NCLEX-PN
NCLEX PN Test Questions with NGN Questions
Extract:
The nurse is caring for a 24-year-old client.
Nurses' Notes
Emergency Department
1300:
The client is brought to the emergency department after a motor vehicle collision in which the driver's side airbag deployed.
The client was driving the vehicle and was not restrained by a seat belt. The client reports shortness of breath and chest
pain on inspiration and expiration.
History and Physical
Body System ,Findings
Neurological,
Awake, alert, and oriented to person; pupils equal, round, and reactive to light and accommodation; client is
agitated and moves all extremities spontaneously but does not follow commands
Integumentary, Superficial lacerations to the face; diffuse bruising noted on upper extremities and chest wall
Pulmonary,
Vital signs: RR 30, SpOz 92% via nonrebreather mask; unilateral chest wall expansion observed on inspiration;
left-sided tracheal deviation noted; breath sounds diminished throughout the right lung field
Cardiovascular,
Vital signs: P 104, BP 90/58; S1 and S2 heard on auscultation; all pulses palpable; no extremity peripheral edema
noted
Psychosocial ,Alcohol odor noted on the client's breath
Question 1 of 5
Which of the following findings are consistent with a tension pneumothorax? Select all that apply.
Correct Answer: A,B,C,D,E,F
Rationale: A pneumothorax is characterized by air inside the pleural space, which disrupts the negative pressure that maintains lung expansion. This
causes the lung to collapse either partially or completely, leading to unilateral, diminished breath sounds; unilateral chest wall
expansion; and dyspnea. A pneumothorax often occurs from blunt thoracic trauma (eg, during a motor vehicle collision). Air can also ent
the pleural space through the chest wall and parietal pleura (open pneumothorax) during or after an invasive procedure on or near the chest
wall (eg, thoracentesis, paracentesis, central line insertion) (Options 1, 2, 4, and 6).
Extract:
The nurse is caring for a 16-year-old client.History and Physical
Body System, Finding
General,
Client is brought to the emergency department due to nausea, vomiting, and abdominal pain that began 24 hr
ago. Client has type 1 diabetes mellitus and usually takes insulin. Parents state that the client was at an
overnight camp for the past 4 days and are unsure of how much insulin the client has been taking.
Neurological,
Client is lethargic but arousable to voice. The pupils are equal, round, and reactive to light and accommodation.
Integumentary,
Mucous membranes are dry, skin turgor is poor.
Pulmonary,
Vital signs are RR 36 and SpOz 95% on room air. Lung sounds are clear to auscultation. Deep respirations and a
fruity odor on the breath are noted.
Cardiovascular,
Vital signs are T 98.4 F (36.9 C), P 110, and BP 98/58. Pulses are 3+ on all extremities, and capillary refill time is
4 sec.
Gastrointestinal Normoactive bowel sounds are heard in all 4 quadrants; the abdomen is nontender.
Genitourinary,
Client voided dark yellow urine.
Endocrine,
Client is prescribed levothyroxine daily for hypothyroidism and has missed one dose of levothyroxine.
Psychosocial,
Parents state that the client has been sad and slightly withdrawn for the past 2 weeks after ending a romantic relationship.
Laboratory Results
Laboratory Test and Reference Range, 1000, 1600
Blood Chemistry.
Glucose (random)
≤200 mg/dL
(≤11.1 mmol/L),
504 mg/dL
(28.0 mmol/L),
164 mg/dL
(9.1 mmol/L)
Sodium
136-145 mEq/L
(136-145 mmol/L),
133 mEq/L
(133 mmol/L),
135 mEq/L
(135 mmol/L)
Chloride
98-106 mEq/L
(98-106 mmol/L),
101 mEq/L
(101 mmol/L),
102 mEq/L
(102 mmol/L)
Potassium
3.5-5.0 mEq/L
(3.5-5.0 mmol/L),
5.6 mEq/L
(5.6 mmol/L),
3.2 mEq/L
(3.2 mmol/L)
Arterial Blood Gases
Arterial pH
7.35-7.45
(7.35-7.45),
7.20
(7.20),
7.31
(7.31)
HCOg
21-28 mEq/L
(21-28 mmol/L),
13 mEq/L
(13 mmol/L),
18 mEq/L
(18 mmol/L)
PaCO,
35-45 mm Hg
(4.66-5.98 kPa),
30 mm Hg
(3.99 KPa),
32 mm Hg
(4.26 kPa)
PaO,
80-100 mm Hg
(10.64-13.33 KPa),
90 mm Hg
(11.97 kPa),
90 mm Hg
(11.97 kPa)
Nurses' Notes
1600:
0.9% sodium chloride and regular insulin IV are continuously infusing. Lung sounds are clear to auscultation. Urine output
is 90 mL over the past 2 hr.
Vital signs are T 99 F (37.2 C), P 105, RR 28, BP 110/72, and SpO, 95% on room air.
Question 2 of 5
Drag words from the choices below to fill in the blank/blanks. The nurse understands that treatment for diabetic ketoacidosis is resolved when the-----------,--------, and ----------
Correct Answer: B,D,E
Rationale: Diabetic ketoacidosis (DK
A) causes anion gap metabolic acidosis generated by the ketoacid anions and beta-hydroxybutyrate. Anion gap is
calculated based on electrolyte levels to determine the balance of cations and anions (le, acids and bases).
IV insulin infusion may be discontinued on resolution of acidosis and ketosis, which generally occurs with a blood glucose level of <200
mg/dL (11.1 mmol/L). However, measurement of serum glucose alone is inappropriate for monitoring the response to treatment because
ketosis and acidemia may still be present. With fluid resuscitation and correction of hyperosmolality and hyperglycemia, ketoacids disappear
and the anion gap and arterial blood gas results normalize, pointing to resolution of metabolic acidosis and ketonuria ie, ketones in
urine.
Extract:
History
Labor and Delivery Unit
Admission: The client, gravida 1 para 0, at 16 weeks gestation with a twin pregnancy reports nausea and vomiting for the past
several weeks. The client also reports dry heaving, increasing weakness, light-headedness, and an inability to tolerate
oral intake for the past 24 hours. In addition, the client has had occasional right-sided, shooting pain from the abdomen
to the groin that occurs with sudden position changes. The pain quickly resolves without intervention per the client's
report. She has had no contractions or vaginal bleeding and has felt no fetal movement during this pregnancy. The
client has a history of childhood asthma and is currently taking no asthma medications. The client reports no other
pregnancy complications.
Physical
Prepregnancy,12 Weeks Gestation 16 Weeks Gestation(Prenatal Visit),(Labor and Delivery Admission)
Height ,5 ft 5 in (165.1 cm),5 ft 5 in (165.1 cm)|, 5 ft 5 in (165.1 cm)
Weight, 145 lb (65.8 kg),148 lb (67.1 kg),138 lb (62.6 kg)
BMI, 24.1 kg/m2, 24.6 kg/m2,23.0 kg/m2
Vital Signs
12 Weeks Gestation(Prenatal Visit),16 Weeks Gestation(Labor and Delivery Admission)
T,98.7 F (37.1 C),99.8 F (37.7 C)
P,70,101
RR,14,18
BP,122/78,90/55
SpO2,99% on room air,96% on room air
Laboratory Results
Laboratory Test and Reference Range, 16 Weeks Gestation
Blood Chemistry.
Sodium
136-145 mEq/L
(136-145 mmol/L)|,
136 mEq/L
(136 mmol/L)
Potassium
3.5-5.0 mEq/L
(3.5-5.0 mmol/L),
2.7 mEq/L
(2.7 mmol/L)
TSH
0.3-5.0 uU/mL
(0.3-5.0 mU/L),
0.4 pu/mL
(0.4 mU/L)
Hematology.
Hemoglobin (pregnant)
>11 g/dL
(>110 g/L),
16 g/dL
(160 g/L)
Hematocrit (pregnant)
>33%
(>0.33),
49%
(0.49)
Urinalysis
Specific gravity
1.005-1.030
1.030,
Ketones
Not present,
Present
Giucose
Not present,
Not present
Nitrites
Not present,
Not present
Question 3 of 5
The nurse has reviewed the information from the Laboratory Results. The nurse suspects that the client may have hyperemesis gravidarum. Which of the following findings support this diagnosis? Select a that apply.
Correct Answer: A,B,D,E
Rationale: Hyperemesis gravidarum (HG) is characterized by severe, persistent nausea and vomiting during pregnancy and weight loss of 25% of
prepregnancy weight. The exact cause of HG is unknown, but it is believed that pregnancy-related increases in hormone levels (eg, human
chorionic gonadotropin [hCG]) contribute to the condition. Laboratory findings that assist with the diagnosis of HG include:
• Elevated hematocrit level reflects hemoconcentration, which occurs due to dehydration from excessive vomiting and decreased fluid
intake (Option 1).
• Hypokalemia occurs due to excessive loss of potassium via vomiting and/or insufficient intake of potassium (Option 2).
• Ketonuria (ie, the presence of ketones in urine) results from the metabolism of fat for energy due to a lack of nutritional intake (Option
4).
• High urine specific gravity reflects the concentration of urine; concentrated urine may indicate that the client's volume is depleted,
which is common in HG (Option 5).
Extract:
Nurses' Notes
Initial Clinic Visit
1100:
The client has experienced enuresis at night for the past 2 weeks and frequently requests to use the
bathroom while at school. The client was previously toilet trained with no nighttime bed wetting for 6 months;
the client recently relocated to a new home and school where the client lives with parents.
The parent reports that the client has recently demonstrated fatigue, irritability, and multiple behavioral
outbursts that resemble past temper tantrums. The client frequently reports feeling thirsty. No dysuria or
urinary hesitancy is reported.
Weight and height were in the 40th percentiles at the previous visit a year ago. Growth charts today show
the client's weight in the 20th percentile and height in the 40th percentile.
The client appears tired and irritable. Dry mucous membranes are noted with no increased work of
breathing. The lungs are clear to auscultation bilaterally. No cardiac murmur is heard.
Question 4 of 5
Select below the 6 findings that require follow-up.
Correct Answer: A,C,D,E,F,G
Rationale: The nurse should follow up on the following findings:
irritability may manifest as behavioral outbursts.
• Frequent urination and nocturnal enuresis: Frequent urination and involuntary voiding in a child who was previously
toilet trained for at least 6 months indicate excessive urination (ie, polyuria), which is a characteristic finding of multiple
medical conditions (eg, diabetes mellitus [DM], diabetes insipidus).
• Increased thirst and dry mucous membranes: Increased thirst (ie, polydipsia) and dry mucous membranes are signs
of dehydration. Dehydration in the presence of polyuria and weight loss is concerning for DM.
• Weight loss: Weight loss is a common finding in clients with DM because the body is unable to use glucose and instead
breaks down protein and fat stores for energy.
• Fatigue, irritability, and multiple behavioral outbursts: Fatigue and irritability in a client with polydipsia and polyuria
may indicate an energy deficit from altered glucose metabolism related to DM. In a 6-year-old client, fatigue and
Extract:
The nurse is caring for a 68-year-old client in the emergency department.
Nurses' Notes,
Emergency Department
1020:
The client reports shortness of breath, a 2-lb weight gain over the past week, and lower extremity swelling. The client
reports slight chest discomfort during activity that is relieved with rest. Medical history is significant for hypertension.
myocardial infarction, heart failure, coronary artery disease, and chronic stable angina. Current medications include
metoprolol, furosemide, potassium chloride, lisinopril, and aspirin. The client takes all medications as prescribed except
one; he states, "I do not take that water pill because I got tired of having to go to the bathroom all the time."
S1 and S2 are present; a prominent S3 is heard. Respirations are labored with inspiratory crackles in the middle and at the
base of the lungs. The abdomen is soft and nontender with normoactive bowel sounds. There is 3+ pitting edema in the
bilateral lower extremities.
Vital Signs,
1020
T ,98.8 F (37.1 C)
P, 60
RR, 24
BP, 168/96
SpO2, 90% on room air
Laboratory Test and Reference Range, 1030
Sodium
136-145 mEq/L
(136-145 mmol/L),
133 mEq/L
(133 mmol/L)
Potassium
3.5-5.0 mEq/L
(3.5-5.0 mmol/L),
6.5 mEq/L
(6.5 mmol/L)
BUN
10-20 mg/dL
(3.6-7.1 mmol/L),
22 mg/dL
(7.85 mmol/L)
Creatinine
Male: 0.6-1.3 mg/dL
(53-114.9 umol/L),
1.5 mg/dL
(132.6 umol/L)
Female: 0.5-1.1 mg/dL
(44.2-97.2 umol/L)
Question 5 of 5
The nurse receives prescriptions for medications to treat the client's hyperkalemia. For each medication, click to specify if the medication drives potassium from blood into cells, promotes potassium excretion, or stabilizes myocardial cell membranes.
| Medication | Drives Potassium from Blood into cells | Promotes Potassium Excretion | Stabilizes Myocardial Cell Membranes |
|---|---|---|---|
| Furosemide | |||
| Albuterol nebulizer | |||
| Calcium gluconate | |||
| Insulin and dextrose |
Correct Answer:
Rationale: Several medications can rapidly correct a client's hyperkalemia by:
• Driving potassium from blood into cells: The serum potassium level can be temporarily lowered by administering an albuterol
nebulizer and IV insulin. Although albuterol and insulin are not usually administered for this purpose, they also shift potassium from the
extracellular space to the intracellular space. Because insulin transports both glucose and potassium into the cell, dextrose is
administered in combination with insulin to prevent hypoglycemia. Albuterol is not often used alone for hyperkalemia; it is often
administered with insulin and dextrose to improve the potassium-lowering effect.
• Promoting potassium excretion: Administration of loop diuretics (ie, potassium-wasting diuretics such as furosemide) will increase
the amount of potassium excreted into the urine at the loop of Henle and also treat the client's acute fluid volume overload.
• Stabilizing myocardial cell membranes: Administration of calcium gluconate antagonizes potassium and protects the myocardium
from potassium-induced dyshythmias by blocking potassium's effects and reducing myocardial irritability. Calcium gluconate does not
alter serum potassium levels and is usually indicated if there are ECG changes with hyperkalemia.