—Pronates Supinator—Supinates

52 Gluteus Maximus Extends & Rotates Thigh Laterally

53 Rectus Femoris Flexes Thigh, Extends Lower Leg

54 Gracilis Adducts and Flexes Thigh

55 Sartorius Flexes Thigh, & Rotates Thigh Laterally

56 Biceps Femoris Extends Thigh & Flexes Lower Leg

57 Gastrocnemius Plantar Flexes Foot & Flex Lower Leg

58 Tibialis Anterior Dorsiflexes and Inverts Foot


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