a new parent reports to the nurse that the baby looks cross eyed several times a day the nurse teaches the parents that this finding should resolve in

ATI LPN

ATI Pediatrics Proctored Exam 2023 with NGN

1. A new parent reports to the nurse that the baby looks cross-eyed several times a day. The nurse teaches the parents that this finding should resolve in how long?

A. 2 months
B. 2 weeks
C. 1 year
D. 4 months

Correct answer: D

Rationale: Transient strabismus, causing the baby to look cross-eyed, is due to poor neuromuscular control of the eye muscles. This condition typically resolves on its own within 3 to 4 months as the infant's neuromuscular control improves. Parents should be reassured that this is a common and temporary issue in infants. Choice A is incorrect as it is too long for the resolution of transient strabismus. Choice B is incorrect as 2 weeks is too short for resolution. Choice C is incorrect as 1 year is too long for transient strabismus to resolve.

2. Which of the following statements regarding pediatric anatomy is correct?

A. The child's trachea is more rigid and less prone to collapse.
B. The occiput is proportionately larger when compared to an adult.
C. Airway obstruction is common in children due to their large uvula.
D. Relative to the overall size of the airway, a child's epiglottis is smaller.

Correct answer: B

Rationale: The occiput, the back part of the head, is proportionately larger in children compared to adults, which can have implications for airway management techniques. This anatomical difference is important to consider when providing care to pediatric patients, especially during airway interventions.

3. How will a ventricular septal defect affect blood flow?

A. Blood will shunt left to right, causing increased pulmonary flow and no cyanosis.
B. Blood will shunt right to left, causing decreased pulmonary flow and cyanosis.
C. No shunting occurs due to high pressure in the left ventricle.
D. Increased pressure in the left atrium hinders the circulation of oxygenated blood in the circulating volume.

Correct answer: A

Rationale: A ventricular septal defect allows blood to shunt left to right, leading to increased pulmonary flow. This results in oxygenated blood mixing with deoxygenated blood, causing no cyanosis as the mixed blood is still oxygenated. The shunting from left to right overloads the pulmonary circulation, leading to increased pulmonary flow. Choice B is incorrect because blood does not shunt right to left in a ventricular septal defect. Choice C is incorrect as shunting does occur due to the pressure differences between the ventricles. Choice D is incorrect because the defect affects the ventricles, not the atrium, and does not hinder the circulation of oxygenated blood in the circulating volume.

4. The parents of a child hospitalized with asthma who is recovering and is being prepared for discharge are receiving home care instructions from the nurse. Which statement by a parent indicates a need for further instruction?

A. Coughing spells may be triggered by dust or smoke
B. Vomiting may occur when our child has coughing episodes
C. We need to encourage our child to drink fluids
D. We need to maintain droplet precautions and a quiet environment for at least 2 weeks

Correct answer: D

Rationale: The statement 'We need to maintain droplet precautions and a quiet environment for at least 2 weeks' indicates a need for further instruction. Asthma management does not typically require maintaining droplet precautions. The focus should be on environmental control, medication adherence, and monitoring symptoms rather than droplet precautions, which are more relevant for contagious respiratory infections.

5. What should be the drop rate per minute using a drop factor of 20 drops/ml?

A. 19 drops/min
B. 23 drops/min
C. 36 drops/min
D. 46.7 drops/min

Correct answer: A

Rationale: To calculate the drop rate per minute when using a drop factor of 20 drops/ml, you simply divide 60 (minutes) by the drop factor (20 drops/ml), giving you 3. Therefore, the drop rate per minute would be 3 drops x 20 drops/ml = 60 drops/min. However, since the question asks for the drop rate using a 20 drops/ml factor, the correct answer is slightly less than 60. By rounding down, the closest option is 19 drops/min, which is the correct calculation when considering the drop factor.