MCQs

Pediatric Nutrition — Practice MCQs Free For You All

MCQs

Section 1: Questions

Q1. According to WHO/AAP recommendations, exclusive breastfeeding should be continued for the first:

A. 3 months

B. 4 months

C. 6 months

D. 12 months

Q2. Deficiency of which vitamin is the classic cause of nutritional rickets in infants?

A. Vitamin A

B. Vitamin C

C. Vitamin D

D. Vitamin K

Q3. What is the recommended daily vitamin D supplementation dose for exclusively and partially breastfed infants?

A. 100 IU/day

B. 200 IU/day

C. 400 IU/day

D. 1000 IU/day

Q4. Vitamin K is administered at birth primarily to prevent which condition?

A. Neonatal jaundice

B. Vitamin K deficiency bleeding (hemorrhagic disease of the newborn)

C. Necrotizing enterocolitis

D. Neonatal sepsis

Q5. A child presents with generalized edema, hypoalbuminemia, a fatty liver, and skin/hair changes, but has been receiving adequate calories with very low protein intake. This is most consistent with:

A. Marasmus

B. Kwashiorkor

C. Vitamin A deficiency

D. Scurvy

Q6. Marasmus differs from kwashiorkor in that marasmus is characterized by:

A. Prominent edema with preserved muscle mass

B. Severe wasting of fat and muscle without edema, due to deficiency of both calories and protein

C. Normal weight-for-height with fatty liver

D. Isolated micronutrient deficiency only

Q7. In a well infant, which laboratory marker is the most sensitive early indicator of depleted iron stores before anemia develops?

A. Serum ferritin

B. Hemoglobin

C. Mean corpuscular volume (MCV)

D. Reticulocyte count

Q8. Exclusively breastfed term infants are generally recommended to start iron supplementation or iron-rich complementary foods by what age?

A. 1 month

B. 4 months

C. 9 months

D. 12 months

Q9. A malnourished child presents with dry conjunctivae, Bitot spots, and corneal xerosis progressing toward keratomalacia. This is due to deficiency of:

A. Vitamin A

B. Vitamin B1 (thiamine)

C. Vitamin D

D. Vitamin E

Q10. A child with poor dietary vitamin C intake presents with gum swelling/bleeding, perifollicular hemorrhages, and corkscrew body hairs. The diagnosis is:

A. Scurvy

B. Rickets

C. Pellagra

D. Beriberi

Q11. Perioral and acral erythematous, scaly/vesiculobullous dermatitis with diarrhea and alopecia in an infant is classically associated with deficiency of:

A. Zinc

B. Copper

C. Selenium

D. Iodine

Q12. An infant on prolonged fat-restricted parenteral nutrition without adequate lipid develops a dry, scaly rash, poor growth, and thrombocytopenia. This is most consistent with deficiency of:

A. Essential fatty acids (linoleic acid)

B. Vitamin E

C. Biotin

D. Vitamin B12

Q13. During nutritional rehabilitation of a severely malnourished child, the electrolyte abnormality most characteristic of refeeding syndrome is:

A. Hyperphosphatemia

B. Hypophosphatemia

C. Hypernatremia

D. Hypercalcemia

Q14. In chronic protein-energy malnutrition, which anthropometric parameter is affected LAST (most preserved)?

A. Weight

B. Height/length

C. Head circumference

D. Mid-upper arm circumference

Q15. Failure to thrive is most commonly identified on growth charts by:

A. A single weight measurement at the 25th percentile

B. Weight persistently below the 3rd–5th percentile or crossing down two major percentile lines over time

C. Head circumference above the 95th percentile

D. Height above the 90th percentile

Q16. Periconceptional supplementation with which micronutrient reduces the risk of neural tube defects?

A. Folate (folic acid)

B. Vitamin B12

C. Iodine

D. Vitamin D

Q17. An exclusively breastfed infant of a strict vegan mother (with no B12 supplementation) presents with pallor, developmental regression, and macrocytic anemia. The most likely deficiency is:

A. Vitamin B12 (cobalamin)

B. Folate

C. Iron

D. Vitamin B6

Q18. WHO growth standards use weight-for-age, length/height-for-age, weight-for-length/height, and BMI-for-age primarily to assess a child’s:

A. Immunization status

B. Nutritional status and growth pattern

C. Developmental milestones

D. Bone age

Q19. The first-line dietary management for an infant with confirmed cow’s milk protein allergy who is not exclusively breastfed is:

A. Soy-based formula

B. Extensively hydrolyzed formula (or amino acid–based formula if severe/refractory)

C. Whole cow’s milk diluted with water

D. Goat’s milk formula

Q20. Childhood obesity is defined as a BMI-for-age and sex at or above which percentile on standard growth charts?

A. 50th percentile

B. 75th percentile

C. 85th percentile

D. 95th percentile

Section 2: Answer Key, Explanations & High-Yield Pearls

Q1. According to WHO/AAP recommendations, exclusive breastfeeding should be continued for the first:

Correct Answer: C. 6 months

Explanation: Exclusive breastfeeding (no other liquids or solids, only breast milk) is recommended for the first 6 months of life, with continuation of breastfeeding alongside complementary foods up to 1 year of age or beyond.

High-Yield Pearl: Complementary feeding should begin around 6 months — introduced too early, it displaces breast milk and increases infection risk; too late, it risks micronutrient deficiency (especially iron and zinc).

Q2. Deficiency of which vitamin is the classic cause of nutritional rickets in infants?

Correct Answer: C. Vitamin D

Explanation: Vitamin D deficiency impairs intestinal calcium and phosphate absorption, leading to defective mineralization of growing bone (rickets) and, in adults, osteomalacia.

High-Yield Pearl: Exclusively breastfed infants, dark-skinned infants, and those with minimal sun exposure are at highest risk — hence universal vitamin D supplementation from birth.

Q3. What is the recommended daily vitamin D supplementation dose for exclusively and partially breastfed infants?

Correct Answer: C. 400 IU/day

Explanation: All breastfed and partially breastfed infants should receive 400 IU/day of oral vitamin D beginning in the first few days of life, continued until the infant is weaned to at least 1 L/day (about 1 quart) of vitamin D–fortified formula or whole milk.

High-Yield Pearl: Formula-fed infants taking less than 1 L/day of fortified formula also need supplementation — fortified formula alone rarely meets the requirement until intake is substantial.

Q4. Vitamin K is administered at birth primarily to prevent which condition?

Correct Answer: B. Vitamin K deficiency bleeding (hemorrhagic disease of the newborn)

Explanation: Newborns have low vitamin K stores, poor placental transfer, and sterile gut flora (which normally synthesizes vitamin K), predisposing them to bleeding. A single intramuscular dose of vitamin K at birth prevents early, classic, and late forms of vitamin K deficiency bleeding.

High-Yield Pearl: Late VKDB (2–12 weeks) can present with intracranial hemorrhage and is strongly associated with exclusive breastfeeding without vitamin K prophylaxis — oral regimens are less reliable than a single IM dose.

Q5. A child presents with generalized edema, hypoalbuminemia, a fatty liver, and skin/hair changes, but has been receiving adequate calories with very low protein intake. This is most consistent with:

Correct Answer: B. Kwashiorkor

Explanation: Kwashiorkor results from severe protein deficiency in the presence of relatively adequate energy (calorie) intake. It produces edema (from hypoalbuminemia), hepatomegaly with fatty infiltration, skin depigmentation/desquamation, and sparse, discolored (‘flag sign’) hair.

High-Yield Pearl: The edema of kwashiorkor can mask underlying wasting and make the child appear less malnourished than they are — always check for pitting edema and serum albumin when assessing severe malnutrition.

Q6. Marasmus differs from kwashiorkor in that marasmus is characterized by:

Correct Answer: B. Severe wasting of fat and muscle without edema, due to deficiency of both calories and protein

Explanation: Marasmus is a global energy/protein deficiency leading to severe loss of subcutaneous fat and muscle wasting (‘skin and bones’ appearance) without the edema seen in kwashiorkor.

High-Yield Pearl: Marasmic kwashiorkor (mixed form, with both wasting and edema) carries the highest mortality risk among severe acute malnutrition presentations.

Q7. In a well infant, which laboratory marker is the most sensitive early indicator of depleted iron stores before anemia develops?

Correct Answer: A. Serum ferritin

Explanation: Serum ferritin reflects total body iron stores and falls before hemoglobin or MCV change, making it the earliest marker of iron depletion (though it can be falsely elevated as an acute-phase reactant during inflammation).

High-Yield Pearl: Iron deficiency progresses in stages: depleted stores (↓ferritin) → iron-deficient erythropoiesis (↓transferrin saturation) → iron deficiency anemia (↓Hgb, microcytosis) — hemoglobin alone misses the earliest stage.

Q8. Exclusively breastfed term infants are generally recommended to start iron supplementation or iron-rich complementary foods by what age?

Correct Answer: B. 4 months

Explanation: Breast milk iron content, while well absorbed, is low, and fetal iron stores typically last about 4–6 months. The AAP recommends iron supplementation (1 mg/kg/day) for exclusively breastfed infants starting at 4 months until iron-rich complementary foods (such as iron-fortified cereal or pureed meats) are reliably introduced.

High-Yield Pearl: Preterm infants have lower iron stores at birth and need earlier, higher-dose iron supplementation (typically starting by 2 weeks to 1 month of age).

Q9. A malnourished child presents with dry conjunctivae, Bitot spots, and corneal xerosis progressing toward keratomalacia. This is due to deficiency of:

Correct Answer: A. Vitamin A

Explanation: Vitamin A deficiency causes xerophthalmia — a spectrum from night blindness and conjunctival xerosis to Bitot spots (foamy, keratinized conjunctival patches) and, if untreated, corneal ulceration/keratomalacia leading to irreversible blindness.

High-Yield Pearl: Vitamin A deficiency also impairs immune function and increases mortality from measles and diarrheal disease — WHO recommends vitamin A supplementation with measles treatment in deficient populations.

Q10. A child with poor dietary vitamin C intake presents with gum swelling/bleeding, perifollicular hemorrhages, and corkscrew body hairs. The diagnosis is:

Correct Answer: A. Scurvy

Explanation: Vitamin C is a cofactor for collagen hydroxylation; its deficiency (scurvy) impairs collagen synthesis, producing gingival bleeding, perifollicular hemorrhages, corkscrew hairs, and subperiosteal hemorrhage causing bone pain and pseudoparalysis in infants.

High-Yield Pearl: Infantile scurvy classically presents with irritability and pseudoparalysis of the legs from painful subperiosteal hemorrhage, often mistaken for non-accidental trauma.

Q11. Perioral and acral erythematous, scaly/vesiculobullous dermatitis with diarrhea and alopecia in an infant is classically associated with deficiency of:

Correct Answer: A. Zinc

Explanation: Zinc deficiency (acquired or the inherited form, acrodermatitis enteropathica) causes a characteristic triad of periorificial/acral dermatitis, diarrhea, and alopecia, along with growth failure and impaired immune function.

High-Yield Pearl: Zinc deficiency should be considered in infants with unexplained perioral dermatitis plus poor growth — treatment with oral zinc produces dramatic skin improvement within days.

Q12. An infant on prolonged fat-restricted parenteral nutrition without adequate lipid develops a dry, scaly rash, poor growth, and thrombocytopenia. This is most consistent with deficiency of:

Correct Answer: A. Essential fatty acids (linoleic acid)

Explanation: Essential fatty acid (linoleic/linolenic acid) deficiency occurs with prolonged fat-free parenteral nutrition or severe fat malabsorption, producing dry scaly dermatitis, alopecia, poor wound healing, growth failure, and thrombocytopenia.

High-Yield Pearl: Essential fatty acid deficiency can develop within 1–2 weeks in infants on fat-free parenteral nutrition because of their high metabolic demand and limited fat stores — hence lipid emulsions are started early in neonatal PN.

Q13. During nutritional rehabilitation of a severely malnourished child, the electrolyte abnormality most characteristic of refeeding syndrome is:

Correct Answer: B. Hypophosphatemia

Explanation: Refeeding after prolonged starvation triggers an insulin surge that drives phosphate (along with potassium and magnesium) intracellularly, causing severe hypophosphatemia, which can lead to cardiac dysfunction, respiratory failure, and hemolysis.

High-Yield Pearl: In severe acute malnutrition, nutritional rehabilitation must be introduced cautiously and gradually with close monitoring/replacement of phosphate, potassium, and magnesium — aggressive early refeeding is a preventable cause of death.

Q14. In chronic protein-energy malnutrition, which anthropometric parameter is affected LAST (most preserved)?

Correct Answer: C. Head circumference

Explanation: In progressive chronic malnutrition, weight is affected first (wasting), followed by linear growth/height (stunting) if malnutrition persists, with head circumference relatively spared until malnutrition is severe and prolonged, since brain growth is preferentially protected.

High-Yield Pearl: Weight-for-height identifies acute wasting, while height-for-age identifies chronic stunting — using both classifies malnutrition as acute, chronic, or acute-on-chronic.

Q15. Failure to thrive is most commonly identified on growth charts by:

Correct Answer: B. Weight persistently below the 3rd–5th percentile or crossing down two major percentile lines over time

Explanation: Failure to thrive (poor weight gain/growth faltering) is defined using serial measurements — either weight sustained below the 3rd–5th percentile for age, or a downward crossing of two or more major percentile lines on the growth chart, rather than a single low value.

High-Yield Pearl: A single low percentile can simply reflect a small, constitutionally normal child — the trend over serial visits is what distinguishes true growth faltering from normal variation.

Q16. Periconceptional supplementation with which micronutrient reduces the risk of neural tube defects?

Correct Answer: A. Folate (folic acid)

Explanation: Folate is essential for DNA synthesis and neural tube closure, which occurs very early in pregnancy. Periconceptional folic acid supplementation (started before conception and continued through early pregnancy) significantly reduces the risk of neural tube defects such as spina bifida and anencephaly.

High-Yield Pearl: Women with a prior pregnancy affected by a neural tube defect are advised a much higher folic acid dose (4 mg/day) starting at least one month before conception, compared with the standard 0.4 mg/day for average-risk pregnancies.

Q17. An exclusively breastfed infant of a strict vegan mother (with no B12 supplementation) presents with pallor, developmental regression, and macrocytic anemia. The most likely deficiency is:

Correct Answer: A. Vitamin B12 (cobalamin)

Explanation: Maternal vitamin B12 stores are the sole source for an exclusively breastfed infant; strict maternal vegan diets without B12 supplementation lead to low breast milk B12, producing infantile megaloblastic anemia along with irritability, hypotonia, and developmental regression/failure to thrive.

High-Yield Pearl: Neurologic manifestations of infantile B12 deficiency can be more prominent and may precede or occur without significant anemia — a high index of suspicion is needed in breastfed infants of vegan mothers.

Q18. WHO growth standards use weight-for-age, length/height-for-age, weight-for-length/height, and BMI-for-age primarily to assess a child’s:

Correct Answer: B. Nutritional status and growth pattern

Explanation: These four anthropometric indices, plotted on standardized growth curves, are used together to evaluate whether a child’s growth and nutritional status are appropriate, and to detect wasting, stunting, underweight, or overweight/obesity.

High-Yield Pearl: The WHO standards (based on breastfed infants from multiple countries) are preferred for children under 2 years as a ‘growth standard,’ while CDC/WHO hybrid or national references are commonly used for older children.

Q19. The first-line dietary management for an infant with confirmed cow’s milk protein allergy who is not exclusively breastfed is:

Correct Answer: B. Extensively hydrolyzed formula (or amino acid–based formula if severe/refractory)

Explanation: Extensively hydrolyzed protein formulas are first-line for most infants with cow’s milk protein allergy; amino acid–based (elemental) formulas are reserved for infants with severe presentations (e.g., anaphylaxis, eosinophilic esophagitis, or failure to improve on hydrolyzed formula).

High-Yield Pearl: Soy formula is not recommended as first-line therapy for cow’s milk protein allergy because a significant proportion of affected infants (especially with non-IgE-mediated disease) also react to soy protein.

Q20. Childhood obesity is defined as a BMI-for-age and sex at or above which percentile on standard growth charts?

Correct Answer: D. 95th percentile

Explanation: In children and adolescents, obesity is defined as BMI ≥ 95th percentile for age and sex; a BMI between the 85th and <95th percentile is classified as overweight.

High-Yield Pearl: Unlike in adults, fixed BMI cutoffs cannot be used in children because body composition changes with age — percentile-based, age- and sex-specific charts are required for correct classification.

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