Pulmonary Physiology: Gas Exchange and Transport Flashcards

1
Q

What is Fick’s law of diffusion?

A

The flow of a gas (V) is proportional to area/thickness X diffusion coefficient (D) X (P1-P2)

V ∝ A/T x D(P1 - P2)

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2
Q

What is Henry’s law?

A

A gas will dissolve in a liquid in proportion to its partial pressure over the liquid. The actual amount that dissolves in a liquid = solubility coefficient x partial pressure

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3
Q

What are the solubility coefficients of O2 and CO2, respectively?

A
O2 = 0.003 mlO2/dl/mmHg
CO2 = 0.06 mlCO2/dl/mmHg
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4
Q

What factors are the diffusion coefficient dependent upon?

A

solubility and molecular weight

D ∝ solubility / √MW

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5
Q

What is responsible for the fact that O2 and CO2 diffuse through the air-blood barrier at roughly equal rates despite CO2 being much more soluble in aqueous solutions?

A

The pressure difference between alveolar air and venous blood is much higher for O2 than for CO2 so there is a stronger driving force for O2:
PAO2 - PaO2 = 60mmHg
vs.
PaCO2 - PACO2 = 6mmHg

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6
Q

How long does it take for PO2 to equilibrate as it passes through the lung capillaries?

A

.25 sec (first third of the capillary)

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7
Q

What is meant by “diffusion limited” and “perfusion limited?”

A

“Diffusion limited” means that equilibration of the gas is limited by how fast the gas can diffuse through the barrier.

“Perfusion limited” means that the gas equilibrates quickly and the speed at which the gas can diffuse doesn’t matter.

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8
Q

In health, what is the normal alveolar O2 to arterial O2 difference (A-a DO2)? What happens as people age and why?

A

4mmHg. When people age the difference increases due to alveoli becoming dysfunctional. At ages over 30, A-a DO2 is roughly equal to age x .3

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9
Q

When O2 is carried by Hb, does it contribute to the partial pressure of dissolved gas?

A

Nope

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10
Q

Describe positive cooperative binding.

A

As Hb binds O2 molecules, it increases its affinity to bind more O2

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11
Q

At arterial PO2 (~100mmHg), how many O2 molecules are bound to Hb? What about at venous PO2 (40mmHg)?

A

At arterial PO2, 4 O2 molecules are bound to Hb. At venous PO2, 3 molecules are bound to Hb.

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12
Q

How much O2 does 1 gram of Hb bind? How much Hb is in one dL of blood?

A

1 gram of Hb binds 1.34 mL of O2. There are 15 grams of Hb in one dL of blood.

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13
Q

Which four factors affect Hb O2 binding?

A
  1. Temp
  2. pH
  3. pCO2
  4. 2,3-BPG
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14
Q

Explain how temperature affects Hb O2 binding, including how the Hb saturation curve is changed.

A

Increased temperature decreases Hb’s affinity for O2 (shifts Hb saturation curve to the right).

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15
Q

Explain how pH affects Hb O2 binding, including how the Hb saturation curve is changed.

A

Decreased pH decreases Hb’s affinity for O2 (shifts curve to the right).

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16
Q

Explain how pCO2 affects Hb O2 binding, including how the Hb saturation curve is changed.

A

Increased pCO2 decreases Hb’s affinity for O2 (shifts curve to the right).

17
Q

Explain how 2,3-BPG affects Hb O2 binding, including how the Hb saturation curve is changed.

A

Increased 2,3-BPG decreases Hb’s affinity for O2 (shifts curve to the right).

18
Q

Explain how CO is toxic.

A

It competitively binds to heme with an affinity ~250 times greater than O2.

19
Q

Fetal Hb has a ________ (higher or lower) affinity for O2 than adult (maternal) Hb. Therefore, the Hb O2 affinity curve of fetal Hb lies to the _______ (right or left) of adult Hb.

A

higher, so the fetal Hb curve lies to the left of the adult Hb curve.

20
Q

What is methemoglobin? How does the body get rid of it?

A

It is when Fe2+ gets oxidized to Fe3+ in heme, which makes heme unable to bind O2. RBCs have an enzyme called methemoglobin reductase to reduce methemoglobin back to Hb so only 1.5% of Hb is in the metHb state.

21
Q

What are the three forms for transport of CO2 and what are their respective proportions?

A
  1. Dissolved CO2 (6%)
  2. Bicarbonate (70%)
  3. Carbamino compounds (24%): CO2 + protein-NH2 –> protein-NH-COO- + H+. Mostly happens on Hb.
22
Q

Where exactly does bicarbonate form? What enzyme is responsible? What is the chemical equation?

A

It forms in RBCs with the enzyme carbonic anhydrase.

CO2 + H2O –> H2CO3 –> H+ + HCO3-

23
Q

What happens to bicarbonate once it is formed in RBCs?

A

It diffuses out of the cell into the blood.

24
Q

What is the Haldane effect? What are the physiological benefits of this phenomenon?

A

Oxygenation of Hb LOWERS its affinity for carrying CO2. This allows Hb to efficiently take up CO2 at the tissue level and release it in the lung capillaries.

25
Q

Increased PCO2 results in a ___________ increase in CO2 in ALL forms.

A

proportional

26
Q

O2 and CO2 can be measured in blood using ________. For CO2, the measurement includes dissolved CO2 + _________ and ________.

A

using electrodes. For CO2 it includes dissolved CO2 plus bicarbonate and carbonic acid.

27
Q

What is capnography?

A

Measurement of exhaled CO2 to get a sense of PaCO2. Note that end tidal CO2 is usually less than PaCO2 due to dilution of the CO2 content from the air in the conducting airways.