1. Chapter 10 *Lecture PowerPoint The Muscular System
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2. Introduction Facts about muscles Three kinds of muscle tissue
Muscles constitute nearly half of the body’s weight and occupy a place of central interest in several fields of health care and fitness
Physical and occupational therapy, athletes, dancers, trainers, acrobats, nurses, and more
Muscular system is closely related to other systems covered previously
Chapters 11 and 12 will examine the mechanisms of muscle contraction at the cellular and molecular levels
Three kinds of muscle tissue
Skeletal, cardiac, smooth
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3. Introduction In this chapter we will cover:
Structural and functional organization of muscles
Muscles of the head and neck
Muscles of the trunk
Muscles acting on the shoulder and upper limb
Muscles acting on the hip and lower limb
Figure 10.5

4. The Structural and Functional Organization of Muscles
Expected Learning Outcomes
Describe the varied functions of muscles.
Describe the connective tissue components of a muscle and their relationship to the bundling of muscle fibers.
Describe the various shapes of skeletal muscles and relate this to their functions.
Explain what is meant by the origin, insertion, belly, action, and innervation of a muscle.
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5. The Structural and Functional Organization of Muscles
Cont.
Describe the ways that muscles work in groups to aid, oppose, or moderate each other’s actions.
Distinguish between intrinsic and extrinsic muscles.
Describe in general terms the nerve supply to the muscles and where these nerves originate.
Explain how the Latin names of muscles can aid in visualizing and remembering them.

6. The Structural and Functional Organization of Muscles
About 600 human skeletal muscles
Constitute about half of our body weight
Specialized for one major purpose
Converting the chemical energy in ATP into the mechanical energy of motion
Myology—the study of the muscular system

7. The Functions of Muscles
Movement
Move from place to place, movement of body parts and body contents in breathing, circulation, feeding and digestion, defecation, urination, and childbirth
Stability
Maintain posture by preventing unwanted movements
Antigravity muscles: resist pull of gravity and prevent us from falling or slumping over
Stabilize joints
Role in communication: speech, writing, nonverbal communications

8. The Functions of Muscles
Control of openings and passageways
Sphincters: internal muscular rings that control the movement of food, bile, blood, and other materials within the body
Heat production by skeletal muscles
As much as 85% of our body heat
Glycemic control
Regulation of blood glucose concentrations within its normal range by storing glycogen

9. Connective Tissues of a Muscle
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Tendon
Fascia
Skeletal
muscle
Muscle
fascicle
Nerve
Blood vessels
Epimysium
Figure 10.1a
Figure 10.1 a
Perimysium
Endomysium
Muscle fiber
Muscle fascicle
Perimysium
Muscle fiber
(a)

10. Connective Tissues and Fascicles
Endomysium
Thin sleeve of loose connective tissue surrounding each muscle fiber
Allows room for capillaries and nerve fibers to reach each muscle fiber
Provides extracellular chemical environment for the muscle fiber and its associated nerve ending
Perimysium
Slightly thicker layer of connective tissue
Fascicles: bundles of muscle fibers wrapped in perimysium
Carry larger nerves and blood vessels, and stretch receptors
Split this slide 10-8 and figure 10.1a

11. Connective Tissues and Fascicles
Epimysium
Fibrous sheath surrounding the entire muscle
Outer surface grades into the fascia
Inner surface sends projections between fascicles to form perimysium
Fascia
Sheet of connective tissue that separates neighboring muscles or muscle groups from each other and the subcutaneous tissue
Split this slide 10-8 and figure 10.1a

12. Connective Tissues of a Muscle
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Perimysium
Endomysium
Muscle fiber, c.s.
Fascicle, c.s.
Muscle fiber, l.s.
Fascicle, l.s.
(c)
Victor Eroschenko
Figure 10.1c

13. Fascicles and Muscle Shapes
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Unipennate T
riangular
Bipennate
Parallel
Multipennate
Fusiform
Tendon
Circular
Belly
Pectoralis major
Palmar interosseous
Tendon
Rectus femoris
Rectus abdominis
Deltoid
Biceps brachii
Figure 10.2
Orbicularis oculi
Strength of a muscle and the direction of its pull are
determined partly by the orientation of its fascicles

14. Muscle Compartments
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Anterior
Lateral
Medial
Posterior
Key
Posterior compartment,
superficial layer
deep layer
Lateral compartment
Anterior compartment
Subcutaneous
fat
Fasciae
Intermuscular
septa
Artery, veins,
and nerve
Interosseous membrane
Fibula
Tibia
Figure 10.3
A group of functionally related muscles enclosed and separated from others by connective tissue fascia
Contains nerves, blood vessels that supply the muscle group
Thoracic, abdominal walls, pelvic floor, limbs
Intermuscular septa separate one compartment from another

15. Muscle Attachments Indirect attachment to bone
Tendons bridge the gap between muscle ends and bony attachment
Collagen fibers of the endo-, peri-, and epimysium continue into the tendon
From there into the periosteum and the matrix of bone
Very strong structural continuity from muscle to bone
Biceps brachii, Achilles tendon
Aponeurosis—tendon is a broad, flat sheet (palmar aponeurosis)
Retinaculum—connective tissue band that tendons from separate muscles pass under

16. Muscle Attachments Direct (fleshy) attachment to bone
Little separation between muscle and bone
Muscle seems to immerge directly from bone
Margins of brachialis, lateral head of triceps brachii

17. Muscle Origins and Insertions
Bony attachment at stationary end of muscle
Belly
Thicker, middle region of muscle between origin and insertion
Insertion
Bony attachment to mobile end of muscle
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Origins
Origins
Humerus
Scapula
Bellies
Extensors:
Flexors:
Triceps brachii
Biceps brachii
Long head
Brachialis
Lateral head
Insertion
Radius
Insertion
Ulna
Figure 10.4

18. Muscle Origin and Insertions
Also can be determined by proximal or distal or superior and inferior attachments, especially on limbs
Some muscles insert not on bone but on the fascia or tendon of another muscle or on collagen fibers of the dermis
Distal tendon of the biceps brachii inserts on the fascia of the forearm
Facial muscles insert in the skin

19. Functional Groups of Muscles
Action—the effects produced by a muscle
To produce or prevent movement
Four categories depending on action
Prime mover (agonist)
Muscle that produces most of force during a joint action
Synergist: muscle that aids the prime mover
Stabilizes the nearby joint
Modifies the direction of movement

20. Functional Groups of Muscles
Cont.
Antagonist: opposes the prime mover
Relaxes to give prime mover control over an action
Preventing excessive movement and injury
Antagonistic pairs—muscles that act on opposite sides of a joint
Fixator: muscle that prevents movement of bone

21. Functional Groups of Muscles
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Prime mover—brachialis
Synergist—biceps brachii
Antagonist—triceps brachii
Fixator—muscle that holds scapula firmly in place
Rhomboids
Origins
Origins
Humerus
Scapula
Bellies
Extensors:
Flexors:
Triceps brachii
Biceps brachii
Long head
Brachialis
Lateral head
Insertion
Radius
Insertion
Ulna
Figure 10.4

22. Intrinsic and Extrinsic Muscles
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Intrinsic muscles—entirely contained within a region, such as the hand
Both its origin and insertion there
Extrinsic muscles—act on a designated region, but has its origin elsewhere
Fingers: extrinsic muscles in the forearm
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Common flexor
tendon
Tendon sheath
First dorsal
interosseous
Tendon of flexor
digitorum profundus
Adductor
pollicis
Tendon of flexor
digitorum superficialis
Tendon of flexor pollicis longus
Lumbricals
Flexor
digitorum
superficialis
Opponens
digiti minimi
Flexor pollicis brevis
Flexor digiti
Abductor pollicis brevis
Abductor digiti
minimi
Flexor
pollicis longus
Opponens pollicis
Flexor retinaculum T
endons of:
Tendons of:
Abductor pollicis longus
Flexor carpi ulnaris
Flexor digitorum
superficialis
Flexor carpi radialis
Flexor pollicis longus
Palmaris longus
Flexor
digitorum
superficialis
tendons
(a) Palmar aspect, superficial
Figure 10.31a
Flexor
digitorum
profundus
tendons
(b) Intermediate flexor
Figure 10.28b

23. Muscle Innervation
Innervation of a muscle—refers to the identity of the nerve that stimulates it
Enables the diagnosis of nerve, spinal cord, and brainstem injuries from their effects on muscle function
Spinal nerves arise from the spinal cord
Emerge through intervertebral foramina
Immediately branch into a posterior and anterior ramus
Innervate muscles below the neck
Plexus: weblike network of spinal nerves adjacent to the vertebral column

24. Muscle Innervation Cranial nerves arise from the base of the brain
Emerge through skull foramina
Innervate the muscles of the head and neck
Numbered CN I to CN XII

25. Blood Supply
Muscular system receives about 1.25 L of blood per minute at rest (one-quarter of the blood pumped by the heart)
During heavy exercise total cardiac output rises and the muscular system’s share is more than three-quarters (11.5 L/min)
Capillaries branch extensively through the endomysium to reach every muscle fiber

26. How Muscles Are Named Latin names
Depressor labii inferioris, flexor digiti minimi brevis
Describes distinctive aspects of the structure, location, or action of a muscle

27. The Muscular System Figure 10.5a Figure 10.5b Superficial Deep Deep
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Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Superficial
Deep
Deep
Superficial
Frontalis
Orbicularis oculi
Occipitalis
Masseter
Zygomaticus major
Orbicularis oris
Semispinalis capitis
Sternocleidomastoid
Sternocleidomastoid
Splenius capitis
Platysma
Trapezius
Levator scapulae
Trapezius
Pectoralis minor
Supraspinatus
Deltoid
Rhomboideus minor
Coracobrachialis
Rhomboideus major
Pectoralis major
Serratus anterior
Deltoid (cut)
Infraspinatus
Infraspinatus
Teres minor
Brachialis
Biceps brachii
Teres major
Rectus abdominis
Serratus anterior
Triceps brachii (cut)
Triceps brachii
Supinator
Serratus posterior inferior
Latissimus dorsi
Flexor digitorum
profundus
External abdominal oblique
Extensor carpi
radialis longus
and brevis
Brachioradialis
Flexor carpi radialis
Flexor pollicis longus
Internal abdominal oblique
Transverse abdominal
External abdominal oblique
External abdominal
oblique
Erector spinae
Internal abdominal
oblique
Extensor digitorum
Flexor carpi ulnaris
Gluteus medius
Tensor
fasciae latae
Pronator quadratus
Extensor digitorum (cut)
Extensor carpi ulnaris
Gluteus minimus
Gluteus maximus
Lateral rotators
Adductor longus
Adductor
magnus
Sartorius
Adductors
Gracilis
Rectus femoris
Vastus lateralis
Iliotibial band
Semitendinosus
Vastus lateralis
Vastus intermedius
Semimembranosus
Iliotibial band
Vastus medialis
Gracilis
Biceps femoris
Biceps femoris
Gastrocnemius (cut)
Soleus (cut)
Fibularis longus
Gastrocnemius
Gastrocnemius
Tibialis posterior
Tibialis anterior
Soleus
Flexor digitorum longus
Soleus
Extensor hallucis longus
Extensor digitorum longus
Extensor digitorum
Fibularis longus
longus
Calcaneal tendon
Figure 10.5a
Figure 10.5b
(a) Anterior view
(b) Posterior view

28. A Learning Strategy
Examine models, cadavers, dissected animals, or a photographic atlas to get visual images of the muscle
When studying a particular muscle, palpate it on yourself if possible
Locate origins and insertions of muscles on an articulated skeleton

29. A Learning Strategy Study derivation of each muscle name
Usually describes the muscle’s location, appearance, origin, insertion, or action
Say the names aloud to yourself or study partner, and spell them correctly

30. Muscles of Facial Expression
Muscles that insert in the dermis and subcutaneous tissues
Tense the skin and produce facial expressions
Innervated by facial nerve (CN VII)
Paralysis causes face to sag
Found in scalp, forehead, around the eyes, nose, and mouth, and in the neck

31. Compartment Syndrome
Fasciae of arms and legs enclose muscle compartments very snugly
If a blood vessel in a compartment is damaged, blood and tissue fluid accumulate in the compartment
Fasciae prevent compartment from expanding with increasing pressure
Compartment syndrome—mounting pressure on the muscles, nerves, and blood vessels triggers a sequence of degenerative events
Blood flow to compartment is obstructed by pressure

32. Compartment Syndrome
Cont.
If ischemia (poor blood flow) persists for more than 2 to 4 hours, nerves begin to die
After 6 hours, muscles begin to die
Nerves can regenerate after pressure relieved, but muscle damage is permanent
Myoglobin in urine indicates compartment syndrome
Treatment: immobilization of limb and fasciotomy (incision to relieve compartment pressure)

33. Carpal Tunnel Syndrome
Flexor retinaculum—bracelet-like fibrous sheet, which the flexor tendons of the extrinsic muscles that flex the wrist pass on their way to their insertions
Carpal tunnel—tight space between the flexor retinaculum and the carpal bones
Flexor tendons passing through the tunnel are enclosed in tendon sheaths
Enable tendons to slide back and forth quite easily

34. Carpal Tunnel Syndrome
Carpal tunnel syndrome—prolonged, repetitive motions of wrist and fingers can cause tissues in the carpal tunnel to become inflamed, swollen, or fibrotic
Puts pressure on the median nerve of the wrist that passes through the carpal tunnel along with the flexor tendons
Tingling and muscular weakness in the palm and medial side of the hand
Pain may radiate to arm and shoulder
Treatment: anti-inflammatory drugs, immobilization of the wrist, and sometimes surgery to remove part or all of flexor retinaculum

35. Carpal Tunnel Syndrome
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Repetitive motions cause inflammation and pressure on median nerve
Tendon of flexor
digitorum
superficialis
Lumbrical
Opponens
digiti minimi
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Adductor
pollicis
Flexor digiti
minimi brevis
Tendon sheath
First dorsal
interosseous
Flexor pollicis
brevis
Abductor digiti
minimi
Tendon of flexor
digitorum profundus
Adductor
pollicis
Abductor pollicis
brevis
Tendon of flexor
digitorum superficialis
Tendon of flexor
pollicis longus
Lumbricals
Pisiform bone
Tendon of extensor
pollicis brevis
Opponens
digiti minimi
Flexor pollicis
brevis
Flexor digiti
minimi brevis
Flexor digitorum
superficialis
Abductor pollicis
brevis
Tendon of flexor
carpi radialis
Abductor digiti
minimi
Opponens pollicis
Flexor retinaculum
Tendons of:
(b) Palmar dissection, superficial
Tendons of:
Abductor pollicis
longus
Flexor carpi ulnaris
Figure 10.31b
Flexor digitorum
superficialis
Flexor carpi
radialis
Flexor pollicis
longus
Palmaris longus
(a) Palmar aspect, superficial
Figure 10.31a
10-35

36. Common Athletic Injuries
Muscles and tendons are vulnerable to sudden and intense stress
Proper conditioning and warm-up needed
Common injuries include:
Compartment syndrome
Shinsplints
Pulled hamstrings
Tennis elbow
Pulled groin
Rotator cuff injury
Treat with rest, ice, compression, and elevation
“No pain, no gain” is a dangerous misconception