1H06.01 Describe the Structure of the Muscles

Muscular System

1H06.01 Describe the structure of the muscles

A. Muscles

1. Nearly half our weight comes from muscle tissue

2. There are 650 different muscles in the human body

3. Muscles give shape and form

4. Muscles produce body heat

B. Types of muscles

1. Voluntary

a. Skeletal – muscles attached to bone

b. The sarcolemma is the cell membrane

2. Involuntary

a. Smooth (visceral) – found in internal organs

b. Cardiac – found in heart

3. Sphincter – circular muscles in openings between esophagus and stomach, anus and urethra

C. Principal skeletal muscles

1. Biceps brachii

2. Brachioradialis

3. Buccinator

4. Deltoid

5. Diaphragm

6. External oblique

7. Hamstrings

8. Gastrocnemius

9. Gluteus maximus

10. Gluteus medius

11. Intercostal muscles

12. Latissiumus dorsi

13. Masseter

14. Pectoralis major

15. Quadriceps femoris

16. Rectus abdominus

17. Rectus femoris

18. Sartorius

19. Soleus major

20. Sternocleidomastoid

21. Tibialis anterior

22. Trapezius

23. Triceps brachii

24. Vastus lateralis

25. Vastus medialis

1H06.02 Analyze the function of the muscular system

A.  Responsible for:

1.  Body movement

2.  Posture

3.  Body heat

B. Types of muscles

1. Voluntary

a. Skeletal – muscles attached to bone

b. The sarcolemma is the cell membrane

2. Involuntary

a. Smooth (visceral) – found in internal organs

b. Cardiac – found in heart

3. Sphincter – circular muscles in openings between esophagus and stomach, anus and urethra

C. Characteristics

1.  Contractibility – muscle becomes shorter and thicker causing muscle movement

2.  Excitability – respond to stimuli

3.  Extensibility – ability to stretch muscles

4.  Elasticity – ability to return to original length

D.  Movement

1.  Muscles move bones by pulling on them

2.  Groups of muscles usually contract to produce a single movement

a.  Motor unit – a motor neuron plus all the muscle fibers it stimulates

b.  Neuromuscular junction – junction between the motor neuron’s fiber which transmits the impulse, and the muscle cell membrane

c.  Acetylcholine – chemical neurotransmitter, diffuses across the synaptic cleft (carries impulse across synaptic cleft)

d.  Muscle fatigue – caused by the accumulation of lactic acid in the muscles

e.  Oxygen debt – after exercise, the amount of oxygen needed by the muscle to change lactic acid back to glucose

3. Diaphragm – dome-shaped muscle, separates abdominal and thoracic cavity, aids in breathing

E.  Muscle tone – muscles slightly contracted and ready

F.  Exercise and training

1H06.03 Identify characteristics and treatment of common muscle

disorders

A. Conditions

1. Atrophy – wasting away of muscle due to lack of use

2. Hypertrophy – an increase in the size of the muscle cell

B. Injury and overuse

1.  Strain – muscle tear, symps are pain and swelling, Rx – ice packs

2.  Muscle spasm (cramp) – sustained contraction of muscle

3.  Myalgia – muscle pain

4.  Tendonitis – inflammation of tendon

Unit F: Muscular System

Terminology List

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1.  acetylcholine

2.  biceps brachii

3.  brachioradialis

4.  buccinator

5.  cardiac muscle

6.  contractability

7.  deltoid

8.  diaphragm

9.  elasticity

10. excitability

11. extensibility

12. external oblique

13. hamstrings

14. gastrocnemius

15. gluteus maximus

16. gluteus medius

17. intercostal muscles

18. involuntary

19. latissimus dorsi

20. masseter

21. motor unit

22. muscle fatigue

23. muscle tone

24. neuromuscular junction

25. oxygen debt

26. rectus femoris

27. pectoralis major

28. quadriceps femoris

29. rectus abdominis

30. sarcolemma

31. sartorius

32. skeletal muscle

33. smooth muscle

34. soleus major

35. sphincter

36. sternocleidomastoid

37. tibialis anterior

38. trapezius

39. triceps brachii

40. vastus lateralis

41. vastus medialis

42. voluntary

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Disorders and Related Terminology

1.  atrophy

2.  hypertrophy

3.  muscle spasm (cramp)

4.  myalgia

5.  strain

6.  tendonitis

MUSCULAR SYSTEM

“the power system”

MOVEMENT

1.  Muscles move bones by pulling on them. 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.

2. Groups of muscles usually contract to

produce a single movement.

3. When the antagonist muscles contract, they produce a movement opposite to that of the prime movers.

MUSCLE CONTRACTIONS

 Muscle Tone

In order to function, muscles should always be

slightly contracted and ready to pull.

Muscle contractions may be isotonic or isometric.

 ISOTONIC CONTRACTION

When muscles contract and shorten. (Walk, talk, etc.)

 ISOMETRIC CONTRACTION

When the tension in a muscle increases but the muscle does not shorten. (exercises such as tensing the abdominal muscles.)

Appendix 1H06.02A

MUSCULAR SYSTEM

“the power system”

·  Nearly half our weight comes from muscle tissue.

·  There are 650 different muscles in the human body.

·  Muscles give us form and shape.

·  Muscles produce most of our body heat.

THREE MAIN FUNCTIONS

1.  Responsible for all body movement.

2.  Responsible for body form and shape (posture)

3.  Responsible for body heat and maintaining body temperature.

SKELETAL

TYPES OF MUSCLES SMOOTH

CARDIAC

Skeletal Muscle

·  Attached to bone

·  Striated (striped) appearance

·  VOLUNTARY

·  Multinucleated muscle cell bundles (muscle cells = muscle fibers)

·  SARCOLEMMA = cell membrane

·  Contract quickly, fatigue easily, can’t maintain contraction for long period of time

Smooth Muscle

·  Visceral (organ) muscle

·  Found in walls of digestive system, uterus and blood vessels

·  Cells small and spindle-shaped

·  INVOLUNTARY

·  Controlled by autonomic nervous system

·  Act slowly, do not tire easily, can remain contracted for long time

Cardiac Muscle

·  Found only in the heart

·  Striated and branched

·  Involuntary

·  Cells are fused – when one contracts, they all contract

·  Involuntary

CHARACTERISTICS OF MUSCLES

·  CONTRACTIBILITY – the ability of a muscle to reduce the distance between the parts of its contents or the space it surrounds.

·  EXCITEABILITY (IRRITABILITY) – the ability to respond to certain stimuli by producing impulses.

·  EXTENSIBILITY – the ability to be stretched.

·  ELASTICITY – ability of muscle to return to its original length when relaxing.

MOVEMENT

2.  Muscles move bones by pulling on them.

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.

Rule: A muscle’s insertion bone moves toward its origin bone.

2. Groups of muscles usually contract to

produce a single movement.

·  MOTOR UNIT – a motor neuron plus all the muscle fibers it stimulates.

·  NEUROMUSCULAR JUNCTION – the junction between the motor neuron’s fiber which transmits the impulse – and the muscle cell membrane.

·  ACETYLCHOLINE – chemical neurotransmitter, diffuses across the synaptic cleft (carries impulse across synaptic cleft)

·  MUSCLE FATIGUE – caused by the accumulation of lactic acid in the muscles.

·  OXYGEN DEBT – after exercise, the amount of oxygen needed by the muscle to change lactic acid back to glucose.

·  MUSCLE TONE - When muscles are slightly contracted and ready to pull.

·  DIAPHRAGM – Dome-shaped muscle that separates the abdominal and thoracic cavities, aids in breathing

Disorders and Related Terminology

ATROPHY – wasting away of muscle due to lack of use.

HYPERTROPHY – an increase in the size of the muscle cell.

STRAIN – tear in the muscle resulting from excessive use. Bleeding inside the muscle can result in pain and swelling. Ice packs will help stop bleeding and reduce swelling.

MUSCLE SPASM (cramp) – sustained contraction of the muscle, usually because of overuse.

MYALGIA – muscle pain

TENDONITIS – inflammation of a tendon

Summer 2005 F.14