1. 11
The Muscular System

2. An Introduction to the Muscular System
Learning Outcomes
11-1 Describe the arrangement of fascicles in the various types of muscles, and explain the resulting functional differences.
11-2 Describe the classes of levers, and explain how they make muscles more efficient.
11-3 Predict the actions of a muscle on the basis of its origin and insertion, and explain how muscles interact to produce or oppose movements.
11-4 Explain how the name of a muscle can help identify its location, appearance, or function.

3. An Introduction to the Muscular System
Learning Outcomes
11-5 Identify the principal axial muscles of the body, plus their origins, insertions, actions, and innervation.
11-6 Identify the principal appendicular muscles of the body, plus their origins, insertions, actions, and innervation, and compare the major functional differences between the upper and lower limbs.
11-7 Identify age-related changes of the muscular system.

4. An Introduction to the Muscular System
Learning Outcomes
11-8 Explain the functional relationship between the muscular system and other body systems, and explain the role of exercise in producing various responses in other body systems.

5. An Introduction to the Muscular System
Consists only of skeletal muscles
Muscle Organization and Function
Muscle organization affects power, range, and speed of muscle movement
Fascicles
Muscle cells (fibers) are organized in bundles (fascicles)

6. 11-1 Fascicle Arrangement
Classification of Skeletal Muscles
By the way fascicles are organized
By relationships of fascicles to tendons

7. 11-1 Fascicle Arrangement
Organization of Skeletal Muscle Fibers
Four patterns of fascicle organization
Parallel
Convergent
Pennate
Circular

8. 11-1 Fascicle Arrangement
Parallel Muscles
Fibers parallel to the long axis of muscle
For example, biceps brachii
Depends on total number of myofibrils
Directly relates to cross section of muscle
1 in.2 (6.45 cm2) of cross section develops 50 lb (23 kg) of tension

9. Figure 11-1a Muscle Types Based on Pattern of Fascicle Organization
Body
(belly)
Cross section
Parallel muscle
(Biceps brachii muscle) 9

10. 11-1 Fascicle Arrangement
Convergent Muscles
A broad area converges on attachment site (tendon, aponeurosis, or raphe)
Muscle fibers pull in different directions, depending on stimulation
For example, pectoralis muscles

11. Figure 11-1b Muscle Types Based on Pattern of Fascicle Organization
Tendon
Base of
muscle
Cross
section
Convergent muscle
(Pectoralis muscles) 11

12. 11-1 Fascicle Arrangement
Pennate Muscles
Form an angle with the tendon
Do not move as far as parallel muscles
Contain more myofibrils than parallel muscles
Develop more tension than parallel muscles

13. 11-1 Fascicle Arrangement
Pennate Muscles
Unipennate
Fibers on one side of tendon
For example, extensor digitorum
Bipennate
Fibers on both sides of tendon
For example, rectus femoris
Multipennate
Tendon branches within muscle
For example, deltoid

14. Figure 11-1c Muscle Types Based on Pattern of Fascicle Organization
Extended
tendon
Unipennate muscle
(Extensor digitorum muscle) 14

15. Figure 11-1d Muscle Types Based on Pattern of Fascicle Organization
Bipennate muscle
(Rectus femoris muscle) 15

16. Figure 11-1e Muscle Types Based on Pattern of Fascicle Organization
Tendons
Cross section
Multipennate muscle
(Deltoid muscle) 16

17. 11-1 Fascicle Arrangement
Circular Muscles
Also called sphincters
Open and close to guard entrances of body
For example, orbicularis oris muscle of the mouth

18. Figure 11-1f Muscle Types Based on Pattern of Fascicle Organization
Contracted
Relaxed
Circular muscle
(Orbicularis oris muscle) 18

19. 11-2 Levers Skeletal Motion
Skeletal muscles attach to skeleton, produce motion
Type of muscle attachment affects power, range, and speed of muscle movement

20. 11-2 Levers
Levers
Mechanically, each bone is a lever (a rigid, moving structure)
And each joint a fulcrum (a fixed point)
Muscles provide applied force (AF)
Required to overcome load (L)

21. 11-2 Levers Function of a Lever To change: Direction of an AF
Distance and speed of movement produced by an AF
Effective strength of an AF

22. 11-2 Levers The Three Classes of Levers
Depend on the relationship between applied force, fulcrum, and resistance
First-class lever
Second-class lever
Third-class lever

23. 11-2 Levers First-Class Lever Seesaw or teeter-totter is an example
Center fulcrum between applied force and load
Force and load are balanced

24. Figure 11-2a The Three Classes of Levers
Load
Fulcrum
Applied
force
First-class lever.
The applied force and the load are on opposite sides of the fulcrum. 24

25. 11-2 Levers Second-Class Lever Wheelbarrow is an example
Center resistance between applied force and fulcrum
A small force moves a large weight

26. Figure 11-2b The Three Classes of Levers
Load
Fulcrum
Applied
force
Second-class lever.
The load lies between the applied force and the fulcrum. 26

27. 11-2 Levers Third-Class Lever Most common levers in the body
Center applied force between load and fulcrum
Greater force moves smaller load
Maximizes speed and distance traveled

28. Figure 11-2c The Three Classes of Levers
Applied
force
Load
Biceps brachii
muscle
Fulcrum
Third-class lever.
The force is applied between the load and the fulcrum. 28

29. 11-3 Muscle Attachments to Other Tissues
Origins and Insertions
Muscles have one fixed point of attachment (origin)
And one moving point of attachment (insertion)
Most muscles originate or insert on the skeleton
Origin is usually proximal to insertion

30. 11-3 Muscle Attachments to Other Tissues
Actions
Movements produced by muscle contraction
Body movements
For example, flexion, extension, adduction, etc.
Described in terms of bone, joint, or region

31. 11-3 Muscle Attachments to Other Tissues
Muscle Interactions
Muscles work in groups to maximize efficiency
Smaller muscles reach maximum tension first, followed by larger, primary muscles
Muscle Terminology Based on Function
Agonist (or prime mover)
Antagonist
Synergist

32. 11-3 Muscle Attachments to Other Tissues
Agonist (Prime Mover)
Produces a particular movement
Antagonist
Opposes movement of a particular agonist
Synergist
A smaller muscle that assists a larger agonist
Helps start motion or stabilize origin of agonist (fixator)

33. 11-3 Muscle Attachments to Other Tissues
Muscle Opposition
Agonists and antagonists work in pairs
When one contracts, the other stretches
Such as flexors–extensors, abductors–adductors, etc.

34. 11-4 Naming Skeletal Muscles
Names of Skeletal Muscles
Correct names of muscles include the term muscle
Exceptions:
Platysma
Diaphragm

35. 11-4 Naming Skeletal Muscles
Descriptive Names for Skeletal Muscles
Location in the body
Origin and insertion
Fascicle organization
Relative position
Structural characteristics
Action

36. 11-4 Naming Skeletal Muscles
Location in the Body
Identifies body regions
For example, temporalis muscle
Origin and Insertion
First part of name indicates origin
Second part of name indicates insertion
For example, genioglossus muscle

37. 11-4 Naming Skeletal Muscles
Fascicle Organization
Describes fascicle orientation within muscle
For example, rectus (straight), transversus, oblique

38. 11-4 Naming Skeletal Muscles
Position
Externus (superficialis)
Visible at body surface
Internus (profundus)
Deep muscles
Extrinsic
Muscles outside an organ
Intrinsic
Muscles inside an organ

39. 11-4 Naming Skeletal Muscles
Structural Characteristics
Number of tendons
bi = 2, tri = 3
Shape
Trapezius, deltoid, rhomboid
Size
Many terms refer to muscle size

40. 11-4 Naming Skeletal Muscles
Action
Movements
For example, flexor, extensor, retractor
Occupations or habits
For example, risor = laughter

41. 11-4 Naming Skeletal Muscles
Terms Indicating Specific Regions of the Body
Abdominis (abdomen)
Anconeus (elbow)
Auricularis (auricle of ear)
Brachialis (brachium)
Capitis (head)
Carpi (wrist)
Cervicis (neck)
Cleido-/-clavius

42. 11-4 Naming Skeletal Muscles
Terms Indicating Specific Regions of the Body
Coccygeus (coccyx)
Costalis (ribs)
Cutaneous (skin)
Femoris (femur)
Genio- (chin)
Glosso-/-glossal (tongue)
Hallucis (great toe)
Ilio- (ilium)
Inguinal (groin)

43. 11-4 Naming Skeletal Muscles
Terms Indicating Specific Regions of the Body
Lumborum (lumbar region)
Nasalis (nose)
Nuchal (back of neck)
Oculo- (eye)
Oris (mouth)
Palpebrae (eyelid)
Pollicis (thumb)
Popliteus (posterior to knee)
Psoas (loin)

44. 11-4 Naming Skeletal Muscles
Terms Indicating Specific Regions of the Body
Radialis (radius)
Scapularis (scapula)
Temporalis (temples)
Thoracis (thoracic region)
Tibialis (tibia)
Ulnaris (ulna)
Uro- (urinary)

45. 11-4 Naming Skeletal Muscles
Terms Indicating Position, Direction, or Fascicle Organization
Anterior (front)
Externus (superficial)
Extrinsic (outside)
Inferioris (inferior)
Internus (deep, internal)
Intrinsic (inside)
Lateralis (lateral)
Medialis/medius (medial, middle)

46. 11-4 Naming Skeletal Muscles
Terms Indicating Position, Direction, or Fascicle Organization
Oblique
Posterior
Profundus (deep)
Rectus (straight, parallel)
Superficialis
Superioris (superior)
Transversus (transverse)

47. 11-4 Naming Skeletal Muscles
Terms Indicating Structural Characteristics of the Muscle
Nature of Origin
Biceps (two heads)
Triceps (three heads)
Quadriceps (four heads)

48. 11-4 Naming Skeletal Muscles
Terms Indicating Structural Characteristics of the Muscle
Shape
Deltoid (triangle)
Orbicularis (circle)
Pectinate (comblike)
Piriformis (pear-shaped)
Platy- (flat)
Pyramidal (pyramid)

49. 11-4 Naming Skeletal Muscles
Terms Indicating Structural Characteristics of the Muscle
Shape
Rhomboid
Serratus (serrated)
Splenius (bandage)
Teres (long and round)
Trapezius (trapezoid)

50. 11-4 Naming Skeletal Muscles
Terms Indicating Structural Characteristics of the Muscle
Other Striking Features
Alba (white)
Brevis (short)
Gracilis (slender)
Lata (wide)
Latissimus (widest)
Longissimus (longest)
Longus (long)

51. 11-4 Naming Skeletal Muscles
Terms Indicating Structural Characteristics of the Muscle
Other Striking Features
Magnus (large)
Major (larger)
Maximus (largest)
Minimus (smallest)
Minor (smaller)
Vastus (great)

52. 11-4 Naming Skeletal Muscles
Terms Indicating Actions
General
Abductor
Adductor
Depressor
Extensor
Flexor
Levator
Pronator
Rotator
Supinator
Tensor

53. 11-4 Naming Skeletal Muscles
Terms Indicating Actions
Specific
Buccinator (trumpeter)
Risorius (a laughter)
Sartorius (like a tailor)

54. 11-4 Naming Skeletal Muscles
Divisions of the Muscular System
Axial muscles
Position head and spinal column
Move rib cage
60% of skeletal muscles
Appendicular muscles
Support pectoral and pelvic girdles
Support limbs
40% of skeletal muscles

55. Figure 11-3a An Overview of the Major Skeletal Muscles
Axial Muscles
Appendicular Muscles
Frontal belly of
occipitofrontalis
Trapezius
Temporoparietalis (reflected)
Clavicle
Deltoid
Temporalis
Sternum
Pectoralis major
Sternocleidomastoid
Latissimus dorsi
Serratus anterior
Biceps brachii
Rectus abdominis
Triceps brachii
External oblique
Brachialis
Pronator teres
Brachioradialis
Extensor carpi radialis longus
Linea alba
Extensor carpi radialis brevis
Palmaris longus
Flexor carpi radialis
Flexor digitorum superficialis
Flexor carpi ulnaris
An anterior view.
ATLAS: Plates 1a; 39a–d 55

56. Figure 11-3a An Overview of the Major Skeletal Muscles
Appendicular Muscles
Gluteus medius
Tensor fasciae latae
Iliopsoas
Pectineus
Adductor longus
Iliotibial tract
Gracilis
Sartorius
Patella
Rectus femoris
Vastus lateralis
Vastus medialis
Tibia
Gastrocnemius
Fibularis longus
Tibialis anterior
Soleus
Extensor digitorum longus
Superior extensor
retinaculum
Inferior extensor
retinaculum
Lateral malleolus of fibula
Medial malleolus of tibia
An anterior view.
ATLAS: Plates 1a; 39a–d 56

57. Figure 11-3b An Overview of the Major Skeletal Muscles
Axial Muscles
Appendicular Muscles
Occipital belly of
occipitofrontalis
Sternocleidomastoid
Trapezius
Deltoid
Infraspinatus
Teres minor
Teres major
External oblique
Rhomboid major
Triceps brachii (long head)
Triceps brachii (lateral head)
Latissimus dorsi
Brachioradialis
Extensor carpi radialis longus
Anconeus
Flexor carpi ulnaris
Extensor digitorum
Extensor carpi ulnaris
A posterior view
ATLAS: Plates 1b; 40a,b 57

58. Figure 11-3b An Overview of the Major Skeletal Muscles
Appendicular Muscles
Gluteus medius
Tensor fasciae latae
Gluteus maximus
Adductor magnus
Semitendinosus
Semimembranosus
Iliotibial tract
Gracilis
Biceps femoris
Sartorius
Plantaris
Gastrocnemius
Soleus
Calcaneal
tendon
Calcaneus
A posterior view
ATLAS: Plates 1b; 40a,b 58

59. 11-5 Axial Musculature The Axial Muscles
Divisions based on location and function
Muscles of the head and neck
Muscles of the vertebral column
Oblique and rectus muscles
Muscles of the pelvic floor

60. 11-5 Axial Musculature Muscles of Facial Expression
Originate on skull
Extrinsic Eye Muscles
Originate on surface of orbit
Control position of eye
Muscles of Mastication
Move the mandible
Muscles of the Tongue
Names end in glossus

61. 11-5 Axial Musculature Muscles of the Pharynx
Begin swallowing process
Anterior Muscles of the Neck
Control position of larynx
Depress the mandible
Support tongue and pharynx

62. 11-5 Axial Musculature Muscles of Facial Expression
Orbicularis oris constricts the mouth opening
Buccinator moves food around the cheeks
Muscles of the epicranium (scalp)

63. 11-5 Axial Musculature Muscles of Facial Expression
Muscles of the epicranium (scalp)
Temporoparietalis
Occipitofrontalis
Frontal and occipital bellies
Separated by epicranial aponeurosis
Platysma
Covers anterior surface of neck

64. Figure 11-4a Muscles of Facial Expression
Epicranial aponeurosis
Temporoparietalis
(cut and reflected)
Frontal belly of
occipitofrontalis
Temporalis
Procerus
Orbicularis oculi
Nasalis
Occipital belly of
occipitofrontalis
Levator labii superioris
Zygomaticus minor
Masseter
Levator anguli oris
Buccinator
Zygomaticus major
Sternocleidomastoid
Mentalis (cut)
Orbicularis oris
Trapezius
Depressor labii inferioris
Depressor anguli oris
Omohyoid
Platysma (cut and reflected)
Lateral view 64

65. Figure 11-4b Muscles of Facial Expression
Epicranial aponeurosis
Frontal belly of
occipitofrontalis
Temporoparietalis
(cut and reflected)
Corrugator supercilii
Temporalis
Temporalis (temporoparietalis
removed)
Orbicularis oculi
Procerus
Nasalis
Levator labii superioris
Zygomaticus minor
Levator anguli oris
Zygomaticus major
Orbicularis oris
Masseter
Risorius
Buccinator
Platysma
Depressor anguli oris
Depressor labii inferioris
Mentalis (cut)
Sternal head of
sternocleidomastoid
Thyroid cartilage
of the larynx
Clavicular head of
sternocleidomastoid
Trapezius
Clavicle
Platysma
(cut and
reflected)
Anterior view 65

66. Table 11-2 Muscles of Facial Expression (Figure 11-4)66

67. Table 11-2 Muscles of Facial Expression (Figure 11-4)67

68. 11-5 Axial Musculature Six Extrinsic Eye Muscles (Oculomotor Muscles)
Inferior rectus
Medial rectus
Superior rectus
Lateral rectus
Inferior oblique
Superior oblique

69. Figure 11-5a Extrinsic Eye Muscles
Levator
palpebrae
superioris
Superior
rectus
Superior
oblique
Frontal
bone
Trochlea
(ligamentous sling)
Optic
nerve
Lateral
rectus
Inferior
rectus
Maxilla
Inferior oblique
Lateral surface, right eye 69

70. Figure 11-5b Extrinsic Eye Muscles
Levator
palpebrae
superioris
Superior
rectus
Superior
oblique
Trochlea
Medial
rectus
Inferior
rectus
Optic
nerve
Medial surface, right eye 70

71. Figure 11-5c Extrinsic Eye Muscles
Trochlea
Superior
rectus
Superior
oblique
Lateral
rectus
Medial
rectus
Inferior
oblique
Inferior
rectus
Anterior view, right eye 71

72. Figure 11-5d Extrinsic Eye Muscles
Trochlear
nerve (N IV)
Trochlea
Levator palpebrae
superioris
Superior rectus
Superior
oblique
Oculomotor
nerve (N III)
Lateral rectus
Medial rectus
Abducens
nerve (N VI)
Optic nerve (N II)
Inferior rectus
Inferior oblique
Anterior view, right orbit 72

73. Table 11-3 Extrinsic Eye Muscles (Figure 11–5)73

74. 11-5 Axial Musculature Muscles of Mastication Masseter Temporalis
The strongest jaw muscle
Temporalis
Helps lift the mandible
Pterygoid muscles
Position mandible for chewing

75. Figure 11-6a Muscles of Mastication
Superior temporal line
Temporalis
Capsule of
temporomandibular joint
Zygomatic
arch
Masseter
Lateral view. The temporalis muscle passes
medial to the zygomatic arch to insert on the
coronoid process of the mandible. The
masseter inserts on the angle and lateral
surface of the mandible. 75

76. Figure 11-6b Muscles of Mastication
Lateral pterygoid
Medial pterygoid
Cut edge of mandible
Lateral view, pterygoid muscles
exposed. The location and orientation of
the pterygoid muscles can be seen after
the overlying muscles, along with a
portion of the mandible, are removed. 76

77. Table 11-4 Muscles of Mastication (Figure 11–6)77

78. 11-5 Axial Musculature Muscles of the Tongue
All named for origin and insertion
Palatoglossus
Styloglossus
Genioglossus
Hyoglossus

79. Figure 11-7 Muscles of the Tongue
Styloid process
Palatoglossus
Styloglossus
Genioglossus
Hyoglossus
Hyoid bone
Mandible
(cut) 79

80. Table 11-5 Muscles of the Tongue (Figure 11–7)80

81. 11-5 Axial Musculature Muscles of the Pharynx
Pharyngeal constrictor muscles
Move food into esophagus
Laryngeal elevator muscles
Elevate the larynx
Palatal muscles
Lift the soft palate

82. Figure 11-8 Muscles of the Pharynx
Palatal Muscles
Tensor veli
palatini
Levator veli
palatini
Laryngeal elevators
Pharyngeal
Constrictors
Superior
Middle
Inferior
Esophagus 82

83. Table 11-6 Muscles of the Pharynx (Figure 11–8)83

84. Table 11-10 Muscles of the Pelvic Floor (Figure 11–12)84

85. 11-5 Axial Musculature Anterior Muscles of the Neck Digastric
From chin to hyoid
And hyoid to mastoid
Mylohyoid
Floor of the mouth
Geniohyoid
Between hyoid and chin

86. 11-5 Axial Musculature Anterior Muscles of the Neck Stylohyoid
Between hyoid and styloid
Sternocleidomastoid
From clavicle and sternum to mastoid
Omohyoid
Attaches scapula, clavicle, first rib, and hyoid

87. Figure 11-9a Muscles of the Anterior Neck
Mylohyoid
(cut and
reflected)
Mandible
Mylohyoid
Geniohyoid
Digastric
Stylohyoid
Anterior belly
Hyoid bone
Posterior belly
Thyrohyoid
Sternocleidomastoid (cut)
Thyroid cartilage
of larynx
Omohyoid
Sternothyroid
Superior belly
Inferior belly
Sternohyoid
Clavicle
Sternocleidomastoid
Cut heads of
sternocleidomastoid
Clavicular head
Sternal head
Sternum
Anterior view 87

88. Figure 11-9b Muscles of the Anterior Neck
Genioglossus
(cut)
Mylohyoid
Geniohyoid
Mandible
Hyoid bone
Superior view 88