Respiratory System 1

Question 1

What is internal respiration?

Answer 1

• Exchange between blood and body tissues

- Oxidative phosphorylation

Question 2

What is external respiration?

Answer 2

• Pulmonary ventilation
• Exchange between lungs and blood
• Transportation in blood

Question 3

Name 3 forces for air flow.

Answer 3

• Pressure gradient
• Patm - constant
• Palv - changes

Question 4

What is Boyle’s law?

Answer 4

pressure is inversely related to volume

Question 5

Name 2 factors determining intra-alveolar pressure.

Answer 5

• Quantity of air in alveoli

- Volume of alveoli

Question 6

What happens as the lungs expand?

Answer 6

• alveolar volume increases
• Palv decreases
• pressure gradient drives air into lungs

Question 7

What haps as the lungs recoil?

Answer 7

• alveolar volume decreases
• Palv increases
• pressure gradient drives air out of lungs

Question 8

Inspiration is ____ stimulation of inspiratory muscles.

Answer 8

neural

Question 9

What happens to the diaphragm during inspiration?

Answer 9

Diaphragm contraction causes it to flatten and move downward

Question 10

What happens to the external intercostals during inspiration?

Answer 10

Contraction of external intercostals makes ribs pivot upward and outward, expanding the chest wall

Question 11

What happens to thoracic cavity volume during inspiration?

Answer 11

increases

Question 12

What happens to the pleura during inspiration? What results?

Answer 12

• Outward pull on pleura decreases intrapleural pressure

- increase in transpulmonary pressure

Question 13

What happens to alveoli during inspiration?

Answer 13

• Alveoli expand, decreasing alveolar pressure

- air flows into alveoli by bulk flow

Question 14

Expiration is normally a _____ process.

Answer 14

passive

Question 15

What happens when inspiratory muscles stop contracting?

Answer 15

When inspiratory muscles stop contracting, recoil of the lungs and chest wall to their original positions decreases the volume of the thoracic cavity

Question 16

Active expiration requires what?

Answer 16

expiratory muscles

Question 17

What does a contraction of expiratory muscles do?

Answer 17

creates a greater and faster decrease in the volume of the thoracic cavity

Question 18

Name 4 factors that contribute to total lung capacity.

Answer 18

• tidal volume (Vt)
• inspiratory reserve volume (IRV)
• expiratory reserve volume (ERV)
• residual volume (RV)

Question 19

What is tidal volume (Vt)?

Answer 19

• 500 mL

- single, unforced breath

Question 20

What is inspiratory reserve volume (IRV)?

Answer 20

• 3000 mL

- after breathing in, volume you can still inspire

Question 21

What expiratory reserve volume (ERV)?

Answer 21

• 1000 mL

- after breathing out, volume you can still expire

Question 22

What is residual volume (RV)?

Answer 22

• 1200 mL
• volume left after ERV
• measurable by helium dilution method

Question 23

Inspiratory capacity (IC) =

Answer 23

Vt + IRV = 3500 mL

Question 24

What is functional residual capacity (FRC)?

Answer 24

• volume remaining after resting tidal volume

- FRC = ERV + RV = 5700 mL

Question 25

What is forced vital capacity (FVC)?

Answer 25

maximum volume inhalation followed by exhalation as fast as possible

Question 26

Low FVC indicates …

Answer 26

restrictive pulmonary disease

Question 27

What is forced expiratory volume (FEV)?

Answer 27

percentage of FVC that can be exhaled within certain time frame

Question 28

What is FEV1?

Answer 28

percentage of FVC that can be exhaled within 1 second

Question 29

Normal FEV1 =

Answer 29

80%

Question 30

If FVC = 4000 mL, should expire ____ mL in 1 sec.

Answer 30

3200 mL

Question 31

FEV1 <80% indicates:

Answer 31

obstructive pulmonary disease

Question 32

What is minute ventilation (Ve)?

Answer 32

• total volume of air entering and leaving the respiratory system each minute
• Vt x RR

Question 33

What is normal respiration rate (RR)?

Answer 33

12 breaths/min

Question 34

What is normal Vt?

Answer 34

500 mL

Question 35

What is normal Ve?

Answer 35

500 mL x 12 breaths/min = 6000 mL/min

Question 36

What is alveolar ventilation?

Answer 36

(VT × RR) – (DSV × RR)

Question 37

Describe arterial blood O2 and CO2 levels.

Answer 37

remain relatively constant

Question 38

O2 moves from ____ to ____ at the same rate it is…

Answer 38

• alveoli to blood

- consumed by cells

Question 39

CO2 moves from ____ to ____ at the same rate it is…

Answer 39

• blood to alveoli

- produced by cells

Question 40

Diffusion between alveoli and blood is _____. Why?

Answer 40

• rapid
• small diffusion barrier
• large SA

Question 41

Gases diffuse ____ pressure gradients.

Answer 41

down

Question 42

In gas mixtures, gases diffuse down ____ ____ ____.

Answer 42

partial pressure gradients

Question 43

A particular gas diffuses down which partial pressure gradient?

Answer 43

• its own

- presence of other gases is irrelevant

Question 44

PO2 systemic arteries =

Answer 44

100 mm Hg

Question 45

PO2 cells ≤

Answer 45

40 mm Hg

Question 46

Oxygen diffuses from ____ to ____.

Answer 46

blood to cells

Question 47

PO2 systemic veins =

Answer 47

40 mm Hg

Question 48

PCO2 cells ≥

Answer 48

46 mm Hg

Question 49

PCO2 systemic arteries =

Answer 49

40 mm Hg

Question 50

Carbon dioxide diffuses from ____ to _____.

Answer 50

cells to blood

Question 51

PCO2 systemic veins =

Answer 51

46 mm Hg

Question 52

Describe oxygen transport by hemoglobin.

Answer 52

• O2 is not very soluble in plasma
• Only 3.0 mL of every 200 mL of arterial blood O2 is dissolved in plasma (1.5%)
• The other 197 mL of arterial blood O2 is transported by hemoglobin

Question 53

Describe ways that oxygen can bind to hemoglobin.

Answer 53

• Hb + O2
• HbO2
• Hb = deoxyhemoglobin
• HbO2 = oxyhemoglobin

Question 54

Hemoglobin can bind up to ___ oxygen molecules.

Answer 54

4

Question 55

Binding of oxygen to hemoglobin follows:

Answer 55

the law of mass action

Question 56

More oxygen –> ____ binds to hemoglobin.

Answer 56

more

Question 57

The binding of oxygen to hemoglobin is what type of relationship?

Answer 57

• nonlinear

- positive cooperativity

Question 58

All 4 sites of Hb have O2 bound ____%.

Answer 58

100%

Question 59

What is saturation of hemoglobin?

Answer 59

a measure of how much oxygen is bound to hemoglobin

Question 60

100% saturation of hemoglobin means:

Answer 60

all four binding sites on hemoglobin have oxygen bound to them

Question 61

Describe the carrying capacity of blood for oxygen.

Answer 61

When 100% saturated, 1 g hemoglobin carries 1.34 mL O2

Question 62

Normal blood hemoglobin levels are:

Answer 62

2-17 g/dL

Question 63

What is the O2-carrying capacity of hemoglobin in blood?

Answer 63

200 mL O2 per 1 L blood

Question 64

In arterial blood, hemoglobin is ____% saturated.

Answer 64

98.5%

Question 65

In venous blood, hemoglobin is ____% saturated.

Answer 65

75%

Question 66

How does shifting right on the HbO2 dissociation curve effect O2 affinity changes?

Answer 66

less loading of O2 (saturation) and more unloading

Question 67

How does shifting left on the HbO2 dissociation curve effect O2 affinity changes?

Answer 67

more loading of O2 (saturation) and less unloading

Question 68

How does higher temperature effect HbO2 dissociation curve?

Answer 68

• Active tissues
• Shift right
• More O2 unloading in tissues
• More O2 delivery to tissues

Question 69

What is the Bohr effect?

Answer 69

lower pH increases O2 unloading

Question 70

Active tissues produce ___ acid; pH ______ in tissues.

Answer 70

• more

- decreases

Question 71

Decreased pH causes shift ____ in saturation curve, which means _____ O2 is unloaded to tissues.

Answer 71

• right

- more

Question 72

What is the carbamino effect?

Answer 72

• CO2 reacts with hemoglobin to form carbaminohemoglobin

- Hb + CO2 HbCO2

Question 73

HbCO2 has _____ affinity for oxygen than Hb.

Answer 73

lower

Question 74

Increased metabolic activity –> ______ CO2

Answer 74

increases

Question 75

what is 2,3 DPG?

Answer 75

2,3 diphosphoglycerate

Question 76

Where is 2,3 DPG produced?

Answer 76

RBC under conditions of low O2 such as anemia and high altitude

Question 77

2, 3 DPG synthesis is inhibited by _______.

Answer 77

oxyhemoglobin

Question 78

2, 3 DPG decreases affinity of _____ for O2, ______ O2 uploading.

Answer 78

• hemoglobin

- enhancing

Question 79

Hemoglobin has greater affinity for ______ than for O2.

Answer 79

carbon monoxide (CO)

Question 80

Carbon monoxide prevents O2 from binding to _____.

Answer 80

hemoglobin

Question 81

What is the haldane effect?

Answer 81

• Promotes unloading of CO2 at lungs; loading of CO2 at tissues
• alterations to Hb affinity for CO2 due to O2 binding

Question 82

What is carbonic anhydrase?

Answer 82

Enzyme that converts carbon dioxide and water to carbonic acid

Question 83

Describe the law of mass action.

Answer 83

an increase in CO2 causes an increase in bicarbonate and hydrogen ions

Question 84

CO2 is more soluble in ____ than O2, but still not very soluble.

Answer 84

plasma

Question 85

___% CO2 transported dissolved in plasma.

Answer 85

5-6%

Question 86

CO2 can bind to hemoglobin to form _______.

Answer 86

carbaminohemoglobin

Question 87

____% carbaminohemoglobin transported bound to hemoglobin.

Answer 87

5-8%

Question 88

CO2 can be converted to _____ by erythrocytes, then transported in _____.

Answer 88

• bicarbonate

- plasma

Question 89

_____% of transported CO2 dissolved in the plasma as bicarbonate.

Answer 89

86-90%

Question 90

Bohr effect = alterations to:

Answer 90

Hb affinity to O2 due to changes in pH

Question 91

Carbamino effect = alterations to:

Answer 91

Hb affinity due to O2 due to binding of CO2 to Hb (ie. CO2 bound to Hb = decreased affinity for O2 = O2 off loading at tissues)