Ch. 23 Respiratory System

Question 1

Body cells must obtain ____ and eliminate ____

Answer 1

Obtain oxygen

Eliminate CO2

Question 2

What are the 5 functions of the respiratory system?

Answer 2

1. Provide an area for gas exchange between air and circulating blood
2. Move air to and from exchange surfaces
3. Protect respiratory surfaces from environmental variations and defend the respiratory system and other tissues from invasion by pathogens
4. Produce sounds
5. Facilitate the detection of olfactory stimuli

Question 3

What are the divisions of the respiratory system?

Answer 3

Upper and lower

Question 4

What does the upper respiratory system contain?

Answer 4

Nose, nasal cavity, paranasal sinuses, pharynx

Question 5

What does the lower respiratory system contain?

Answer 5

Larynx, trachea, bronchi, bronchioles, alveoli

Question 6

What does the respiratory tract consist of?

Answer 6

The conducting airways that carry air to and from the alveoli

Question 7

What do the passageways of the upper respiratory tract do?

Answer 7

Filter and humidify incoming air

Question 8

What is the respiratory mucosa?

Answer 8

The respiratory epithelium and underlying connective tissues

Question 9

What does the respiratory mucosa line?

Answer 9

The conducting portion of the respiratory tract

Question 10

What is the respiratory epithelium supported by?

Answer 10

The lamina propria

Question 11

What is the lamina propria?

Answer 11

A layer of areolar tissue

Question 12

What is the respiratory defense system made up of?

Answer 12

Mucus and cilia

Question 13

What prevents contamination of the respiratory system?

Answer 13

Mucus and cilia

Question 14

Where does air enter the respiratory system normally?

Answer 14

Through the nostrils

Question 15

What do the nostrils open into?

Answer 15

The nasal cavity

Question 16

What is the nasal vestibule guarded by?

Answer 16

Hairs that screen out large particles

Question 17

Where does incoming air flow through?

Answer 17

Superior, middle, and inferior meatuses (narrow grooves) and then bounces off the conchal surfaces

Question 18

What separates the oral and nasal cavities?

Answer 18

The hard palate

Question 19

What does the soft palate separate?

Answer 19

The superior nasopharynx from the rest of the pharynx

Question 20

What does the choanae connect?

Answer 20

The nasal cavity and nasopharynx

Question 21

What does the nasal mucosa do?

Answer 21

Trap particles, warms and humidifies incoming air, and dehumidifies and absorbs heat of outgoing air

Question 22

What is the pharynx?

Answer 22

Also called the throat

A chamber shared by the digestive and respiratory systems

Question 23

What is the nasopharynx?

Answer 23

The superior part of the pharynx

Question 24

What is the oropharynx continuous with?

Answer 24

The oral cavity

Question 25

What does the laryngopharynx include?

Answer 25

The narrow zone between the hyoid bone and the entrance to the esophagus

Question 26

Inhaled air passes through the ____ on the way to the ____

Answer 26

Glottis

Lungs

Question 27

What surrounds and protects the glottis?

Answer 27

The larynx

Question 28

What is the glottis?

Answer 28

The vocal apparatus

Question 29

What 3 large cartilages and 3 small cartilages composes the cylindrical larynx?

Answer 29

Large cartilages:
Median thyroid cartilage
Median cricoid cartilage
Epiglottis

Small cartilages:
Arytenoid
Corniculate
Cuneiform

Question 30

A pair of inelastic _____ surrounds the glottis

Answer 30

Vestibular folds

Question 31

What does the glottis include?

Answer 31

The elastic vocal folds and the space between them, the rima glottidis

Question 32

What does air passing through the open glottis do?

Answer 32

Vibrates its vocal folds, producing sound

Question 33

What does the pitch of sound depend on?

Answer 33

The diameter, length, and tension of the vocal cords

Question 34

What do the muscles of the neck and pharynx do for the larynx?

Answer 34

Position and stabilize it

Question 35

What do the intrinsic muscles do for the larynx?

Answer 35

Regulate tension in the vocal folds or open and close the glottis

Question 36

During swallowing, what do the muscles of the neck and pharynx do that is important?

Answer 36

Help prevent particles from entering the glottis

Question 37

What does the submucosa contain?

Answer 37

C-shaped tracheal cartilages, which stiffen the tracheal walls and protect the airway

Question 38

Why does the posterior tracheal wall distort?

Answer 38

To permit large masses of food to pass through the esophagus

Question 39

What does the trachea branch within the mediastinum to form?

Answer 39

The right and left main bronchi

Question 40

Where does each bronchus enter a lung?

Answer 40

At the hilum (a groove)

Question 41

What is the root of the lung?

Answer 41

A connective tissue mass that includes the bronchus, pulmonary vessels, and nerves

Question 42

What do the main bronchi and their branches form?

Answer 42

The bronchial tree

Question 43

What happens when the lobar and segmental bronchi branch within the lungs?

Answer 43

The amount of cartilage in their walls decrease and the amount of smooth muscle increases

Question 44

Each tertiary bronchus supplies air to a single ____

Answer 44

Bronchopulmonary segment

Question 45

What do bronchioles within the bronchopulmonary segment ultimately branch into?

Answer 45

Terminal bronchioles

Question 46

What does each terminal bronchiole deliver air to?

Answer 46

A single pulmonary lobule in which the terminal bronchiole branches into respiratory bronchioles

Question 47

The connective tissues of the root of the lung extend into…?

Answer 47

The parenchyma of the lung as a series of trabeculae

Question 48

What do trabeculae branch to form?

Answer 48

Interlobular septa

Question 49

What do interlobular septa do in the lungs?

Answer 49

Divide the lungs into lobules

Question 50

What do the respiratory bronchioles open into?

Answer 50

Alveolar ducts, where many alveoli are interconnected

Question 51

Where are the respiratory exchange surfaces connected to the circulatory system?

Answer 51

Capillaries of the pulmonary circuit

Question 52

What does the blood air barrier consist of?

Answer 52

A simple squamous epithelium
The endothelial cell lining an adjacent capillary
Their fused basement membranes

Question 53

What do pneumocytes type II scattered in the blood air barrier produce?

Answer 53

Surfactant that reduces surface tension and keeps the alveoli from collapsing

Question 54

What do alveolar macrophages do?

Answer 54

Patrol the epithelium and engulf foreign particles

Question 55

What are the lobes of the lungs separated by?

Answer 55

Fissures

Question 56

How many lobes does each lung have?

Answer 56

Right - 3

Left - 2

Question 57

What do the anterior and lateral surfaces of the lungs follow?

Answer 57

The inner contours of the rib cage

Question 58

What is the concavity of the medial surface of the left lung called?

Answer 58

The cardiac notch, which conforms to the shape of the pericardium

Question 59

Where does the respiratory exchange surfaces receive blood from?

Answer 59

Arteries of the pulmonary circuit

Question 60

Where do the conducting portions of the respiratory tract receive blood from?

Answer 60

The bronchial arteries

Question 61

Where does most of the returning venous blood flow into?

Answer 61

The pulmonary veins, bypassing the rest of the systemic circuit and diluting the oxygenated blood leaving the alveoli

Question 62

What is each lung surrounded by?

Answer 62

A single pleural cavity lined by a pleura (serous membrane)

Question 63

What are the two types of pleurae?

Answer 63

Parietal pleura

Visceral pleura

Question 64

What does the parietal pleura cover?

Answer 64

The inner surface of the thoracic wall?

Question 65

What does the visceral pleura cover?

Answer 65

The lungs

Question 66

What is external respiration?

Answer 66

The exchange of oxygen and CO2 between interstitial fluid and the external environment

Question 67

What does external respiration include?

Answer 67

Pulmonary ventilation (breathing)

Question 68

What is internal respiration?

Answer 68

The exchange of oxygen and CO2 between interstitial fluid and cells

Question 69

Describe and differentiate between external and internal respiration.

Answer 69

External respiration moves gases from outside of the body into the lungs, and then the blood. Internal respiration is the gas exchange between the blood and the tissues. Both being linked through the circulatory system, the two combined described the process of getting oxygen from outside the body to the tissues.

Question 70

If the oxygen content declines, the affected tissues suffer from ____

Answer 70

Hypoxia

Question 71

If the oxygen supply is completely cut off, what results?

Answer 71

Anoxia and tissue death

Question 72

What is pulmonary ventilation

Answer 72

The physical movement of air into and out of the respiratory tract

Question 73

Decreasing the volume of a gas increases ____

Answer 73

Its pressure

Question 74

Increasing the volume of a gas decreases _____

Answer 74

Its pressure

Question 75

What is Boyle’s law?

Answer 75

The inverse relationship between gas and pressure

Question 76

What does movement of the diaphragm and ribs change?

Answer 76

Lung volume

Question 77

What are the primary respiratory muscles?

Answer 77

The diaphragm

External intercostal muscles

Question 78

What determines the direction of airflow?

Answer 78

The relationship between intrapulmonary pressure and atmospheric pressure

Question 79

What is intrapulmonary pressure?

Answer 79

The pressure inside the respiratory tract

Question 80

What is intrapleural pressure?

Answer 80

The pressure in the potential space between the parietal and visceral pleurae

Question 81

What is a respiratory cycle?

Answer 81

A single cycle of inhalation and exhalation

Question 82

What is the tidal volume?

Answer 82

The amount of air moved in one respiratory cycle

Question 83

What is a spirometer?

Answer 83

An instrument used to measure the capacity of the lungs

Question 84

What is alveolar ventilation?

Answer 84

The amount of air reaching the alveoli each minute

Question 85

What does the tidal capacity include?

Answer 85

The tidal volume and the expiratory/inspiratory reserve volumes

Question 86

What is residual volume?

Answer 86

The air left in the lungs at the end of maximum exhalation

Question 87

What is Dalton’s law?

Answer 87

Each gas in a mixture exerts a pressure equal to its relative abundance.

Question 88

What is partial pressure?

Answer 88

The pressure contributed by a single gas

Question 89

What is Henry’s law?

Answer 89

The amount of a gas in solution is directly proportional to the partial pressure of that gas

Question 90

What do alveolar and atmospheric air differ in?

Answer 90

Composition

Question 91

Gas exchange across the blood air barrier is efficient due to:

Answer 91

Differences in partial pressure
The short diffusion distance
Lipid-soluble gases
The large surface area of all the alveoli combined
The coordination of blood flow and airflow

Question 92

What does blood entering peripheral capillaries deliver and absorb?

Answer 92

Delivers oxygen

Absorbs CO2

Question 93

How is oxygen carried?

Answer 93

Mainly by RBCs, reversibly bound to hemoglobin

Question 94

What is the saturation level of hemoglobin at alveolar P(O2)?

Answer 94

Almost fully saturated

Question 95

At the P(O2) of peripheral tissues, what happens to oxygen?

Answer 95

It is released but the peripheral tissues still retain a substantial oxygen reserve

Question 96

What is the Bohr effect?

Answer 96

The effect of pH on the hemoglobin saturation curve

Question 97

When low plasma P(O2) continues for extended periods, RBCs generate…?

Answer 97

BPG

Question 98

What does BPG do?

Answer 98

Reduces hemoglobin’s affinity for oxygen

Question 99

What does fetal hemoglobin have a stronger affinity for than adult hemoglobin? Why is this important?

Answer 99

Oxygen. Fetal hemoglobin aids in the removal of oxygen from maternal blood

Question 100

What does aerobic metabolism in peripheral tissues generate?

Answer 100

CO2

Question 101

How is the CO2 in blood dispersed?

Answer 101

70% transported as bicarbonate ions (HCO3-)
23% bound as carbaminohemoglobin
7% is dissolved in the plasma

Question 102

Driven by differences in partial pressure, what does oxygen do?

Answer 102

Enters the blood at the lungs and leaves it in peripheral tissues

Question 103

The cellular rates of gas absorption and generation are matched by?

Answer 103

The capillary rates of delivery and removal

Identical to the rates of oxygen absorption and CO2 removal at the lungs

Question 104

What is alveolar blood flow?

Answer 104

Lung perfusion

Question 105

What is airflow?

Answer 105

Alveolar ventilation

Question 106

When would alveolar capillaries constrict?

Answer 106

Under conditions of low oxygen

Question 107

When would bronchioles dilate?

Answer 107

Under conditions of high CO2

Question 108

What do the respiratory centers include?

Answer 108

3 pairs of nuclei in the reticular formation of the pons and medulla oblongata

Question 109

What do the respiratory rhythmicity centers set the pace for?

Answer 109

Respiration

Question 110

What do the apneustic centers cause?

Answer 110

Strong, sustained inspiratory movements

Question 111

What do the pneumotaxic centers do?

Answer 111

Inhibit the apneustic centers

Promote exhalation

Question 112

What is stimulation of the chemoreceptor reflexes based on?

Answer 112

The level of CO2 in the blood and CSF

Question 113

What does the inflation reflex prevent?

Answer 113

Overexpansion of the lungs during forced breathing

Question 114

What does the deflation reflex stimulate?

Answer 114

Inhalation when the lungs are collapsing

Question 115

What are the fetal lungs filled with before delivery?

Answer 115

Amniotic fluids. The lungs are collapsed

Question 116

What happens at the first breath in newborns?

Answer 116

The lungs inflate and do not collapse completely thereafter

Question 117

Why is the respiratory system less efficiency in the elderly?

Answer 117

Elastic tissue deteriorates, lowering compliance and the vital capacity of the lungs
Movements of the chest are restricted by arthritic changes and decreased flexibility in costal cartilages
Some degree of emphysema is present

Question 118

What system does the respiratory system have extensive anatomical and physiological connections with?

Answer 118

The cardiovascular system

Question 119

What type of epithelium lines the conducting portion of the respiratory tract?

Answer 119

Pseudostratified ciliated columnar epithelium

Question 120

List the two anatomical divisions of the respiratory system.

Answer 120

The upper respiratory system and the lower respiratory system

Question 121

What membrane lines the conducting portion of the respiratory tract?

Answer 121

The respiratory mucosa lines the conducting portion of the respiratory tract

Question 122

Why is the vascularization of the nasal cavity important?

Answer 122

The rich vascularization of the nose delivers body heat to the nasal cavity, so inhaled air is warmed before it leaves the nasal cavity and moves toward the lungs. The heat also evaporates moisture from the epithelium to humidify the incoming air.

Question 123

Why is the lining of the nasopharynx different from that of the oropharynx and the laryngopharynx?

Answer 123

The lining of the nasopharynx, which receives air from only the nasal cavity, is the same as that of the nasal cavity: a pseudostratified ciliated columnar epithelium. Because the oropharynx and laryngopharynx receive air from the nasal cavity and potentially abrasive food from the oral cavity, they have a more protective lining: a stratified squamous epithelium.

Question 124

Identify the unpaired and paired cartilages associated with the larynx.

Answer 124

The unpaired laryngeal cartilages include the thyroid cartilage, cricoid cartilage, and epiglottis. The paired cartilages are the arytenoid cartilages, corniculate cartilages, and cuneiform cartilages.

Question 125

List the functions of the trachea.

Answer 125

The trachea conveys air between the larynx and main bronchi; cilia and the mucus produced by epithelial cells also protect the respiratory tree by trapping inhaled debris and sweeping it toward the pharynx, where it is removed through coughing or swallowing.

Question 126

Why are the cartilages that reinforce the trachea C-shaped?

Answer 126

The tracheal cartilages are C-shaped to allow space for expansion of the esophagus when food or liquid is swallowed.

Question 127

If food accidentally enters the main bronchi, in which bronchus is it more likely to lodge? Why?

Answer 127

Objects are more likely to be lodged in the right main bronchus because it is slightly larger and more vertical than the left main bronchus.

Question 128

What type of muscle wraps around a respiratory bronchiole and can change the diameter of the airway?

Answer 128

Smooth muscle wraps around a respiratory bronchiole and can change the diameter of the airway.

Question 129

What would happen to the alveoli if surfactant were not produced?

Answer 129

Without surfactant, the alveoli would collapse as a result of surface tension in the thin layer of water that moistens the alveolar surfaces.

Question 130

Trace the path air takes in flowing from the glottis to the blood air barrier.

Answer 130

Air passing through the glottis flows into the larynx and through the trachea. From there, the air flows into a main bronchus, which supplies the lungs. In the lungs, the air passes to lobar bronchi, segmental bronchi, bronchioles, a terminal bronchiole, a respiratory bronchiole, an alveolar duct, an alveolar sac, an alveolus, and ultimately to the blood air barrier.

Question 131

How many lobes does each lung have, and which lung has a cardiac notch?

Answer 131

The right lung has three lobes, the left lung has two lobes, and the left lung has a cardiac notch.

Question 132

Which arteries supply blood to the gas-exchange surfaces and conducting portions of the respiratory system?

Answer 132

The pulmonary arteries supply blood to the gas-exchange surfaces; the bronchial capillaries, supplied by the bronchial arteries, which branch from the thoracic aorta, supply the conducting portions of the respiratory system.

Question 133

List the functions of the pleura.

Answer 133

The pleura is a serous membrane that secretes pleural fluid, which lubricates the opposing parietal and visceral surfaces to prevent friction during breathing.

Question 134

Define external respiration and internal respiration.

Answer 134

External respiration includes all the processes involved in the exchange of oxygen and carbon dioxide between the body’s interstitial fluids and the external environment. Internal respiration is the absorption of oxygen and the release of carbon dioxide by the body’s cells.

Question 135

Name the integrated steps involved in external respiration.

Answer 135

The integrated steps involved in external respiration are pulmonary ventilation (breathing), gas diffusion across the blood air barrier, and the transport of oxygen and carbon dioxide.

Question 136

Name the primary muscles of respiration.

Answer 136

The primary muscles of respiration are the diaphragm and the external intercostal muscles.

Question 137

Define compliance and identify the factors that affect it.

Answer 137

Compliance is the ease with which the lungs expand. Factors affecting compliance include (a) the connective tissue structure of the lungs, (b) the level of surfactant production, and (c) the mobility of the thoracic cage.

Question 138

Name the various measurable pulmonary volumes

Answer 138

Tidal volume, expiratory reserve volume, residual volume, and inspiratory reserve volume

Question 139

Mark breaks a rib that punctures the chest wall on his left side. What is likely to happen to his left lung as a result?

Answer 139

When the rib penetrates Mark’s chest wall, it also penetrates the left pleural cavity, allowing atmospheric air to enter and increase the intrapleural pressure within the pleural cavity (a condition called pneumothorax). As a result, the natural elasticity of the left lung may cause the lung to collapse, a condition called atelectasis.

Question 140

In pneumonia, fluid accumulates in the alveoli of the lungs. How would this accumulation affect vital capacity?

Answer 140

Because the fluid produced in pneumonia takes up space that would normally be occupied by air, vital capacity would decrease.

Question 141

More oxygen is released when the pH is (higher or lower) than normal and when temperature is (higher or lower) than normal.

Answer 141

More oxygen is released when the pH is lower than normal and when temperature is higher than normal.

Question 142

Identify the three ways that carbon dioxide is transported in the bloodstream.

Answer 142

Carbon dioxide is transported in the bloodstream as bicarbonate ions, bound to hemoglobin, or dissolved in the plasma.

Question 143

As you exercise, hemoglobin releases more oxygen to active skeletal muscles than it does when those muscles are at rest. Why?

Answer 143

During exercise, active skeletal muscles generate heat, lactate, and hydrogen ions. A combination of increased body temperature and decreased pH causes hemoglobin to release more oxygen when you are exercising than when you are resting.

Question 144

How would blockage of the trachea affect blood pH?

Answer 144

Blockage of the trachea would interfere with the body’s ability to gain oxygen and eliminate carbon dioxide. Because most carbon dioxide is transported in blood as bicarbonate ions formed from the dissociation of carbonic acid, an inability to eliminate carbon dioxide would result in an excess of hydrogen ions, which decreases blood pH.

Question 145

Inhibition of medulla oblongata chemoreceptors and respiratory muscles has what effect on respiratory rate, elimination of CO2 at alveoli, and arterial P(CO2)?

Answer 145

It will decrease respiratory rate, the elimination of CO2 at alveoli, and increase arterial P(CO2)

Question 146

What effect does exciting the pneumotaxic centers have on respiration?

Answer 146

Exciting the pneumotaxic centers would inhibit the inspiratory and apneustic centers, which would result in shorter and more rapid breaths.

Question 147

Are peripheral chemoreceptors more or less sensitive to the level of carbon dioxide than they are to the level of oxygen? Why?

Answer 147

Peripheral chemoreceptors are more sensitive to the carbon dioxide level than to the oxygen level. When carbon dioxide dissolves, it forms carbonic acid, which dissociates and releases hydrogen ions, thereby decreasing pH and altering cell or tissue activity.

Question 148

Little Johnny is angry with his mother, so he tells her that he will hold his breath until he turns blue and dies. Is Johnny likely to die if he holds his breath as long as he can?

Answer 148

Johnny isn’t likely to turn blue and die. When he holds his breath, the blood carbon dioxide level is increasing, causing increased stimulation of the inspiratory center and forcing him to breathe again.

Question 149

Identify the functional relationship between the respiratory system and all other organ systems.

Answer 149

The respiratory system provides oxygen and eliminates carbon dioxide for all body systems.

Question 150

Describe the functional relationship between the respiratory system and the lymphatic system.

Answer 150

The respiratory system provides alveolar phagocytes and respiratory defenses to trap pathogens and protect deeper tissues. Tonsils within the lymphatic system protect against respiratory infection, and lymph drainage from the lungs mobilizes defenses to ward off infection.