17705273
Pregunta 1
Pregunta
Pneumonia will affect the gas exchange because it affects the alveolar spaces.
Respuesta
- True
- False
Pregunta 2
Pregunta
Alveolar ventilation (Av) allows gas to move from the lungs to blood. An adequacy of [blank_start]capillary[blank_end] flow to the lungs is required for adequate [blank_start]gas[blank_end] exchange. When the capillary flow is compromised, a mismatch will occur between [blank_start]Av and perfusion[blank_end]. (I.e. even when alveolar ventilation is fine, if blood flow to the alveolar capillaries is poor the perfusion of gasses will be [blank_start]poor[blank_end].)
Factors that affect pulmonary capillary flow include:
- pulmonary [blank_start]embolism[blank_end]
- right [blank_start]ventricular[blank_end] dysfunction
Respuesta
-
capillary
-
gas
-
Av and perfusion
-
poor
-
embolism
-
ventricular
Pregunta 3
Pregunta
When PaCO2 gets high we breathe slower.
Respuesta
- True
- False
Pregunta 4
Pregunta
Spirometry tests assess alveolar ventilation. A FEV/FVC (Forced Expiratory Volume (1s) & Forced Vital Capacity) ratio is usually [blank_start]0.8[blank_end].
Peak expiratory flow rate (L/min) values of PEFR depend on size, sex and age, but typically a healthy range for adults is [blank_start]400 - 600[blank_end] L/min. PEFR tends to be less [blank_start]sensitive[blank_end] to small airways disease.
Obstructive diseases ([blank_start]asthma, COPD, bronchitis[blank_end]) reduce the expiration ability (reduce [blank_start]FEV1[blank_end] and [blank_start]FEV/FVC[blank_end] ratio.) There is evidence of [blank_start]reversibility[blank_end].
Restrictive diseases ([blank_start]fibrosis[blank_end], end stages of [blank_start]COPD[blank_end]) reduce the usable capacity (reduce [blank_start]FVC[blank_end], and [blank_start]reduce[blank_end] FEV.)
Respuesta
-
0.8
-
400 - 600
-
sensitive
-
asthma, COPD, bronchitis
-
FEV1
-
FEV/FVC
-
reversibility
-
fibrosis
-
COPD
-
FVC
-
reduce
Pregunta 5
Pregunta
Partial pressure of oxygen & carbon dioxide:
1. PaO2, partial pressure of oxygen in the arterial circulation
- PaO2 is dependent on [blank_start]inspired[blank_end] O2 and [blank_start]atmospheric[blank_end] pressure.
- Values [blank_start]< 60 mmHg[blank_end] typically cause symptoms.
2. PaCO2, partial pressure of CO2 in the arterial circulation
- Normal value is [blank_start]40 mmHg[blank_end]
- It is produced by [blank_start]tissues[blank_end] during internal respiration
- Values [blank_start]> 50 mmHg[blank_end] typically cause symptoms
Respuesta
-
inspired
-
atmospheric
-
< 60 mmHg
-
40 mmHg
-
tissues
-
> 50 mmHg
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