Chapter 16 Respiratory Physiology

Question 1

ventilation

Answer 1

mechanical process that moves air into and out of the lungs - breathing

Question 2

gas exchange

Answer 2

between air and blood in lungs and blood and other tissues

via diffusion

Question 3

oxygen utilization

Answer 3

use of oygen in cell respiration

Question 4

where doese gas exchange occur

Answer 4

alveoli

end of airways

Question 5

what are alveoli formed of

Answer 5

clusters of epithelium air sacs

Question 6

type I alveolar sac

Answer 6

form most of the epithelium

Question 7

type II alveolar sac

Answer 7

secrete surfactant to prevent alveolar collapse

Question 8

upper airways

Answer 8

nose/mouth
pharynx
larynx

Question 9

conducting zones

Answer 9

structures before respiratory zone

mouth to terminal bronchioles

Question 10

responsibility of conducting yone

Answer 10

warmes, humifiesa and filters inspired air

Question 11

respiratory zone

Answer 11

region of gas exchange

respiratory bronchioles, aleolar ducts and alveolar sacs

Question 12

air pathway

Answer 12

nose/mouth
pharynx
larynx
trachea
broncus
bronchioles
terminal bronchioles
respiratory bronchioles
alveolar ducts
alveolar sacs

Question 13

what are trachea and bronchi surrounded by

Answer 13

cartialage rings

Question 14

what causes airflow in bronchioles

Answer 14

contraction/relaxation of circular smooth muscle

Question 15

protective mechanisms

Answer 15

nasal hairs
mucus escalator
bronchconstriction
macrophages

Question 16

mucus escalator

Answer 16

keeps lungs clean

cells that carry mucus to üüharynx to be swallowed

Question 17

bronchconstriction

Answer 17

response to irritation

prevents unwanted matter to enter alveoli

Question 18

macrophage

Answer 18

WBC in airways and alveoli to destroy inhaled particles and bacteria

Question 19

movement of air

Answer 19

from high pressure to low pressure region

Question 20

what causes pressure difference

Answer 20

changes in lung volume

contraction and relaxation of lung muscle

Question 21

movement of air in and out of the lungs

Answer 21

passively because of lower and greater pressure than atmosphere

Question 22

inspiration

Answer 22

movement of air from external environment

Question 23

pressure inside lungs

Answer 23

intra-alveolar (intrapulmonary) pressure - Palv

Question 24

intrapleural pressure

Answer 24

pressure of fluid surrounding lungs - Pip

Question 25

transpulmonary pressure

Answer 25

difference between inside and outside the lungs Ptp = Palv - Pip
3 during inspiration

Question 26

equation of air flow

Answer 26

Air flow = deltaP/R = (Palv - Palv)/R
pressure in inversely proportional to V (high V = airpessure decreases)
If Palv < Patm - inspriation
if Palv > Patm - expiration

Question 27

Boyle´s law

Answer 27

P1V1 = P2V2

volume of lungs determines pressure in lungs

Question 28

law of laplace

Answer 28

P=2T/r
relationship between pressure, surface tension (T) and radius (r)
higher pressure in smaller alveoli

Question 29

partial pressure

Answer 29

[%] x 760 mmHg

pressure of a single gas (in which direction they flow)

Question 30

compliance of the lung

Answer 30

strechability of the lung

Question 31

elasticity of the lung

Answer 31

ability to go back to normal size after streching

Question 32

surface tension of the lung

Answer 32

inside of alveoli are lined withw ater while filled with air

increase the pressure

Question 33

surfactant

Answer 33

secreted by type II aleveoli
reduces surface tension
makes it easier for cell to expand

Question 34

what is inspiration a result of

Answer 34

expansion of thoracic cage due to contraction of diaphragm and external intercostal muscle -> decreases Palv
Palv < Patm

Question 35

what causes expiration

Answer 35

muscle relaxation - chest wall and lungs recoil inward
reduced lung volume -> increased Palv
Palv > Patm

Question 36

average atmospheric pressure

Answer 36

760 mmHg

Question 37

responsibility of transpulmonary pressure

Answer 37

keep lungs stuck to thoracic wall

Question 38

tidal volume

Answer 38

amount of air moved in or out in a single breathing cycle (500mL)

Question 39

Inspiratory

Answer 39

3000mL

Question 40

expiratory reserve volume

Answer 40

1200mL

Question 41

lungs vital capacity

Answer 41

4700mL

Question 42

residual volume

Answer 42

amount of air that must remain in lungs to prevent alveolar collapse
(1200mL)

Question 43

gas exchange within alveoli

Answer 43

gas in liquid follows pressure gradient

Question 44

pathway from oxygen

Answer 44

alveoli - capillaries - vessels - tissue - ISF- cell

Question 45

pathway of carbon dioxide

Answer 45

cell - ISF - blood vessels - capillaries - alveoli

Question 46

amount of gas

Answer 46

oxygen volume enterin bloodstream equals consume

carbon dioxide produced by cells equals expiration

Question 47

respiratory quatient (RQ)

Answer 47

ratio of Co2 produced to O2 consumed

Question 48

resistance and pressure in the pulmonary vessels

Answer 48

low

Question 49

Dalton´s Law

Answer 49

total pressure of a mixture of gases = sum of individual pressure

Question 50

individual pressure

Answer 50

=partial pressures = [%] x 760 mmHg

Question 51

Henry´s Law

Answer 51

concentration of a gas dissolved in a liquid is proportional to the partial pressure of the gas

Question 52

individual pressure of oxygen

Answer 52

much higer compared to CO2 in capillary pulmonary veins

almost same in right atrium

Question 53

where do signals originate that control the respiratory

Answer 53

meduallary respiratory center of medulla oblongata

Question 54

pulmonary relaxation

Answer 54

when AP stops

Question 55

location of peripheral chemoreceptors

Answer 55

heart (aorta)

Question 56

location of central chemoreceptors

Answer 56

medulla oblongata

Question 57

what do central and peripheral chemoreceptors respond to

Answer 57

changes in P(O2), P(CO2), [H+9] (acid)

Question 58

CO2 chemistry

Answer 58

CO2 + H2O <=> H2CO3 (Carbonic Acid) <=> H+ + HCO3- (Bicarbonate)

Question 59

hypoventilation

Answer 59

inadequate ventilation
P(CO2) increases & pH falls (due to increased H+ when carbonic acid releases H+)
increase in ventilation rate

Question 60

hyperventilation

Answer 60

increased ventilation
P(CO2) decreases & pH increases (due to excessive elimination of carbonic acid)
decrease in ventilation rate

Question 61

low blodd P(O2)

Answer 61

increases chemoreceptor sensitivity to increased P(CO2)

Question 62

amount of oxygen in blood

Answer 62

20%

Question 63

major oxygen transport component

Answer 63

hemoglobin (98.5%)

Question 64

bloods oxygen carrying capacity

Answer 64

determined by hemoglobin concentration

Question 65

hemoglobin composition

Answer 65

4 globins (polypeptide chains) with 4 heme, each has one Fe atom (oxygen binding site)

Question 66

oxyhemoglobin

Answer 66

hemoglobin with oxygen

Question 67

deoxyhemoglobin

Answer 67

hemoglobin from which O2 has seperated

Question 68

oxyhemoglobin saturation in arteries/veins

Answer 68

arteries: almost 100%
veins: 75%

Question 69

Bohr effect

Answer 69

lower pH decreases the affinity (Anziehung) of hemoglobin for oxygen

Question 70

what else affects hemoglobin oxygen bond

Answer 70

temperature

Question 71

CO2 transport in blood

Answer 71

10% dissolved as a gas in plasma
20% as carbaminohemoglobin (bound to deoxyhemoglobin)
70% transported as HCO3- (bicarbonate)

Question 72

what does a high P(CO2) favor in systemic capillaries

Answer 72

formation of carbonic acid

Question 73

reverse chloride shift

Answer 73

convert carbonic acid to H2O and CO2-

Question 74

normal pH range of blood plasma

Answer 74

7.35-7.45

Question 75

who regulates pH concentration

Answer 75

lungs (C02 regulation)

kidney (HCO3- regulation)

Question 76

what is H+ generated by

Answer 76

reactions involving CO2

Question 77

acidosis

Answer 77

pH below 7.35

Question 78

respiratory acidosis

Answer 78

based on plasma [CO2]

Question 79

metabolic acidosis

Answer 79

based on plasma [HCO3-]

Question 80

Alkalosis

Answer 80

pH over 7.45

Question 81

why does ventilation increase during exercise

Answer 81

to keep up with increased metabolism

arterial oxygen, CO2 and pH stay constant

Question 82

ventilation at high altitude

Answer 82

decreased atmospheric pressure
decreased P(O2)
decreased % oxyhemoglobin saturation
deficiency of oxygen at the tissue level
decreased P(O2) -> increased ventilation to decrease arterial P(CO2)