1. © 2015 Pearson Education, Inc.

2. Muscles and Body Movements
Movement is attained as a result of a muscle moving an attached bone
Muscles are attached to at least two points
Origin: attachment to a moveable bone
Insertion: attachment to an immovable bone
© 2015 Pearson Education, Inc.

3. Figure 6.12 Muscle attachments (origin and insertion).
Muscle contracting
Origin
Brachialis
Tendon
Insertion

4. Types of Body Movements
Flexion
Decreases the angle of the joint
Brings two bones closer together
Typical of bending hinge joints (e.g., knee and elbow) or ball-and-socket joints (e.g., the hip)
Extension
Opposite of flexion
Increases angle between two bones
Typical of straightening the elbow or knee
Extension beyond 180° is hyperextension
© 2015 Pearson Education, Inc.

5. Figure 6.13a Body movements.
Flexion
Hyperextension
Extension
Flexion
Extension
(a) Flexion, extension, and hyperextension of the shoulder and knee

6. Figure 6.13b Body movements.
Hyperextension
Extension
Flexion
(b) Flexion, extension, and hyperextension

7. Types of Body Movements
Rotation
Movement of a bone around its longitudinal axis
Common in ball-and-socket joints
Example: moving the atlas around the dens of axis (i.e., shaking your head “no”)
© 2015 Pearson Education, Inc.

8. Figure 6.13c Body movements.
Rotation
Lateral rotation
Medial rotation
(c) Rotation

9. Types of Body Movements
Abduction
Movement of a limb away from the midline
Adduction
Opposite of abduction
Movement of a limb toward the midline
© 2015 Pearson Education, Inc.

10. Figure 6.13d Body movements.
Abduction
Adduction
Circumduction
(d) Abduction, adduction, and circumduction

11. Types of Body Movements
Circumduction
Combination of flexion, extension, abduction, and adduction
Common in ball-and-socket joints
Proximal end of bone is stationary, and distal end moves in a circle
© 2015 Pearson Education, Inc.

12. Figure 6.13d Body movements.
Abduction
Adduction
Circumduction
(d) Abduction, adduction, and circumduction

13. Special Movements Dorsiflexion Plantar flexion
Lifting the foot so that the superior surface approaches the shin (toward the dorsum)
Plantar flexion
Depressing the foot (pointing the toes)
“Planting” the foot toward the sole
© 2015 Pearson Education, Inc.

14. Figure 6.13e Body movements.
Dorsiflexion
Plantar flexion
(e) Dorsiflexion and plantar flexion

15. Special Movements Inversion Eversion Turning sole of foot medially
Turning sole of foot laterally
© 2015 Pearson Education, Inc.

16. Figure 6.13f Body movements.
Inversion
Eversion
(f) Inversion and eversion

17. Special Movements Supination Pronation
Forearm rotates laterally so palm faces anteriorly
Radius and ulna are parallel
Pronation
Forearm rotates medially so palm faces posteriorly
Radius and ulna cross each other like an X
© 2015 Pearson Education, Inc.

18. Figure 6.13g Body movements.
Pronation (radius rotates over ulna)
Supination (radius and ulna are parallel) P S S
(g) Supination (S) and pronation (P)

19. Special Movements Opposition
Moving the thumb to touch the tips of other fingers on the same hand
© 2015 Pearson Education, Inc.

20. Figure 6.13h Body movements.
Opposition
(h) Opposition

21. Interactions of Skeletal Muscles in the Body
In general, groups of muscles that produce opposite actions lie on opposite sides of a joint
We will explore examples in Figure 6.14 next
© 2015 Pearson Education, Inc.

22. Example: Pectoralis major (anterior view)
Figure 6.14a Muscle action.
(a) A muscle that crosses on the anterior side of a joint produces flexion*
Example: Pectoralis major (anterior view)
* These generalities do not apply to the knee and ankle because the lower limb is rotated during development.
The muscles that cross these joints posteriorly produce flexion, and those that cross anteriorly produce extension.

23. Example: Latissimus dorsi (posterior view)
Figure 6.14b Muscle action.
(b) A muscle that crosses on the posterior side of a joint produces extension*
Example: Latissimus dorsi (posterior view)
The latissimus dorsi is the antagonist of the pectoralis major.
* These generalities do not apply to the knee and ankle because the lower limb is rotated during development.
The muscles that cross these joints posteriorly produce flexion, and those that cross anteriorly produce extension.

24. Example: Deltoid middle fibers (anterolateral view)
Figure 6.14c Muscle action.
(c) A muscle that crosses on the lateral side of a joint produces abduction
Example: Deltoid middle fibers (anterolateral view)

25. Example: Teres major (posterolateral view)
Figure 6.14d Muscle action.
(d) A muscle that crosses on the medial side of a joint produces adduction
Example: Teres major (posterolateral view)
The teres major is the antagonist of the deltoid.

26. Types of Muscles
Prime mover—muscle with the major responsibility for a certain movement
Antagonist—muscle that opposes or reverses a prime mover
Synergist—muscle that aids a prime mover in a movement and helps prevent rotation
Fixator—stabilizes the origin of a prime mover
© 2015 Pearson Education, Inc.

27. Naming Skeletal Muscles
By direction of muscle fibers
Example: rectus (straight)
By relative size of the muscle
Example: maximus (largest)
© 2015 Pearson Education, Inc.

28. Naming Skeletal Muscles
By location of the muscle
Example: temporalis (temporal bone)
By number of origins
Example: triceps (three heads)
© 2015 Pearson Education, Inc.

29. Naming Skeletal Muscles
By location of the muscle’s origin and insertion
Example: sterno (on the sternum)
By shape of the muscle
Example: deltoid (triangular)
By action of the muscle
Example: flexor and extensor (flexes or extends a bone)
© 2015 Pearson Education, Inc.

30. Figure 6.15 Relationship of fascicle arrangement to muscle structure.
(b)
(c)
(a) Circular (orbicularis oris)
(b) Converent (pectoralis major)
(e) Multipennate (deltoid)
(d)
(f)
(f) Bipennate (rectus femoris)
(g)
(c) Fusiform (biceps brachii)
(d) Parallel (sartorius)
(g) Unipennate (extensor digitorum longus)

31. Table 6. 3 Superficial Anterior Muscles of the Body (See Figure 6
Table 6.3 Superficial Anterior Muscles of the Body (See Figure 6.22) (1 of 3).

32. Figure 6.16 Superficial muscles of the face and neck.
Cranial aponeurosis
Frontalis
Temporalis
Orbicularis oculi
Occipitalis
Zygomaticus
Buccinator
Masseter
Orbicularis oris
Sternocleidomastoid
Trapezius
Platysma

33. Table 6. 3 Superficial Anterior Muscles of the Body (See Figure 6
Table 6.3 Superficial Anterior Muscles of the Body (See Figure 6.22) (2 of 3).

34. Figure 6.17a Muscles of the anterior trunk, shoulder, and arm.
Clavicle
Deltoid
Sternum
Pectoralis major
Biceps brachii
Brachialis
Brachio- radialis
(a)

35. Figure 6.17b Muscles of the anterior trunk, shoulder, and arm.
Pectoralis major
Rectus abdominis
Transversus abdominis
Internal oblique
External oblique
Aponeurosis
(b)

36. Table 6. 3 Superficial Anterior Muscles of the Body (See Figure 6
Table 6.3 Superficial Anterior Muscles of the Body (See Figure 6.22) (3 of 3).

37. Anterior superior iliac spine
Figure 6.20c Pelvic, hip, and thigh muscles of the right side of the body.
12th thoracic vertebra
12th rib
Iliac crest
Psoas major
Iliopsoas
Iliacus
5th lumbar vertebra
Anterior superior iliac spine
Sartorius
Adductor group
Rectus femoris
Vastus lateralis
Quadriceps
Vastus medialis
Patella
Patellar ligament
(c)

38. Figure 6.21a Superficial muscles of the right leg.
Fibularis longus
Tibia
Fibularis brevis
Soleus
Tibialis anterior
Extensor digitorum longus
Fibularis tertius
(a)

39. Inguinal ligament Adductor muscles Sartorius Vastus lateralis (d)
Figure 6.20d Pelvic, hip, and thigh muscles of the right side of the body.
Inguinal ligament
Adductor muscles
Sartorius
Vastus lateralis
(d)

40. Table 6.4 Superior Posterior Muscles of the Body (Some Forearm Muscles Also Shown) (See Figure 6.23) (1 of 3).

41. Figure 6.18a Muscles of the posterior neck, trunk, and arm.
Occipital bone
Sternocleidomastoid
Spine of scapula
Trapezius
Deltoid (cut)
Deltoid
Triceps brachii
Latissimus dorsi
Humerus
Olecranon process of ulna (deep to tendon)
(a)

42. Figure 6.18b Muscles of the posterior neck, trunk, and arm.
Erector spinae
• Iliocostalis
• Longissimus
• Spinalis
Quadratus lumborum
(b)

43. Deltoid muscle Humerus
Figure 6.19 The fleshy deltoid muscle is a favored site for administering intramuscular injections.
Deltoid muscle
Humerus

44. Table 6.4 Superior Posterior Muscles of the Body (Some Forearm Muscles Also Shown) (See Figure 6.23) (2 of 3).

45. Figure 6.18a Muscles of the posterior neck, trunk, and arm.
Occipital bone
Sternocleidomastoid
Spine of scapula
Trapezius
Deltoid (cut)
Deltoid
Triceps brachii
Latissimus dorsi
Humerus
Olecranon process of ulna (deep to tendon)
(a)

46. • Sternocleidomastoid • Deltoid Thorax Arm • Pectoralis minor
Figure 6.22 Major superficial muscles of the anterior surface of the body.
Facial
• Frontalis
Facial
• Orbicularis oculi
• Temporalis
• Zygomaticus
• Masseter
• Orbicularis oris
Shoulder
Neck
• Trapezius
• Platysma
• Sternocleidomastoid
• Deltoid
Thorax
Arm
• Pectoralis minor
• Triceps brachii
• Pectoralis major
• Biceps brachii
• Serratus anterior
• Brachialis
• Intercostals
Forearm
• Brachioradialis
Abdomen
• Rectus abdominis
• Flexor carpi radialis
• External oblique
Pelvis/thigh
• Internal oblique
• Iliopsoas
• Transversus abdominis
Thigh (Quadriceps)
Thigh
• Rectus femoris
• Sartorius
• Vastus lateralis
• Adductor muscle
• Vastus medialis
• Gracilis
Leg
• Fibularis longus
Leg
• Extensor digitorum longus
• Gastrocnemius
• Tibialis anterior
• Soleus

47. • Sternocleidomastoid • Trapezius
Figure 6.23 Major superficial muscles of the posterior surface of the body.
Neck
• Occipitalis
• Sternocleidomastoid
• Trapezius
Arm
Shoulder/Back
• Triceps brachii
• Deltoid
• Brachialis
Forearm
• Latissimus dorsi
• Brachioradialis
• Extensor carpi radialis longus
• Flexor carpi ulnaris
• Extensor carpi ulnaris
Hip
• Extensor digitorum
• Gluteus medius
• Gluteus maximus
Thigh
• Iliotibial tract
• Adductor muscle
• Hamstrings:
Biceps femoris
Semitendinosus
Semimembranosus
Leg
• Gastrocnemius
• Soleus
• Fibularis longus
Calcaneal (Achilles) tendon