Nursing practice questions with comprehensive rationales
NurseDive Free Nursing Practice Question
An older adult is admitted to the emergency department after working outside during extremely high temperatures. The client is lethargic and diagnosed with heat stroke. Which intervention should the nurse implement?
A. Administer acetaminophen for pain
Acetaminophen reduces fever by acting on the hypothalamic thermoregulatory center but is ineffective for heat stroke, a hyperthermic emergency caused by environmental heat overload. It does not address core temperature elevation or systemic effects like dehydration and organ dysfunction, making it inappropriate for immediate heat stroke management.
B. Remove the client’s clothing
Removing the client’s clothing facilitates evaporative and convective cooling, critical in heat stroke where core body temperature exceeds 40°C. This intervention enhances heat dissipation from the skin, reducing the risk of organ damage from hyperthermia. It is a primary nursing action to lower body temperature effectively and safely.
C. Place the client in a hot bath
Placing a client with heat stroke in a hot bath would exacerbate hyperthermia, worsening organ damage and cardiovascular strain. Heat stroke requires rapid cooling via cold water immersion or evaporative methods, not additional heat exposure, making this intervention dangerous and contraindicated in this life-threatening condition.
D. Encourage the client to drink a glass of cold water
Encouraging oral fluids like cold water is inappropriate for a lethargic heat stroke patient, who may have impaired swallowing or consciousness, risking aspiration. Intravenous fluids are preferred to correct dehydration and electrolyte imbalances safely, as oral intake does not address the urgent need for rapid cooling and systemic stabilization.
This question is an excerpt from Nurse Dive's nursing test bank - Pathophamacology Proctored Exam (Examplify). Take the full exam now
Full Explanation
Choice A reason: Acetaminophen reduces fever by acting on the hypothalamic thermoregulatory center but is ineffective for heat stroke, a hyperthermic emergency caused by environmental heat overload. It does not address core temperature elevation or systemic effects like dehydration and organ dysfunction, making it inappropriate for immediate heat stroke management.
Choice B reason: Removing the client’s clothing facilitates evaporative and convective cooling, critical in heat stroke where core body temperature exceeds 40°C. This intervention enhances heat dissipation from the skin, reducing the risk of organ damage from hyperthermia. It is a primary nursing action to lower body temperature effectively and safely.
Choice C reason: Placing a client with heat stroke in a hot bath would exacerbate hyperthermia, worsening organ damage and cardiovascular strain. Heat stroke requires rapid cooling via cold water immersion or evaporative methods, not additional heat exposure, making this intervention dangerous and contraindicated in this life-threatening condition.
Choice D reason: Encouraging oral fluids like cold water is inappropriate for a lethargic heat stroke patient, who may have impaired swallowing or consciousness, risking aspiration. Intravenous fluids are preferred to correct dehydration and electrolyte imbalances safely, as oral intake does not address the urgent need for rapid cooling and systemic stabilization.
Similar Questions
A nurse is assessing a client for potential complications related to obesity. Which condition is the client most at risk for due to obesity?
A. Type 2 diabetes mellitus
Obesity significantly increases the risk of type 2 diabetes mellitus by promoting insulin resistance. Excess adipose tissue, particularly visceral fat, releases free fatty acids and cytokines, impairing glucose uptake in cells. This leads to hyperglycemia and beta-cell dysfunction, with obese individuals having a 5-10 times higher risk of developing this condition.
B. Hypothyroidism
Hypothyroidism is less directly linked to obesity than type 2 diabetes. While it can cause weight gain due to slowed metabolism, obesity is not a primary risk factor for hypothyroidism. Thyroid dysfunction arises more from autoimmune or iodine-related causes, making it a less likely complication compared to diabetes.
C. Osteoporosis
Osteoporosis risk is not strongly associated with obesity. Excess body weight may increase bone density due to mechanical loading, but it does not directly cause bone loss. Obesity-related inflammation may have minor effects, but type 2 diabetes poses a far greater risk due to metabolic changes.
D. Migraine headaches
Migraine headaches are not a primary complication of obesity. While obesity may exacerbate migraines through inflammatory pathways or comorbidities like sleep apnea, the association is weaker than with type 2 diabetes. Metabolic and insulin-related effects of obesity make diabetes the most significant and direct risk.
Full Explanation
Choice A reason: Obesity significantly increases the risk of type 2 diabetes mellitus by promoting insulin resistance. Excess adipose tissue, particularly visceral fat, releases free fatty acids and cytokines, impairing glucose uptake in cells. This leads to hyperglycemia and beta-cell dysfunction, with obese individuals having a 5-10 times higher risk of developing this condition.
Choice B reason: Hypothyroidism is less directly linked to obesity than type 2 diabetes. While it can cause weight gain due to slowed metabolism, obesity is not a primary risk factor for hypothyroidism. Thyroid dysfunction arises more from autoimmune or iodine-related causes, making it a less likely complication compared to diabetes.
Choice C reason: Osteoporosis risk is not strongly associated with obesity. Excess body weight may increase bone density due to mechanical loading, but it does not directly cause bone loss. Obesity-related inflammation may have minor effects, but type 2 diabetes poses a far greater risk due to metabolic changes.
Choice D reason: Migraine headaches are not a primary complication of obesity. While obesity may exacerbate migraines through inflammatory pathways or comorbidities like sleep apnea, the association is weaker than with type 2 diabetes. Metabolic and insulin-related effects of obesity make diabetes the most significant and direct risk.
Which statement by the nurse explains ascites?
A. Inflammatory molecules have increased the permeability of the abdominal capillaries
Ascites results from increased permeability of peritoneal capillaries, often due to inflammatory molecules like cytokines in conditions such as liver cirrhosis or portal hypertension. This allows plasma proteins and fluid to leak into the peritoneal cavity, causing fluid accumulation. This statement accurately describes the pathophysiology of ascites in liver-related disorders.
B. Low aldosterone levels have caused fluid retention and peritoneal edema
Low aldosterone levels do not cause ascites; instead, high aldosterone in liver disease (e.g., cirrhosis) promotes sodium and water retention, exacerbating fluid accumulation. This statement is inaccurate, as secondary hyperaldosteronism due to reduced liver metabolism of aldosterone is a key factor in ascites development.
C. The liver is not manufacturing clotting factors to prevent bleeding in the peritoneum
The liver’s failure to produce clotting factors can lead to bleeding tendencies, like variceal hemorrhage, but this does not directly cause ascites. Ascites is driven by fluid leakage from capillaries, not bleeding. This statement is inaccurate, as clotting factor deficiency is unrelated to peritoneal fluid accumulation.
D. The body is experiencing a fluid imbalance related to changing osmotic pressures
While fluid imbalance contributes to ascites, the primary mechanism involves portal hypertension and capillary permeability, not just osmotic pressure changes. This statement is overly vague and less accurate than the specific role of inflammatory molecules increasing capillary leakage in the peritoneal cavity.
Full Explanation
Choice A reason: Ascites results from increased permeability of peritoneal capillaries, often due to inflammatory molecules like cytokines in conditions such as liver cirrhosis or portal hypertension. This allows plasma proteins and fluid to leak into the peritoneal cavity, causing fluid accumulation. This statement accurately describes the pathophysiology of ascites in liver-related disorders.
Choice B reason: Low aldosterone levels do not cause ascites; instead, high aldosterone in liver disease (e.g., cirrhosis) promotes sodium and water retention, exacerbating fluid accumulation. This statement is inaccurate, as secondary hyperaldosteronism due to reduced liver metabolism of aldosterone is a key factor in ascites development.
Choice C reason: The liver’s failure to produce clotting factors can lead to bleeding tendencies, like variceal hemorrhage, but this does not directly cause ascites. Ascites is driven by fluid leakage from capillaries, not bleeding. This statement is inaccurate, as clotting factor deficiency is unrelated to peritoneal fluid accumulation.
Choice D reason: While fluid imbalance contributes to ascites, the primary mechanism involves portal hypertension and capillary permeability, not just osmotic pressure changes. This statement is overly vague and less accurate than the specific role of inflammatory molecules increasing capillary leakage in the peritoneal cavity.
The nurse assesses the client for which clinical manifestation associated with a bone fracture?
A. Ecchymosis
Ecchymosis, or bruising, may occur with a fracture due to soft tissue injury and bleeding but is not specific to fractures. It results from ruptured blood vessels in the skin, not bone disruption, and can occur in many trauma scenarios, making it less definitive than crepitus for fracture assessment.
B. Crepitus
Crepitus, the grating sound or sensation from bone fragments rubbing together, is a hallmark of fractures. It occurs due to disrupted bone continuity, detectable during physical examination. This clinical manifestation is highly specific to fractures, making it the most accurate choice for a nurse’s assessment focus.
C. Shock
Shock can occur with severe fractures due to blood loss or pain but is not a direct manifestation of the fracture itself. It reflects systemic response to trauma, not the localized bone injury, making it less specific than crepitus for identifying a fracture during assessment.
D. Deformity
Deformity is a common fracture sign due to bone misalignment but is not always present, especially in hairline or non-displaced fractures. Crepitus is more consistently detectable in physical exams, as it directly results from bone fragment movement, making it a more reliable clinical manifestation.
Full Explanation
Choice A reason: Ecchymosis, or bruising, may occur with a fracture due to soft tissue injury and bleeding but is not specific to fractures. It results from ruptured blood vessels in the skin, not bone disruption, and can occur in many trauma scenarios, making it less definitive than crepitus for fracture assessment.
Choice B reason: Crepitus, the grating sound or sensation from bone fragments rubbing together, is a hallmark of fractures. It occurs due to disrupted bone continuity, detectable during physical examination. This clinical manifestation is highly specific to fractures, making it the most accurate choice for a nurse’s assessment focus.
Choice C reason: Shock can occur with severe fractures due to blood loss or pain but is not a direct manifestation of the fracture itself. It reflects systemic response to trauma, not the localized bone injury, making it less specific than crepitus for identifying a fracture during assessment.
Choice D reason: Deformity is a common fracture sign due to bone misalignment but is not always present, especially in hairline or non-displaced fractures. Crepitus is more consistently detectable in physical exams, as it directly results from bone fragment movement, making it a more reliable clinical manifestation.