2. Chapter 7
The Muscular System

3. Introduction Muscular tissue enables the body and its parts to move
Movement caused by ability of muscle cells (called fibers) to shorten or contract
Muscle cells shorten by converting chemical energy (obtained from food) into mechanical energy, which causes movement
Three types of muscle tissue exist in the body--skeletal, cardiac, smooth

4. Muscle Tissue Types of muscle tissue
Skeletal muscle—also called striated or voluntary muscle
Is 40% to 50% of body weight (“red meat” attached to bones)
Microscope reveals crosswise stripes or striations
Contractions can be voluntarily controlled
(Cont’d…)

6. Muscle Tissue Cardiac muscle—composes bulk of heart
(…Cont’d)
Cardiac muscle—composes bulk of heart
Cardiac muscle cells branch frequently
Characterized by unique dark bands called intercalated disks
Interconnected nature of cardiac muscle cells allows heart to contract efficiently as a unit
(Cont’d…)

8. Muscle Tissue
(…Cont’d)
Nonstriated muscle or involuntary muscle—also called smooth or visceral muscle
Lacks cross stripes or striation when seen under a microscope; appears smooth
Found in walls of hollow visceral structures such as digestive tract, blood vessels, and ureters
Contractions not under voluntary control; movement caused by contractions is involuntary
Function—all muscle cells specialize in contraction (shortening)

11. Structure of Skeletal Muscle
Each skeletal muscle is an organ composed mainly of skeletal muscle cells and connective tissue
Most skeletal muscles extend from one bone across a joint to another bone
(Cont’d…)

12. Structure of Skeletal Muscle
(…Cont’d)
Parts of a skeletal muscle
Origin—attachment to the bone that remains relatively stationary or fixed when movement at the joint occurs
Insertion—point of attachment to the bone that moves when a muscle contracts
Body—main part of the muscle
(Cont’d…)

13. Structure of Skeletal Muscle
(…Cont’d)
Muscles attach to the bone by tendons—strong cords of fibrous connective tissue; some tendons enclosed in synovial-lined tubes and are lubricated by synovial fluid; tubes called tendon sheaths
Bursae—small synovial-lined sacs containing a small amount of synovial fluid; located between some tendons and underlying bones
(Cont’d…)

15. Structure of Skeletal Muscle
(…Cont’d)
Microscopic structure
Contractile cells called fibers—grouped into bundles
Fibers contain thick myofilaments (containing the protein myosin) and thin myofilaments (composed of actin)
(Cont’d…)

16. Structure of Skeletal Muscle
(…Cont’d)
Basic functional (contractile) unit called sarcomere; sarcomeres separated from each other by dark bands called Z lines
Sliding filament model explains mechanism of contraction
Thick and thin myofilaments slide past each other as a muscle contracts
Contraction requires calcium and energy-rich ATP molecules

18. Functions of Skeletal Muscle
1. Movement
2. Posture or muscle tone
3. Heat production

19. Functions of Skeletal Muscle
Movement
Muscles produce movement; as a muscle contracts, it pulls the insertion bone closer to the origin bone; movement occurs at the joint between the origin and the insertion
(Cont’d…)

20. Functions of Skeletal Muscle
(…Cont’d)
Groups of muscles usually contract to produce a single movement
Prime mover—muscle whose contraction is mainly responsible for producing a given movement
Synergist—muscle whose contractions help the prime mover produce a given movement
Antagonist—muscle whose actions oppose the action of a prime mover in any given movement
(Cont’d…)

21. Functions of Skeletal Muscle
(…Cont’d)
Posture
A specialized type of muscle contraction, called tonic contraction, enables us to maintain body position
In a tonic contraction, only a few of a muscle’s fibers shorten at one time
Tonic contractions produce no movement of body parts
(Cont’d…)

22. Functions of Skeletal Muscle
(…Cont’d)
Tonic contractions maintain muscle tone called posture
Good posture reduces strain on muscles, tendons, ligaments, and bones
Poor posture causes fatigue and may lead to deformity
(Cont’d…)

23. Functions of Skeletal Muscle
(…Cont’d)
Heat production
Survival depends on the body’s ability to maintain a constant body temperature
Fever—an elevated body temperature; often a sign of illness
Hypothermia—a reduced body temperature
Contraction of muscle fibers produces most of the heat required to maintain normal body temperature

24. Fatigue Reduced strength of muscle contraction
Caused by repeated muscle stimulation
Repeated muscular contraction depletes cellular ATP store and outstrips the ability of the blood supply to replenish oxygen and nutrients
(Cont’d…)

25. Fatigue
(…Cont’d)
Contraction in the absence of adequate oxygen produces lactic acid, which contributes to muscle soreness
Oxygen debt—term used to describe the metabolic effort to burn excess lactic acid that may accumulate during prolonged periods of exercise; the body is attempting to return the cells’ energy and oxygen reserves to pre-exercise levels

26. Role of Other Body Systems in Movement
Muscle functioning depends on the functioning of many other parts of the body
Respiratory, circulatory, nervous, muscular, and skeletal systems play essential roles in producing normal movements
Multiple sclerosis, brain hemorrhage, and spinal cord injury are examples of how pathologic conditions in other body organ systems can dramatically affect movement

27. Motor Unit
Stimulation of a muscle by a nerve impulse is required before a muscle can shorten and produce movement
A motor neuron is the specialized nerve that transmits an impulse to a muscle, causing contraction
(Cont’d…)

29. Motor Unit
(…Cont’d)
A neurotransmitter junction is the specialized point of contact between a nerve ending and the muscle fiber it innervates
A motor unit is the combination of a motor neuron with the muscle cell or cells it innervates

31. Muscle Stimulus
A muscle will contract only if an applied stimulus (acetylcholine) reaches a certain level of intensity
A threshold stimulus is the minimal level of stimulation required to cause a muscle fiber to contract
Once stimulated by a threshold stimulus, a muscle fiber will contract completely, a response called all or none
(Cont’d…)

32. Muscle Stimulus
(…Cont’d)
Different muscle fibers in a muscle are controlled by different motor units having different threshold-stimulus levels
Although individual muscle fibers always respond all or none to a threshold stimulus, the muscle as a whole does not
Different motor units responding to different threshold stimuli permit a muscle as a whole to execute contractions of graded force

33. Types of Skeletal Muscle Contraction
Twitch and tetanic contractions
Twitch contractions--do not play a significant role in normal muscular activity; single contraction of muscle fibers caused by a single threshold stimulus
Tetanic contractions--sustained and steady muscular contractions caused by a series of stimuli bombarding a muscle in rapid succession
(Cont’d…)

34. Types of Skeletal Muscle Contraction
(…Cont’d)
Isotonic contractions
Contraction of a muscle that produces movement at a joint
Muscle changes length, insertion end of muscle moves relative to origin
Most types of body movements (walking, running)
(Cont’d…)

35. Types of Skeletal Muscle Contraction
(…Cont’d)
Isometric contractions
Muscle contractions that do not produce movement; the muscle as a whole does not shorten
Although no movement occurs, tension within the muscle increases

36. Effects of Exercise on Skeletal Muscles
If regular and properly practiced
improves muscle tone and posture
more efficient heart and lung functioning, and reduces fatigue
(Cont’d…)

37. Effects of Exercise on Skeletal Muscles
(…Cont’d)
Effects of Exercise on Skeletal Muscles
Muscles undergo changes related to the amount of work they normally do
Prolonged inactivity causes disuse atrophy
Regular exercise increases muscle size, called hypertrophy
(Cont’d…)

38. Effects of Exercise on Skeletal Muscles
(…Cont’d)
Strength training is exercise involving contractions of muscles against heavy resistance
Increases numbers of myofilaments in each muscle fiber, and as a result, the total mass of the muscle increases
Strength training does not increase the number of muscle fibers
(Cont’d…)

39. Effects of Exercise on Skeletal Muscles
(…Cont’d)
Endurance training--increases a muscle’s ability to sustain moderate exercise over long periods; it is sometimes called aerobic training
Endurance training allows more efficient delivery of oxygen and nutrients to a muscle via increased blood flow
Endurance training does not usually result in muscle hypertrophy

42. Skeletal Muscle Groups
Muscles of the head and neck
Facial muscles
Orbicularis oculi
Orbicularis oris
Zygomaticus
(Cont’d…)

43. Skeletal Muscle Groups
(…Cont’d)
Muscles of mastication
Masseter
Temporal
Sternocleidomastoid—flexes head
Trapezius—elevates shoulders and extends head
(Cont’d…)

44. Skeletal Muscle Groups
(…Cont’d)
Muscles that move the upper extremities
Pectoralis major—flexes upper arm
Latissimus dorsi—extends upper arm
Deltoid—abducts upper arm
Biceps brachii—flexes forearm
Triceps brachii—extends forearm
(Cont’d…)

45. Skeletal Muscle Groups
(…Cont’d)
Muscles of the trunk
Abdominal muscles
Rectus abdominis
External oblique
Internal oblique
Transversus abdominis
Respiratory muscles
Intercostal muscles
Diaphragm
(Cont’d…)

46. Skeletal Muscle Groups
(…Cont’d)
Muscles that move the lower extremities
Iliopsoas—flexes thigh
Gluteus maximus—extends thigh
Adductor muscles—adduct thighs
Hamstring muscles—flex lower leg
Semimembranosus
Semitendinosus
Biceps femoris
(Cont’d…)

47. Skeletal Muscle Groups
(…Cont’d)
Muscles that move the lower extremities
Quadriceps femoris group—extend lower leg
Rectus femoris
Vastus muscles
Tibialis anterior—dorsiflexes foot
Gastrocnemius—plantar flexes foot
Peroneus group—flex foot

48. Types of Movements Produced by Skeletal Muscle Contractions
Flexion—movement that decreases the angle between two bones at their joint: bending
Extension—movement that increases the angle between two bones at their joint: straightening
(Cont’d…)

49. Types of Movements Produced by Skeletal Muscle Contractions
(…Cont’d)
Abduction—movement of a part away from the midline of the body
Adduction—movement of a part toward the midline of the body
Rotation—movement around a longitudinal axis
(Cont’d…)

50. Types of Movements Produced by Skeletal Muscle Contractions
(…Cont’d)
Supination and pronation—hand positions that result from rotation of the forearm; supination results in a hand position with the palm turned to the anterior position; pronation occurs when the palm faces posteriorly
(Cont’d…)

51. Types of Movements Produced by Skeletal Muscle Contractions
(…Cont’d)
Dorsiflexion and plantar flexion—foot movements; dorsiflexion results in elevation of the dorsum or top of the foot; during plantar flexion, the bottom of the foot is directed downward

52. The End