respiratory system

Question 1

what is the purpose of breathing?

Answer 1

to get oxygen down to the mitochondria of the cells for ATP production

Question 2

What are the functions of the respiratory system?

Answer 2

• gas exchange
• communication
• olfaction
• acid-base balance
• blood pressure regulation
• blood and lymph flow
• blood filtration
• expulsion of abdominal contents

Question 3

What makes up the upper respiratory tract?

Answer 3

• In head and neck
• nose through larynx

Question 4

What makes up the lower respiratory tract?

Answer 4

• organs of the thorax
• trachea through lungs

Question 5

What is the conducting zone?

Answer 5

A system of tubes that delivers air to the alveoli

Question 6

What is the respiratory zone?

Answer 6

It consists of alveoli and other gas exchange regions

Question 7

What are the major organs of the respiratory system?

Answer 7

• nose, nasal cavity
• pharynx
• larynx
• trachea
• bronchi and their branches
• lungs and alveoli

Question 8

What does the epiglottis do?

Answer 8

It closes the entrance to the larynx and trachea (prevent food from going down wind pipe)

Question 9

What is the esophagus?

Answer 9

food pipe

Question 10

What do alveoli’s do and where are they located?

Answer 10

• tiny air sacs
• in the lungs

Question 11

which is anterior, which is posterior (trachea/esophagus)?

Answer 11

• trachea: anterior
• esophagus: posterior

Question 12

Where is the visceral pleura located?

Answer 12

serous membrane that covers the lungs

Question 13

where is the parietal pleura located?

Answer 13

mediastinum, inner surface of the rib cage, and superior surface of the diaphram

Question 14

Where is the pleural cavity located?

Answer 14

potential space between pleurae

Question 15

What are the function of pleurae and pleural fluid?

Answer 15

• reduce friction
• create pressure gradient
• lower pressure then atmospheric pressure
• compartmentalization: prevents spread from one organ to another

Question 15

What is the Pharynx?

Answer 15

the muscular funnel extending about 5 inches from the choanae to the larynx
- (voice box), which, in turn, moves air to your trachea and lungs

Question 16

Where is the point where vessels enter and exit?

Answer 16

Root of lung at hilum

Question 16

what are the three regions of the pharynx?

Answer 16

• nasopharynx
• oropharynx
• larynngopharynx

Question 17

What is the oropharynx?

Answer 17

• space between soft palate and epiglottis
• contains palatine tonsils

Question 17

what is the nasopharynx?

Answer 17

• posterior to nasal apertures and above soft palate
• receives auditory tubes and contains pharyngeal tonsil

Question 18

What is the laryngopharynx?

Answer 18

• epiglottis to cricoid cartilage
• esophagus begins at that point

Question 19

What is the primary function of the Larynx?

Answer 19

keep food and drink out of the airway

Question 20

What is the Epiglottis and what is its function?

Answer 20

• flap of cartilage that prevents unwanted things from going down the trachea
• closes airway and directs food to esophagus

Question 20

what is a tracheostomy?

Answer 20

insertion of a temporary breathing tube

Question 21

At what diameter is the structure a bronchiole?

Answer 21

less then 1mm

Question 22

What are the factors that facilitate efficient gas exchange?

Answer 22

1. huge surface area
2. copious blood supply
3. thin respiratory membrane

Question 23

What is pulomonary ventilation?

Answer 23

A repetitive cycle of inspiration and expiration

Question 23

What is the respiratory cycle?

Answer 23

one complete inspiration and expiration

Question 24

what is forced respiration?

Answer 24

deep, rapid breathing

Question 25

what is quiet respiration?

Answer 25

while at rest, effortless and automatic

Question 26

What 2 phases does Pulmonary Ventilation consist of?

Answer 26

• inspiration
• expiration

Question 27

What volume changes do the ventilation processes depend on?

Answer 27

thoracic cavity
(vol up/p d)

Question 28

what is atmospheric pressure?

Answer 28

pressure exerted by the air surrounding the body

Question 29

how do the pleurae layers stick together?

Answer 29

cohesion of water

Question 30

What is intrapulmonary (intra-alveolar) pressure.

Answer 30

• pressure in the alveoli
• fluctuates with breathing
• 760mm Hg

Question 31

What is intrapleural pressure?

Answer 31

• pressure in the pleural cavity
• always a negative pressure
• (-4mm Hg)

Question 32

What type of process is inspiration?

Answer 32

• active

Question 33

What is Pneumothorax?

Answer 33

the presence of air in pleural cavity

Question 34

What are the sequence of events for inspiration?

Answer 34

1. inspiratory muscles contract (diaphragm descends; rib cage rises)
2. thoracic cavity vol incr
3. lungs are stretched; intrapul vol incr
4. intrapul pressure drops (to -1mm Hg)
5. air flows into lungs down pressure gradient until intrapul press =0

Question 35

What type of process is Expiration?

Answer 35

• passive

Question 36

What are the sequence of events for expiration?

Answer 36

1. Inspiratory muscles relax (diaphragm rises; rib cage descends due to recoil of costal cartilages)
2. thoracic cavity vol decr
3. elastic lungs recoil passively; intrap vol decr
4. intrapul pressure rises (to +1mm Hg)
5. air flows out of lungs down press gradient until intrapul = 0

Question 37

what is the relationship between resistance and airflow?

Answer 37

increased resistance = decreased airflow

Question 38

what are the factors that influence resistance to airflow?

Answer 38

• diameter of the bronchioles
• pulmonary compliance

Question 39

what is bronchodilation?

Answer 39

increase in diameter of a bronchus or bronchiole

Question 39

what stimulants stimulate dilation?

Answer 39

epinephrine and sympathetic stimulation
- increased airflow

Question 39

What is bronchoconstriction?

Answer 39

decrease in diameter of a bronchus or bronchiole

Question 40

what is pulmonary compliance?

Answer 40

ease with which the lungs can expand
- the change in lung vol relative to a given pressure change

Question 40

what stimulants stimulate constriction?

Answer 40

histamine, parasympathetic nerves, cold air, and chemical irritant
- decrease airflow

Question 41

how is compliance reduced?

Answer 41

degenerative lung diseases in which the lungs are stiffened by scar tissue

Question 41

how is compliance limited?

Answer 41

by the surface tension of the water film inside alveoli

Question 42

is all air that is inhaled available for gas exchange?

Answer 42

no, only air that enter the alveoli

Question 43

what is atomic dead space?

Answer 43

conducting zone of airway where there is no gas exchange (150ml)

Question 44

what does sympathetic dilation do to dead space?

Answer 44

increases dead space allowing for greater flow

Question 45

what is physiologic dead space?

Answer 45

sum of anatomic dead space and any pathological alveolar dead space

Question 46

what is a spirometer?

Answer 46

a device that recaptures expired breath and records such variables as rate and death of breathing, speed of expiration, and rate of oxygen consumption

Question 47

what is tidal volume and its avg value?

Answer 47

amount of air inhaled or exhaled with each breath under resting conditions
- 500 ml (150ml stay in dead space)

Question 48

what is inspiratory reserve volume?

Answer 48

amount of air that can be forcefully inhaled after a normal tidal volume inhalation

Question 49

what is expiratory reserve volume?

Answer 49

amount of air that can be forcefully exhaled after a normal tidal volume exhalation

Question 50

what is residual volume?

Answer 50

amount of air remaining in the lungs after a forced exhalation

Question 51

what is the avg total lung capacity for male and female?

Answer 51

male: 6000ml
female: 4200ml
TLC=TV+IRV+ERV+RV

Question 52

what is the vital capacity for male and females?

Answer 52

inspiratory effort
male: 4800ml
female: 3100ml

Question 53

what is the alveolar ventilation rate?

Answer 53

air that ventilates alveoli

Question 54

what is spirometry?

Answer 54

aids in diagnosis and assessment of restrictive and obstructive lung disorders

Question 55

what is apnea?

Answer 55

temporary cessation of breathing

Question 55

what are restrictive disorders?

Answer 55

those that reduce pulmonary compliance

Question 56

what are obstructive disorders?

Answer 56

those that interfere with airflow by narrowing or blocking the airway

Question 57

What is Eupnea?

Answer 57

relaxed quiet breathing

Question 58

what is dyspnea?

Answer 58

labored, gasping breathing

Question 59

what is hyperpnea?

Answer 59

increased rate and depth of breathing in response to increased metabolic demand

Question 60

what is hyperventilation?

Answer 60

increased pulmonary ventilation in excess of metabolic demand
- (co2 down = ph^ (basic))

Question 61

what is hypoventilation?

Answer 61

reduced pulmonary ventilation leading to an increase in blood

Question 62

what are the gases involved in Atm air with their percentages?

Answer 62

N2 - 79%
O2 - 21%
CO2 - 0.04%
h20 - 0.46%

Question 63

what is partial pressure?

Answer 63

the separate contribution of each gas in a mixture

Question 64

how does the composition of inspired and alveolar air differ?

Answer 64

1. air is humidified by contact with mucous membranes
2. air in alveoli mixes with residual air left from previous respiratory cycle
3. alveolar air exchanges 02+CO2 in blood

Question 65

what is alveolar gas exchange?

Answer 65

the swapping of O2 and CO2 across the respiratory membrane

Question 66

what is the PO2 of inspired air?

Answer 66

159mm Hg

Question 67

what is the PCo2 of inspired air?

Answer 67

0.3mm Hg

Question 67

what is PO2 of oxygenated blood?

Answer 67

95mm Hg

Question 68

what is the PCO2 of oxygenated blood?

Answer 68

40mm Hg

Question 69

what is the path of air through the body?

Answer 69

inspired air - alveolar air - oxygenated blood - tissue fluid - deoxygenated blood - expired air

Question 70

what are the factors that influence alveolar gas exchange?

Answer 70

1. solubility of the gases
2. membrane surface area. (70m^2)
3. membrane thickness (thicker/gas exchange less efficient)

Question 71

what is ventilation-perfusion coupling?

Answer 71

the ability to match air flow and blood flow to each other

Question 72

what does increased perfusion lead to?

Answer 72

• increased blood flow
• elevated PCO2 in alveoli
• dilation of bronchioles
• increased airflow

Question 73

what does reduced perfusion lead to?

Answer 73

• decreased blood flow
• reduced PCO2 in alveoli
• constriction of bronchioles
• decreased airflow

Question 73

what does increased ventilation lead to?

Answer 73

• increased airflow
• elevated PO2 in blood vessels
• vasodilation of pulmonary vessels
• increased blood flow

Question 74

what does reduced ventilation lead to?

Answer 74

• decreased airflow
• reduced PO2 in blood vessels
• vasoconstriction of pulmonary vessels
• decreased airflow

Question 75

what is gas transport?

Answer 75

process of carrying gases from the alveoli to the systemic tissues and vice versa

Question 76

what is the percentage of carbon dioxide transport?

Answer 76

• 70% carbonic acid
• 23% proteins
• 7% plasma

Question 76

what is the percentages of oxygen transport?

Answer 76

• 98.5% hemoglobin
• 1.5% in plasma

Question 77

oxygen transport?

Answer 77

• carries 4 protein globin portions
• 4 iron per 1 oxygen

Question 78

what are the 3 ways that carbon monoxide is transported?

Answer 78

• carbonic acid (90%)
• carbamino compounds (5%)
• dissolved in plasma

Question 79

what is systemic gas exchange?

Answer 79

• the unloading of O2 and loading of CO2
• carbonic anhydrase in RBC catalyzes
• chloride shift

Question 80

what is oxygen unloading?

Answer 80

• H+ binding to HbO2 reduces its affinity for O2

Question 81

what is venous reserve?

Answer 81

oxygen remining in the blood after it passes through the capillary bedsq

Question 82

what is CO2 unloading?

Answer 82

Hb loads O2 its affinity for H+ decreases, H+ dissociates from Hb and binds with HCO3-

Question 83

what is a reverse chloride shift?

Answer 83

HCO3- diffuses back into RBC in exchange for Cl-, free CO2 that is generated into alveolus to be exhaled

Question 84

what are the adjustments made to the metabolic needs of individual needs?

Answer 84

1. ambient PO2
2. ambient ph
3. bisphosphoglycerate
4. temperature

Question 85

what is the haldane?

Answer 85

low levels of oxyhemoglobin enables the blood to transport more

Question 86

what are the effects of CO2 and O2 on breathing?

Answer 86

• maintain arterial blood at pH of 7.35 to 7.45
• stimulate peripheral chemoreceptors and trigger ventilation (direct)

Question 87

what nerve is involved in keeping the respiratory under control?

Answer 87

phrenic nerves