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BRS REVIEW PHYSIOLOGY EXAM QUESTIONS AND ANSWERS WITH COMPLETE SOLUTIONS VERIFIED

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BRS REVIEW PHYSIOLOGY EXAM QUESTIONS AND ANSWERS WITH COMPLETE SOLUTIONS VERIFIED Which of the following lung volumes or capacities can be measured by spirometry? A. Functional Residual Capacity (FRC) B. Physiological dead space C. Total Lung Capacity (TLC) E. Vital Capacity (VC) The answ...

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  • November 14, 2024
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BRS REVIEW PHYSIOLOGY EXAM QUESTIONS AND ANSWERS

WITH COMPLETE SOLUTIONS VERIFIED


Which of the following lung volumes or capacities can be measured by

spirometry?



A. Functional Residual Capacity (FRC)

B. Physiological dead space

C. Total Lung Capacity (TLC)

E. Vital Capacity (VC)

The answer is E



Residual volume (RV) cannot be measured by spirometry. Therefore, any lung volume

or capacity that includes the RV cannot be measured by spirometry. Measurements that

include RV are functional residual capacity (FRC) and total lung capacity (TLC). Vital

capacity does not include RV and is not measureable by spirometry and requires

sampling of arterial PCO2 and expired CO2..

An infant born prematurely in gestational week 25 has neonatal respiratory

distress syndrome. Which of the following would be expected in this infant?



A. Arterial PO2 of 100 mmHg

B. Collapse of the small alveoli

,C. Increased lung compliance

D, Normal Breathing rate

E. lecithin: sphingomyelin ratio of > 2:1 in amniotic fluid

The answer is B.



Neonatal respiratory distress.syndrome is caused by lack of adequate surfactant in the

immature lung. Surfactant appears between the 24th and 35th gestational week. In the

absence of surfactant, the surface tension of the small alveoli is too high (P= 2T/r), the

small alveoli collapse into larger alveoli; and ventilation/perfusion (V/Q) mismatch,

hypoxemia and cyanosis occurs. The lack of surfactant also decreases lung

compliance, making it harder to inflate the lungs, increasing the work of breathing and

producing dyspnea (shortness of breath). Generally, lecithin: sphingomyelin rations

greater than 2:1 signify mature levels of surfactant.

In which vascular bed does hypoxia cause vasoconstriction?

A. Coronary

B. Pulmonary

C. Cerebral

D. Muscle

E. Skin

Answer B:



Pulmonary blood flow is controlled locally by the PO2 of alveolar air. Hypoxia causes

pulmonary vasoconstriction and thereby shunts blood away from unventilated areas of

, the lungs, where it would be wasted, in the coronary circulation, hypoxemia causes

vasodilation., The cerebral muscle and skin circulations are not directly controlled by

PO2.

A 12 year old child has a severe asthmatic attack with wheezing. The child

experiences rapid breathing and becomes cyanotic. The arterial PO2 is 60 mmHg

and the PCO2 is 30 mmHg.

Which of the following is most true?

A. Forced expiratory volume1/Forced vital capacity (FEV1/FVC) is increased.

B. Ventilation/perfusion (V/Q) ratio is increased in the affected areas of his lungs.

C. His arterial PCO2 is higher than normal because of inadequate gas exchange

D. His arterial PCO2 is lower than normal

The answer is D



The patient's arterial Pco2 Is lower than the normal value of 40 mmHg because

hypoxemia has stimulated peripheral chemoreceptors to increase his breathing rate;

hyperventilation causes the patient to blow off extra CO2 and results in respiratory

alkalosis. In an obstructive disease such as asthma, both forced respiratory volume

(FEV1) and forced vital capacity (FVC) are decreased, with the larger decrease

occurring in FEV1. Therefore, the FEV1/FVC ratio is decreased. Poor ventilation of the

affected areas decreases the ventilation/perfusion (V/Q) RATIO and causes hypoxemia.

The patient's residual volume RV is increased because he breathing at a higher lung

volume.

5. To treat this patient

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