**A&P 2 Unit 21 (Lab) [Respiratory System Anatomy]

Question 1

Answer 1

Nasal Cavity

Question 2

Answer 2

Right Primary Bronchus

Question 3

Answer 3

Secondary Bronchii

Question 4

Answer 4

Pleural Cavity

Question 5

Answer 5

Nasopharynx

Question 6

Answer 6

Oropharynx

Question 7

Answer 7

Laryngopharynx

Question 8

Answer 8

Larynx

Question 9

Answer 9

Left Primary Bronchus

Question 10

Answer 10

Hyoid Bone

Question 11

Answer 11

Epiglottis

Question 12

Answer 12

Thyroid Cartilage

Question 13

Answer 13

Cricoid Cartilage

Question 14

Answer 14

Terminal Bronchiole

Question 15

Answer 15

Pulmonary Arteriole

Question 16

Answer 16

Pulmonary Venule

Question 17

Answer 17

Pulmonary Capillaries

Question 18

Answer 18

Aveolus

Question 19

Answer 19

Aveolar Sac

Question 20

Answer 20

Aveolar Duct

Question 21

Answer 21

Respiratory Bronchiole

Question 22

Briefly discuss how the cardiovascular system & the respiratory system work together to ensure ATP production continues & wastes are taken away.

Answer 22

They work together to supply the cells the oxygen they need & to rid them of carbon dioxide.

Question 23

Which body cavity contains the lungs? Describe their location relative to the heart.

Answer 23

• Thoracic Cavity
• On either side of the heart

Question 24

Number of Lobes per Lung

Answer 24

• Right
  
  • 3
• Left
  
  • 2

Question 25

Right Lung’s Lobes

Answer 25

• Upper
• Middle
• Lower

Question 26

Left Lung’s Lobes

Answer 26

• Upper
• Lower

Question 27

Right Lung’s Fissures

Answer 27

• Horizontal Fissure
  
  • Separates the Right Upper & Right Middle Lobes
• Right Oblique Fissure
  
  • Separates the Right Middle & Right Lower Lobes

Question 28

Left Lung’s Fissures

Answer 28

• Left Oblique Fissure
  
  • Separates the Left Upper & Left Lower Lobes

Question 29

Parietal Pleura

Answer 29

Lines the interior of the thoracic cavity & the superior surface of the diaphragm.

Question 30

Visceral Pleura

Answer 30

Adheres tightly to the surface of the lung.

Question 31

Pleural Cavity

Answer 31

• Thin potential space between the parietal & visceral pleurae.
• Filled with a thin layer of serous fluid that reduces friction as the lungs change in shape & size during ventilation
• Fluid called Pleural Fluid

Question 32

Upper Respiratory Tract

Answer 32

• Consists of the passages superior to the thoracic cavity

Question 33

Lower Respiratory Tract

Answer 33

• Consists of the passages within the thoracic cavity

Question 34

Conducting Zone

Answer 34

• Consists of passages that carry, or “conduct,” air to the lower passages where gas exchange takes place.
• The majority of the passages of the respiratory tract belong to the conducting zone.

Question 35

Respiratory Zone

Answer 35

Consists of the passages in which gas exhange takes place, located in the terminal respiratory tract.

Question 36

What changes happen to air as it passes along the conducting zone, beginning in the nasal cavity?

Answer 36

• Filters
• Warms
• Humidifies

Question 37

The Flow of Air through the Structures of the Conducting Zone

Answer 37

1. Nasal Cavity
2. Pharynx
3. Larynx
4. Trachea
5. Primary Bronchi (2)
6. Secondary Bronchi (2 Left; 3 Right)
7. Tertiary Bronchi
8. Quaternary Bronchi
9. Bronchioles
10. Terminal Bronchioles

Question 38

Name the 3 regions of the pharynx air passes through, in order of inhalation.

Answer 38

1. Nasopharynx
2. Oropharynx
3. Laryngophartnx

Question 39

What substance does the uvula prevent from entering the nasopharynx, and when?

Answer 39

Food during swallowing.

Question 40

Name the epithelial lining of the nasopharynx. What is the function of the goblet cells here?

Answer 40

• Lined woth pseudostratified ciliated columnar epithelium with copius mucus-secreting goblet cells (Respiratory Epithelium)

Question 41

What is the common name for the Larynx?

Answer 41

Voice Box

Question 42

Describe the location & tissue composition of the epiglottis. What is the function, & when is it important?

Answer 42

• The “lid” of the larynx
• Elastic Cartilage
• Seals off the larynx from food & liquids when swallowing

Question 43

Name the largest cartilage of the larynx/ What is its common name?

Answer 43

• Thyroid Cartilage
• Adam’s Apple

Question 44

Answer 44

Cricothyroid Ligament

Question 45

Cricothyroidotomy

Answer 45

• Performed when the upper respiratory tract is blocked, & air is prevented from moving into the lungs

1. Place an incision in the cricothyroid ligament
2. A tube is then inserted into the opening

Question 46

Compare the locations & functions of the false vocal cords to the true vocal cords in the larynx.

Answer 46

• False Vocal Cords
  
  • ​Superior Set
  • No role in sound production
  • Important sphincter function & can constrict to close off the larynx.
• True Vocal Cords
  
  • ​Inferior Set
  • Vibrates as air passes over it to produce sound.

Question 47

What is the common name for the trachea?

Answer 47

Windpipe

Question 48

Which direction does the “open” part of the C-shaped cartilages of the trachea face?

Answer 48

Posteriorly

Question 49

What is the general purpose of cartilage along the conducting airways?

Answer 49

To keep the airways from collapsing when we inhale.

Question 50

The “Respiratory Tree” of the conducting zone, beginning with thw primary bronchi.

Answer 50

1. Primary Bronchi (2)
2. Secondary Bronchi (2 Left; 3 Right)
3. Tertiary Bronchi
4. Quaternary Bronchi
5. Bronchioles (smaller than 1mm in diameter)
6. Terminal Bronchioles (Smaller than 0.5mm in diameter)

Question 51

Pathway of air through the structures of the respiratory zone, beginning with the respiratory bronchioles.

Answer 51

1. Respiratory Bronchioles
2. Alveolar Duct
3. Alveoli

Question 52

Which structures of the respiratory zone resemble microscopic clusters of hollow grapes?

Answer 52

Aveolar Sacs

Question 53

Describe the directions of O2 & CO2 diffusion between alveoli & pulmonary capillaries.

Answer 53

Oxygen from the alveoli diffuses into the blood, and carbon dioxide in the blood diffuses into the alveoli to be exhaled.

Question 54

List all the locations where the “respiratory epithelium” is found.

Answer 54

• Nasopharynx
• Larynx (inferior to the vocal cords)
• Trachea
• Bronchi

Question 55

Compare the functions of the cilia & the goblet cells along the respiratory epithelium.

Answer 55

• Cilia
  
  • ​Sweep dust & other particulates that become trapped in the mucus out of the respiratory tract.
• Goblet Cells
  
  • ​Mucus secreting cells

Question 56

Why is it important that the walls of the aveoli are simple squamous epithelium?

Answer 56

Minimizes the distances gases must diffuse across the alveoli & into the pulmonary capillaries.

Question 57

List the major histological changes along the respiratory tract.

Answer 57

• The epithelial tissue changes from taller (Pseudostratified) in the upper passages to shorter (Cuboidal) in the lower passages & finally to flat (Squamous) in the alveoli.
• The amount of hyaline cartilage gradually decreases (it is absent in bronchioles), as does the number of goblet cells.
• The amount of smooth muscle & elastic fibers increases.

Question 58

Pulmonary Ventilation

Answer 58

Physical movement of air into & out of the lungs

Question 59

Pulmonary Gas Exchange

Answer 59

Movement of gases across the respiratory membrane.

Question 60

Gas Transport

Answer 60

Movement of gases through the blood

Question 61

Tissue (Peripheral) Gas Exchange

Answer 61

Exchange of gases between the blood & the tissues

Question 62

Name the law that describes the inverse relationship between gas pressure & gas volume.

Answer 62

Boyle’s Law

Question 63

Name the 2 main inspiratory muscles [at rest]. (Inspiration)

Answer 63

• External Intercostals
• Diaphragm

Question 64

When the 2 inspiratory muscles contract, what happens to the size of the thoracic cavity? (Inspiration)

Answer 64

Increases

Question 65

As the thoracic cavity increases, what happens to the size of the lungs, and why?

Answer 65

• Increase
• Pleural fluid creates the adhesive force that draws the lungs outward, too.

Question 66

As the lungs expand, what happens to intrapulmonary pressure?

Answer 66

Drops below atmospheric pressure.

Question 67

Has atmospheric pressure changed at all? (Inspiration)

Answer 67

NO!!!

Question 68

Which direction will air move when the intrapulmonary pressure becomes less than atmospheric pressure?

Answer 68

Into the lungs

Question 69

Once the muscles of inspiration relax, what causes the lungs to become smaller, at rest? (Expiration)

Answer 69

Elasticity of the lung tissue

Question 70

When the lungs relax, what happens to the intrapulmonary pressure?

Answer 70

Becomes greater than atmospheric pressure.

Question 71

Has atmospheric pressure changed at all? (Expiration)

Answer 71

NO!!!

Question 72

When the intrapulmonary pressure becomes greater than atmospheric pressure, which direction will air flow? (Expiration)

Answer 72

Out of the lungs

Question 73

What instrument is used to measure lung volumes?

Answer 73

Spirameter

Question 74

Tidal Volume (TV)

Answer 74

• The amount of air exchanged with each breath during normal, quiet breathing.
• Measures about 500 mL in a healthy adult.

Question 75

Inspiratory Reserve Volume (IRV)

Answer 75

• The amount of air that may be inspired after a tidal inspiration.
• Averages between 1,900 & 3,100 mL of air.

Question 76

Expiratory Reserve Volume (ERV)

Answer 76

• The volume of air that may be expired after a tidal expiration.
• Averages between 700 & 1,200 mL of air.

Question 77

Residual Volume (RV)

Answer 77

• Can’t be measured by a spirometer.
• The amount of air that remains in the lungs after maximal expiration & is generally equal to about 1,100-1,200 mL of air.

Question 78

In what form is the majority of CO2 carried within the plasma? Write the molecular formula for this molecule.

Answer 78

• Bicarbonate Ion
• HCO₃^-

Question 79

If blood pH is too low (acidic), how is the rate & depth of breathing altered to help maintain homeostasis?

Answer 79

• Rate & depth are increased during Hyperventilation

Question 80

If blood pH is too high (alkaline), how is the rate & depth of breathing altered to help maintain homeostasis?

Answer 80

• Rate & depth are decreased during Hypoventilation