A&P II EXAM 3

Question 1

How does respiratory system maintain homeostasis?

Answer 1

exchange of oxygen/carbon dioxide between external and internal environments

Question 2

What process in our body requires oxygen in order to generate ATP (energy)?

Answer 2

cellular respiration
this process releases carbon dioxide as a waste byproduct

Question 3

breathing occurs through a process called ….

Answer 3

pulmonary ventilation
breathing in-inspiration/inhalation
breathing out-expiration/exhalation

Question 4

what is #2 external respiration?

Answer 4

exchange between lungs and blood

Question 5

what is #3 transport of gases?

Answer 5

cardiovascular system pumps blood between lungs and tissues

Question 6

what is #4 internal respiration?

Answer 6

exchange between blood and tissues

Question 7

internal respiration is

Answer 7

exchange with blood

Question 8

the 4 respiratory processes are…

Answer 8

pulmonary ventilation, external respiration, transport of gases, internal respiration

Question 9

trace a molecule of oxygen that has entered the nasal or oral cavity until it reached the alveoli of lungs.

Answer 9

nasal/oral cavities>pharynx>larynx>trachea>
bronchi>bronchioles>alveoli

Question 10

At what point do the structures of respiratory system change from conduction zone to respiratory zone?

Answer 10

between terminal and respiratory bronchioles

Question 11

aside from providing conduits for air to travel, what else does the conducting zone of the respiratory system do?

Answer 11

cleanse, humidify, and warm incoming air

Question 12

Respiratory structures and functions: nose (nasal cavity and septum)

Answer 12

warm, filter, moisten, speech and smell

Question 13

Respiratory structures and functions:
Paranasal sinuses-

Answer 13

speech

Question 14

Respiratory structures and functions:
pharynx (including tonsils)-

Answer 14

passageway for air and food

Question 15

Respiratory structures and functions:
larynx (including vocal folds)-

Answer 15

passageway (epiglottis prevent food entry)
and voice box

Question 16

Respiratory structures and functions:
trachea and bronchial tree

Answer 16

passageway -transport air from environment to lungs
clean, warm, moisten

Question 17

Respiratory structures and functions:
alveoli (including surfactant)

Answer 17

surfactant lowers surface tension/prevents lung collapse
-location of gas exchange

Question 18

Respiratory structures and functions:
pleurae (including pleural fluid)

Answer 18

lubricating fluid
compartmentalize lungs

Question 19

function of respiratory membrane is to allow…

Answer 19

is to allow gas exchange by simple diffusion and to exist as a blood-air barrier

Question 20

list the 3 layers of the respiratory membrand from inside blood to inside the alveolus..

Answer 20

capillary endothelium
flimsy basement membrane
simple squamous epithelium (type 1 alveoli)

Question 21

what additional cells exist within the alveoli and what is each of their functions?

Answer 21

Type 2 secrete surfactant (which decreases surface tension) and antimicrobial proteins

macrophages>phagocytize microbes

Question 22

list the pleurae that surround the lung from superficial to deep. what is each layer attached to?

Answer 22

these are serous membranes..
i. parietal pleura-attache to chest wall
ii. pleural cavity-filled with pleural fluid (lubrication during breathing)
iii. visceral pleura attached to lung surface

Question 23

the relationship between pressure and volume is known as…

Answer 23

Boyle’s Law
^volume up, pressure down
volume down, pressure up

Question 24

intrapulmonary pressure increases or decreases to allow inspiration?

Answer 24

decreases

Question 25

what pressure is always negative and helps to keep the lungs inflated?

Answer 25

intrapleural pressure Pip

Question 26

a decrease in surfactant will result in a
decrease or increase in compliance?

Answer 26

decrease

Question 27

oxygen is loaded at the —–
and unloaded at the —–

Answer 27

loaded at eh lungs and unloaded at the tissues

Question 28

the Bohr effect weakens the bond between hemoglobin and oxygen promoting (loading/unloading) to occur?

Answer 28

unloading

Question 29

list 2 ways that oxygen(attached to iron) is transported through blood

Answer 29

98.5% hemoglobin (iron) oxygen attaches to the iron
1.5% plasma (dissolves in plasma)

Question 30

Blood that is 98% saturated is called ——-or O2 rich blood ?

Answer 30

oxygenated and contains 4 molecules of oxygen bound to each (heme group) hemoglobin

Question 31

blood that is only 40-75% saturated is ——- or 02 poor blood and contains ….

Answer 31

deoxygenated and contains only 1-3 molecules of oxygen bound to each Hb(hemoglobin)
this blood travels through the systemic veins and the pulmonary arteries

Question 32

At the tissues of the body CO2 gas is converted to a what?

Answer 32

bicarbonate ion HCO3-, and leaves the erythrocyte as chloride enters.

Question 33

list 3 ways carbon dioxide is transported through blood…

Answer 33

7-10% carbon dioxide dissolves in plasma at the tissue
20% carbon dioxide binds to Hb in RBCs hemoglobin attached to amino acid in globin protein, not heme
70% carbon dioxide is transported as bicarbonate ion(HCO3-)

Question 34

volume changes lead to what kind of changes which lead to air flow into or out of lungs?

Answer 34

pressure changes

Question 35

atmospheric pressure Patm >
pressure exerted by …

Answer 35

gases is air outside of body
(atmosphere)

Question 36

intrapulmonary pressure (Ppul) >
pressure in ..

Answer 36

alveoli of lungs
always equalizes with Patm.

Question 37

Intrapleural pressure (Pip)
pressure in the…

Answer 37

pleural cavity must be less than Ppul

Question 38

Boyle’s law
at constant temperature, pressure of gas

Answer 38

is inversely (opposite) related to volume
as volume increases, pressure decreases

Question 39

Boyle’s law summarized…
as volume increases….

Answer 39

pressure decreases or vice versa

Question 40

why does Boyle’s law occur?
in large container (largest lung volume)…

Answer 40

gas molecules are more spread out
(collide less=less pressure)
if container is reduced (smallest lung volume)
gas molecules are less spread out (collide more=more pressure)

Question 41

quiet breathing (inspiration)
diaphragm> moves or contracts how to increase thoracic volume?

Answer 41

moves inferiorly
external intercostals>elevate rib cage (up and out)

Question 42

quiet expiration (breathe out)
this is a passive process….

Answer 42

muscles relax, lungs recoil.

Question 43

muscles involved in forced breathing…
forced inspiration

Answer 43

neck-pect-erect
scalene-all neck muscles
pectoralis minor-all elevate rib cage
erector spinae - changes back curvature

Question 44

forced expiration
internal intercostals>
abdominal muscles >

Answer 44

depresses rib cage (down and IN)
pushes diaphragm superiorly to decrease thoracic volume

Question 45

Inspiration (quiet) diaphragm and intercostal muscles….

Answer 45

contract
rib cage moves up and out (parallel parking)
it increases thoacic cavity and lung volume

Question 46

inspiration
as volume increase…

Answer 46

pressure decrease
Ppul drops below Patm (this is constant w/ventilation)
Pip decreases also

Question 47

inspiration.
gases move down pressure gradient meaning..

Answer 47

high outside to low inside
(air enters lungs) called inhalation
it ends when Ppul returns to (equal to) Patm

Question 48

1.(TV)TIDAL VOLUME> is

Answer 48

air inhaled or exhaled at rest (quiet)

Question 49

2. inspiratory reserve volume (IRV)>
3. expiratory reserve volume (ERV)>

Answer 49

air inhaled above
air exhaled below
=forced breathing

Question 50

4. residual volume (RV)>
5. vital capacity (VC)>

Answer 50

air left in lungs after complete exhale
-TV + IRV + ERV(total amount you inhale and exhale)

Question 51

surfactant is…

Answer 51

detergent-like substance secreted from alveolar type 2 cells

Question 52

lung collapse is prevented with…

Answer 52

1. surfactant>reduces cohesiveness of water in alveoli of water in alveoli
2. negative intrapleural pressure>works against natural tendency of lungs to recoil
3. residual volume>keeps alveoli open

Question 53

lung compliance is…

Answer 53

stretch or expansion of lungs

Question 54

lung compliance measure the changes in lung volulme over the changes in…

Answer 54

lung pressure

Question 55

factors affecting lung compliance…

Answer 55

1. elasitcity (distensibility)> C Is reduced by scar tissue from infections
2. alveolar surface tension >C IS REDUCED by decreased surfactant

Question 56

lung compliance.
you want high elasticity and…

Answer 56

low tension!!!
or surfactant increases
like from exercise or being young

Question 57

Dalton’s law> says that…

Answer 57

total pressure is sum of partial pressure

Question 58

respiration (aside from ventilation) involves

Answer 58

blood transportation gases

Question 59

total pressure>is

Answer 59

pressure of all gases in air

Question 60

partial pressures> is

Answer 60

inidividual (each) of each gas

Question 61

differences in partial pressures of atmospheric gases and alveolar gases:
atmospheric Po2(HIGHER) > alveoli lower Po2 so …

Answer 61

O2 moves into alveoli

Question 62

Henry’s law>

Answer 62

gases dissolve in liquid (plasma) in proportion to partial pressures (still move from high to low)

Question 63

with external and internal respiration, gases move by …

Answer 63

diffusion (high to low pressure to reach equilibrium)

Question 64

external respiration>

Answer 64

exchange between alveoli and blood
why does this happen
greater partial pressure in oxygen P o2 is in alveoli. So 02 diffuses into blood(lower pressure in blood)
greater partial pressure in CO2 is in bloood so CO2 diffuses into alveoli of lungs and is then exhaled

Question 65

internal respiration>

Answer 65

exchange between blood and tissues.
Why does this happen?
Greater partial pressure O2 is in blood, so 02 diffuses into tissues(cells).
so CO2 diffuses into blood and is later exhaled

Question 66

oxygen transport in blood:
98.5 % oxygen binds to
1.5% is

Answer 66

hemoglobin with RBCs
dissolved in plasma

Question 67

each hemoglobin (a protein) has how many peptide chains and binds and carries how many oxygen molecules?

Answer 67

It has 4 peptide chains
it binds and carries 4 oxygen molecules( 1 oxygen per iron)

Question 68

loaded HB =

Answer 68

Hb+ O2=HbO2 which is oxyhemoglobin
meaning it is saturated if it’s loaded

Question 69

oxygen saturation
saturation=

Answer 69

how much oxygen is bound to hemoglobin in blood

Question 70

oxygen saturation:
greater O2 pressure allows

Answer 70

greater saturation

Question 71

Oxygenated (O2 rich) blood:
within pulmonary veins and systemic arteries is

Answer 71

4 oxygen bound to Hb
Hb is 98% saturated with O2

Question 72

deoxygenated (O2-poor) blood
within systemic veins and pulmonary arteries is

Answer 72

1-3 oxygen bound to Hb (partially saturated)
Hb is only 40-75% saturated with O2

Question 73

Inactive tissues need less oxygen(less cell respiration) so less…

Answer 73

less unloading due to high O2 partial pressure in tissues.
Hb remains mostly saturated (75%)

Question 74

Active tissues need more oxygen (more cell respiration) so more…

Answer 74

unloading due to low O2 partial pressure in tissues
Hb is least saturated after visiting active tissues (40%)

Question 75

oxygen unloading:
hemoglobin is less willing to bind (LOAD) oxygen in lungs when…

Answer 75

increase in blood CO2 partial pressure
-increase in blood temperature
-increase in H+ or blood acidity
*all three affect loading/unloading by changing Hb shape
These factors increase Hb “unloading “ of O2 in the capillaries (Bohr effect)

Question 76

Co2 transport in blood:
carbon dioxide combines with water forming …

Answer 76

carbonic acid dissociates into hydrogen and bicarbonate.

Question 77

bicarbonate ions can be generated in …

Answer 77

plasma or RBC(faster in RBC due to enzyme carbonic anydrase)

Question 78

chloride shift is…

Answer 78

negative chloride ions counterbalance negative bicarbonate ions entering or leaving RBC

Question 79

medulla sets…

Answer 79

respiratory rhythm

Question 80

ventral respiratory group (VRG)
this is quiet breathing, not forced…it does three things…

Answer 80

1. sets rhythm eupnea (12-15 breaths /min) at rest
2. breathe in -inspiratory neurons>stimulate phrenic and intercostal nerves( take in O2)-stimulate diaphragm to contract -intercostal muscles
3. expiratory neurons -breathe out-inhibit inspiratory neurons, causing relaxation of muscles

Question 81

Ventral respiratory groups
inspiratory and expiratory groups alternate

Answer 81

control of respiratory muscles

Question 82

DRG Dorsal Respiratory Group does what?

Answer 82

integrates input from stretch and chemo receptors
-communicates with VRG to modify rhythm

Question 83

PRG Pontine Respiratory Group
Pons modifies medullary neurons how?

Answer 83

it smooths VRG transition between inspiration and expiration

Question 84

depth: determined by how much
respiratory groups stimulate nerves
Greater stimulation=

Answer 84

greater force of muscle contraction > greater depth of breathing

Question 85

respiratory rate: determined by how long inspiratory groups are active…
which means..

Answer 85

longer they’re active >slower breathing (longer rate)
rate and depth change based on sensory input from receptors

Question 86

central chemoreceptors are where?

Answer 86

within brainstem

Question 87

peripheral chemoreceptors are where?

Answer 87

in aorta and carotid arteriesa

Question 88

all chemoreceptors are sensitive to changes in

Answer 88

CO2, O2, H+

Question 89

Influence of carbon dioxide partial pressure 3 things…

Answer 89

1. most controlled respiratory chemical
2. high levels of CO2 lead to increased H+ and decreased pH
3. leads to an increase in rate and depth of breathing
   (opposite for low levels of CO2)

Question 90

influence of pH
perioheral chemoreceptors detect what

Answer 90

decrease in pH
pH does down so high in H+(acidity) leads to increased rate of breathing and depth

Question 91

influence of oxygen partial pressure
decrease in oxygen has what effect?

Answer 91

only has a slight affect on ventilation unless extreme decrease occurs

Question 92

respiratory disorder:
emphysema which is…

Answer 92

alveolar walls are damaged which makes air sacs which makes less surface are for gas exchange

Question 93

respiratory disorder:
COPD which is..

Answer 93

chronic obstructive pulmonary diseases

Question 94

respiratory disorders
chronic bronchitis which is …

Answer 94

excess mucus production causes chronic cough? which blocks gas exchange

Question 95

homeostatic imbalances:
pneumonia which is

Answer 95

alveoli filled with fluid due to viral or bacterial infection which disrupts gas exchange

Question 96

homeostatic imbalances:
asthma which is…

Answer 96

constriction of bronchioles (sometimes due to allergen) affects ventilation