Type II pneumocytes - CORRECT ANSWER (S) -surfactant (*lecithin*)
Proliferate after injury
Type I progenitors
*Neonatal Respiratory Distress Syndrome*
Polio live v killed vaccine - CORRECT ANSWER (S) -Killed = Salk = IgG
Live = Sabin = IgG + IgA
- can be shed in feces
Neonatal Respiratory Distress:
Etiology + Tx - CORRECT ANSWER (S) -Maternal DM (*high insulin*)
or C-section (*low cortisol*)
TX: *dexamethasone* before birth
,Lung maturity determined with - CORRECT ANSWER (S) -Amniocentesis of
Phospholipids (*type II pneumocytes)
L >> S
Type I pneumocytes - CORRECT ANSWER (S) -Squamous gas diffusion
Elastase in lungs - CORRECT ANSWER (S) -macrophage: *lysosomes*
PMN: *azuronphilic granules*
Elastin stretches and recoils due to - CORRECT ANSWER (S) -Lysine interchain
crosslinks
air pressure and
intrapleural pressure at FRC - CORRECT ANSWER (S) -Air pressure = 0
Intrapleural pressure = -5
,Pulm Vasc Resistance is lowest during - CORRECT ANSWER (S) -Exhale of Tidal
Volume
Lung Compliance is decreased by - CORRECT ANSWER (S) -LHF, pulmonary edema,
pulmonary fibrosis
Lung Compliance is increased by - CORRECT ANSWER (S) -emphysema, age
Obesity affects ERV and FRC - CORRECT ANSWER (S) -DECREASE
ERV & FRC
Blood flow/min (pulmonary v systemic) - CORRECT ANSWER (S) -pulmonary =
systemic
Anatomic pulmonary shunting - CORRECT ANSWER (S) -Bronchial circulation
causes
, *decreased PO2 in LA/LV*
than in pulmonary capillaries
More ventilation is at the - CORRECT ANSWER (S) -BASE
O2-Hgb dissociation LEFT shift - CORRECT ANSWER (S) -basic, cold, low 2,3 BPG
low pO2 (compensatory erythrocytosis)
O2-Hgb dissociation RIGHT shift - CORRECT ANSWER (S) -low pH, high 2,3BPG,
high T
HOT, ACIDIC
CO2 transport to lungs - CORRECT ANSWER (S) -*carbonic anhydrase*
Cl shift
*Haldane*: CO2 released to lung
(*Bohr*: O2 release to tissue)
Proliferate after injury
Type I progenitors
*Neonatal Respiratory Distress Syndrome*
Polio live v killed vaccine - CORRECT ANSWER (S) -Killed = Salk = IgG
Live = Sabin = IgG + IgA
- can be shed in feces
Neonatal Respiratory Distress:
Etiology + Tx - CORRECT ANSWER (S) -Maternal DM (*high insulin*)
or C-section (*low cortisol*)
TX: *dexamethasone* before birth
,Lung maturity determined with - CORRECT ANSWER (S) -Amniocentesis of
Phospholipids (*type II pneumocytes)
L >> S
Type I pneumocytes - CORRECT ANSWER (S) -Squamous gas diffusion
Elastase in lungs - CORRECT ANSWER (S) -macrophage: *lysosomes*
PMN: *azuronphilic granules*
Elastin stretches and recoils due to - CORRECT ANSWER (S) -Lysine interchain
crosslinks
air pressure and
intrapleural pressure at FRC - CORRECT ANSWER (S) -Air pressure = 0
Intrapleural pressure = -5
,Pulm Vasc Resistance is lowest during - CORRECT ANSWER (S) -Exhale of Tidal
Volume
Lung Compliance is decreased by - CORRECT ANSWER (S) -LHF, pulmonary edema,
pulmonary fibrosis
Lung Compliance is increased by - CORRECT ANSWER (S) -emphysema, age
Obesity affects ERV and FRC - CORRECT ANSWER (S) -DECREASE
ERV & FRC
Blood flow/min (pulmonary v systemic) - CORRECT ANSWER (S) -pulmonary =
systemic
Anatomic pulmonary shunting - CORRECT ANSWER (S) -Bronchial circulation
causes
, *decreased PO2 in LA/LV*
than in pulmonary capillaries
More ventilation is at the - CORRECT ANSWER (S) -BASE
O2-Hgb dissociation LEFT shift - CORRECT ANSWER (S) -basic, cold, low 2,3 BPG
low pO2 (compensatory erythrocytosis)
O2-Hgb dissociation RIGHT shift - CORRECT ANSWER (S) -low pH, high 2,3BPG,
high T
HOT, ACIDIC
CO2 transport to lungs - CORRECT ANSWER (S) -*carbonic anhydrase*
Cl shift
*Haldane*: CO2 released to lung
(*Bohr*: O2 release to tissue)