: Neonatal & Pediatric Respiratory Care 5th Edition Test Bank (2020)

TESTBANK i
3




NEONATAL & PEDIATRIC RESPIR
3i 3i 3i




ATORY CARE 3i




5th Edition, Walsh
3 i

3i




TESTBANK i
3

,Neonatal and Pediatric Respiratory Care, 5th Edition, Brian K. Walsh Test Bank
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i




Table of Contents
3i 3i



Chapter 1. Fetal Lung Development
3i 3i 3i 3i



Chapter 2. Fetal Gas Exchange and Circulation
3i 3i 3i 3i 3i 3i



Chapter 3. Antenatal Assessment and High-Risk Delivery
3i 3i 3i 3i 3i 3i



Chapter 4. Examination and Assessment of the Neonatal and Pediatric Patient
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



Chapter 5. Pulmonary Function Testing and Bedside Pulmonary Mechanics
3i 3i 3i 3i 3i 3i 3i 3i



Chapter 6. Radiographic Assessment
3i 3i 3i



Chapter 7. Pediatric Flexible Bronchoscopy
3i 3i 3i 3i



Chapter 8. Invasive Blood Gas Analysis and Cardiovascular Monitoring
3i 3i 3i 3i 3i 3i 3i 3i



Chapter 9. Noninvasive Monitoring in Neonatal and Pediatric Care
3i 3i 3i 3i 3i 3i 3i 3i



Chapter 10. Oxygen Administration
3i 3i 3i



Chapter 11. Aerosols and Administration of Inhaled Medications
3i 3i 3i 3i 3i 3i 3i



Chapter 12. Airway Clearance Techniques and Hyperinflation Therapy
3i 3i 3i 3i 3i 3i 3i



Chapter 13. Airway Management
3i 3i 3i



Chapter 14. Surfactant Replacement Therapy
3i 3i 3i 3i



Chapter 15. Noninvasive Mechanical Ventilation and Continuous Positive Pressure of the Neonate
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



Chapter 16. Noninvasive Mechanical Ventilation of the Infant and Child
3i 3i 3i 3i 3i 3i 3i 3i 3i



Chapter 17. Invasive Mechanical Ventilation of the Neonate and Pediatric Patient
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



Chapter 18. Administration of Gas Mixtures
3i 3i 3i 3i 3i



Chapter 19. Extracorporeal Membrane Oxygenation
3i 3i 3i 3i



Chapter 20. Pharmacology
3i 3i



Chapter 21. Thoracic Organ Transplantation
3i 3i 3i 3i



Chapter 22. Neonatal Pulmonary Disorders
3i 3i 3i 3i



Chapter 23. Surgical Disorders in Childhood that Affect Respiratory Care
3i 3i 3i 3i 3i 3i 3i 3i 3i



Chapter 24. Congenital Cardiac Defects
3i 3i 3i 3i



Chapter 25. Pediatric Sleep-Disordered Breathing
3i 3i 3i 3i



Chapter 26. Pediatric Airway Disorders and Parenchymal Lung Diseases
3i 3i 3i 3i 3i 3i 3i 3i



Chapter 27. Asthma
3i 3i



Chapter 28. Cystic Fibrosis
3i 3i 3i



Chapter 29. Acute Respiratory Distress Syndrome
3i 3i 3i 3i 3i



Chapter 30. Shock
3i 3i



Chapter 31. Pediatric Trauma
3i 3i 3i



Chapter 32. Disorders of the Pleura
3i 3i 3i 3i 3i



Chapter 33. Neurological and Neuromuscular Disorders
3i 3i 3i 3i 3i



Chapter 34. Pediatric Emergencies
3i 3i 3i



Chapter 35. Home Care of the Postpartum Family
3i 3i 3i 3i 3i 3i 3i



Chapter 36. Quality and Safety
3i 3i 3i 3i

,Chapter 1: Fetal Lung Development
3i 3i 3i 3i


Walsh: Neonatal & Pediatric Respiratory Care 5th Edition Test Bank (2020)
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i




MULTIPLE CHOICE 3i




1. Which of the following phases of human lung development is characterized by the formation
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



of a capillary network around airway passages?
3i 3i 3i 3i 3i 3i


a. Pseudoglandular
b. Saccular
c. Alveolar
d. Canalicular

ANS: D 3i


The canalicular phase follows the pseudoglandular phase, lasting from approximately 17 we
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


eks to 26 weeks of gestation. This phase is so named because of the appearance of vascular cha
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


nnels, or capillaries, which begin to grow by forming a capillary network around the air pass
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



ages. During the pseudoglandular stage, which begins at day 52 and extends to week 16 of g
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


estation, the airway system subdivides extensively and the conducting airway system develo
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



ps, ending with the terminal bronchioles. The saccular stage of development, which takes pla
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


ce from weeks 29 to 36 of gestation, is characterized by the development of sacs that later bec
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



ome alveoli. During the saccular phase, a tremendous increase in the potential gas-
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


exchanging surface area occurs. The distinction between the saccular stage and the alveolar
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


stage is arbitrary. The alveolar stage stretches from 39 weeks of gestation to term. This stage
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3



is represented by the establishment of alveoli.
i 3i 3i 3i 3i 3i 3i




REF: pp. 3-5 3i 3 i




2. Regarding postnatal lung growth, by approximately what age do most of the alveoli that will
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


be present in the lungs for life develop?
3i 3i 3i 3i 3i 3i 3i


a. 6 months 3i


b. 1 year 3i


c. 1.5 years 3i


d. 2 years 3i




ANS: C 3i


Most of the postnatal formation of alveoli in the infant occurs over the first 1.5 years of life.
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



At 2 years of age, the number of alveoli varies substantially among individuals. After 2 years o
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


f age, males have more alveoli than do females. After alveolar multiplication ends, the alveol
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



i continue to increase in size until thoracic growth is completed.
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i




REF: p. 6 3i 3i




3. The respiratory therapist is evaluating a newborn with mild respiratory distress due to tracheal
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



stenosis. During which period of lung development did this problem develop?
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i

, a. Embryonal
b. Saccular
c. Canalicular
d. Alveolar
ANS: A 3i


The initial structures of the pulmonary tree develop during the embryonal stage. Errors in de
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


velopment during this time may result in laryngeal, tracheal, or esophageal atresia or stenosi
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



s. Pulmonary hypoplasia, an incomplete development of the lungs characterized by an abnorma
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


lly low number and/or size of bronchopulmonary segments and/or alveoli, can develop durin
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



g the pseudoglandular phase. If the fetus is born during the canalicular phase (i.e., premature
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



ly), severe respiratory distress can be expected because the inadequately developed airways,
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



along with insufficient and immature surfactant production by alveolar type II cells, gives ris
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



e to the constellation of problems known as infant respiratory distress syndrome.
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i




REF: 3i3i p. 6 3i




4. Which of the following mechanisms is (are) responsible for the possible association between
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


oligohydramnios and lung hypoplasia? 3i 3i 3i




I. Abnormal carbohydrate metabolism 3i 3i


II. Mechanical restriction of the chest wall 3i 3i 3i 3i 3i



III. Interference with fetal breathing 3i 3i 3i



IV. Failure to produce fetal lung liquid 3i 3i 3i 3i 3i


a. I and III only 3i 3i 3i


b. II and III only 3i 3i 3i


c. I, II, and IV only 3i 3i 3i 3i


d. II, III, and IV only 3i 3i 3i 3i




ANS: D 3i


Oligohydramnios, a reduced quantity of amniotic fluid present for an extended period of time, 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


with or without renal anomalies, is associated with lung hypoplasia. The mechanisms by whic
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



h amniotic fluid volume influences lung growth remain unclear. Possible explanations for reduc
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



ed quantity of amniotic fluid include mechanical restriction of the chest wall, interference wit
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


h fetal breathing, or failure to produce fetal lung liquid. These clinical and experimental obser
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



vations possibly point to a common denominator, lung stretch, as being a major growth stimu
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i



lant.

REF: pp. 6-7 3i 3i




5. What is the purpose of the substance secreted by the type II pneumocyte?
3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i 3i


a. To increase the gas exchange surface area
3i 3i 3i 3i 3i 3i


b. To reduce surface tension 3i 3i 3i


c. To maintain lung elasticity 3i 3i 3i


d. To preserve the volume of the amniotic fluid
3i 3i 3i 3i 3i 3i 3i