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Infants and toddlers with suspected iron-deficiency anemia (IDA) should begin treatment with oral ferrous sulfate (3 mg/kg/d of elemental iron). A rise in hemoglobin >1 g/dL after 4 weeks supports the diagnosis of iron deficiency, and supplementation should continue for 2 additional months to replenish iron stores. Recheck hemoglobin at the end of treatment and again 6 months later (strength of recommendation [SOR]: C, based on expert opinion).
For primary prevention, counsel parents on the use of iron-fortified formula for non-breastfed infants until the age 12 months (SOR: B, based on randomized controlled study), and introduce iron-rich foods between 4 and 6 months to breastfed babies (SOR: C, based on expert opinion).
If you need reassurance, check CBC and reticulocytes 1 week after start of iron therapy
Dan Hunter-Smith, MD
Adventist La Grange Family Medicine Residency, LaGrange, Ill
While the evidence supports the empiric approach, hemoglobin <11 g/dL has only a 29% positive predictive value for IDA. To obtain quick reassurance the diagnosis is correct, the pediatric faculty of our residency program advocates checking a complete blood count and a reticulocyte count 1 week after beginning iron therapy. By then, if the hemoglobin level stays the same or shows a small increase and the reticulocyte level is elevated, the diagnosis is confirmed.
When advising parents on how much iron to give their child, remember that 3 mg of elemental iron is contained in 15 mg of ferrous sulfate. The common over-the-counter liquid ferrous sulfate product contains 15 mg of elemental iron per 0.6-mL dropper. Thus, a 10-kg child would require a 0.6-mL dropper twice a day.
Evidence summary
Depletion of iron stores leads to IDA, which, among children, is associated with motor and cognitive deficits that may be irreversible. Little is known about whether iron deficiency, in the absence of anemia, results in physiologic sequelae. A Cochrane review of iron therapy for children with IDA aged >3 years found no short-term (5–11 days) improvement in Bayley scores of mental and motor development following iron therapy.1 A 10-year longitudinal cohort study in Costa Rica found that adolescents treated for severe chronic IDA in infancy (n=48) scored 0.4 to 0.7 standard deviations lower on cognitive and motor testing relative to controls (n=114).2 In an Indonesian randomized controlled trial (RCT), baseline Bayley scores were 10% to 15% lower (P<.01) for infants (12–18 months) with IDA compared with both nonanemic iron-deficient and iron-sufficient infants.3 Following treatment with ferrous sulfate (3 mg/kg/d of elemental iron) for 4 months, the IDA infants’ Bayley scores improved compared with those of nonanemic children.
Consensus recommendations suggest that iron deficiency should be the presumptive diagnosis in a child with anemia, and that a trial of ferrous sulfate at a dose of 3 mg/kg/d of elemental iron be instituted because of low cost, tolerability, and relative simplicity.4,5 In a prospective study of 75 1-year-olds with anemia (hemoglobin <11.0 g/dL), 45% achieved an increase in hemoglobin ≥1 g/dL after 3 months of iron therapy (3 mg/kg/d).6 An RCT of 278 nonanemic 1-year-olds found no difference in adverse effects from this dose compared with placebo.7 However, an analysis of data from NHANES III showed that a Hgb <11.0 had a positive predictive value of just 29% and sensitivity of 30% for diagnosing iron-deficiency in children aged <3 years.8
The recommended dose of 3 mg/kg/d was derived from models of bioavailability and iron needs9; no studies compare alternative doses. An RCT of 557 anemic children under 24 months of age in Ghana demonstrated that ferrous sulfate (5 mg/kg/d) given once daily was equivalent to 3-times-daily dosing in terms of effectiveness (61% vs 56%) and tolerance.10 Less frequent dosing has been studied in developing countries with mixed results.
Because anemia may lead to developmental impairment, primary prevention is critical. In a cohort study, infants given iron-fortified formula (n=98) were less likely to become iron-deficient by their 12-month visit than infants fed whole cow milk (n=69) (11.2% vs 24.6%, number needed to treat [NNT]=8).11 In a RCT of innercity children who had been switched to cows’ milk by 6 months, half (n=50) were randomized to receive iron-fortified formula for another year, resulting in a decreased risk of anemia at 24 months (0% vs 26%, NNT=4), and smaller declines in developmental functioning compared with those on cows’ milk.12
Recommendations from others
The CDC and the Institute of Medicine recommend parental dietary counseling, treatment with oral ferrous sulfate at 3 mg/kg/d for 3 months to restore iron stores, and monitoring of hemoglobin or hematocrit to assess response.4,5 To prevent IDA, the American Academy of Pediatrics (AAP) recommends that all infants who are not breastfed or are partially breastfed should receive an iron-fortified formula (containing between 4.0–12 mg/L of iron) from birth to 12 months. The AAP also recommends that parents should refrain from feeding cow’s milk to infants until after age 12 months and introduce iron-enriched foods between ages 4 and 6 months.13
1. Logan S, Martin S, Gilbert R. Iron therapy for improving psychomotor development and cognitive function in children under the age of three with iron deficiency anaemia. Cochrane Database Syst Rev 2001;(2):CD001444.-
2. Lozoff B, Jimenez E, Hagen J, et al. Poorer behavioral and developmental outcome more than 10 years after treatment for iron-deficiency in infancy. Pediatrics 2000;105:E51.-
3. Idjradinata P. Reversal of developmental delays in iron-deficient anaemic infants treated with iron. Lancet 1993;341:1-4.
4. Centers for Disease Control and Prevention (CDC). Recommendation to prevent and control iron deficiency in the United States. MMWR Recomm Rep 1998;47(RR-3):1-29.
5. Institute of Medicine. Iron deficiency anemia: recommended guidelines for the prevention, detection, and management among U.S. children and women of childbearing age. Washington, DC: National Academy Press;1993.
6. Driggers DA, Reeves JD, Lo EY, Dallman PR. Iron deficiency in one-year old infants: comparison of results of a therapeutic trial in infants with anemia or low-normal hemoglobin values J Pediatr 1981;98:753-758.
7. Reeves JD, Yip R. Lack of adverse effects of oral ferrous sulfate therapy in 1-year-old infants. Pediatrics 1985;75:352-355.
8. White K. Anemia is a poor predictor of iron deficiency among toddlers in the United States: for heme the bell tolls. Pediatrics 2005;115:315-320.
9. Choudhury P, Gera T. Rationale of iron dosage and formulations in under three children. Available at www.micro-nutrient.org/%5Fidpas/pdf/985rationale.pdf.
10. Zlotkin S, Arthur P, Antwi KY, Yeung G. Randomized, controlled trial of single versus 3-times-daily ferrous sulfate drops for treatment of anemia. Pediatrics 2001;108:613-616.
11. Tunnessen WW, Jr, Oski, FA. Consequences of starting whole cow milk at 6 months of age. J Pediatr 1987;111:813-816.
12. William J, Wolff A, Daly A, MacDonald A, Auckett A, Booth IW. Iron supplemented formula milk related to reduction in psychomotor decline in infants from inner city areas: randomized study. BMJ 1999;318:693-697.
13. AAP Committee on Nutrition The use of whole cow’s milk in infancy. Pediatrics 1992;89:1105-1109.
Infants and toddlers with suspected iron-deficiency anemia (IDA) should begin treatment with oral ferrous sulfate (3 mg/kg/d of elemental iron). A rise in hemoglobin >1 g/dL after 4 weeks supports the diagnosis of iron deficiency, and supplementation should continue for 2 additional months to replenish iron stores. Recheck hemoglobin at the end of treatment and again 6 months later (strength of recommendation [SOR]: C, based on expert opinion).
For primary prevention, counsel parents on the use of iron-fortified formula for non-breastfed infants until the age 12 months (SOR: B, based on randomized controlled study), and introduce iron-rich foods between 4 and 6 months to breastfed babies (SOR: C, based on expert opinion).
If you need reassurance, check CBC and reticulocytes 1 week after start of iron therapy
Dan Hunter-Smith, MD
Adventist La Grange Family Medicine Residency, LaGrange, Ill
While the evidence supports the empiric approach, hemoglobin <11 g/dL has only a 29% positive predictive value for IDA. To obtain quick reassurance the diagnosis is correct, the pediatric faculty of our residency program advocates checking a complete blood count and a reticulocyte count 1 week after beginning iron therapy. By then, if the hemoglobin level stays the same or shows a small increase and the reticulocyte level is elevated, the diagnosis is confirmed.
When advising parents on how much iron to give their child, remember that 3 mg of elemental iron is contained in 15 mg of ferrous sulfate. The common over-the-counter liquid ferrous sulfate product contains 15 mg of elemental iron per 0.6-mL dropper. Thus, a 10-kg child would require a 0.6-mL dropper twice a day.
Evidence summary
Depletion of iron stores leads to IDA, which, among children, is associated with motor and cognitive deficits that may be irreversible. Little is known about whether iron deficiency, in the absence of anemia, results in physiologic sequelae. A Cochrane review of iron therapy for children with IDA aged >3 years found no short-term (5–11 days) improvement in Bayley scores of mental and motor development following iron therapy.1 A 10-year longitudinal cohort study in Costa Rica found that adolescents treated for severe chronic IDA in infancy (n=48) scored 0.4 to 0.7 standard deviations lower on cognitive and motor testing relative to controls (n=114).2 In an Indonesian randomized controlled trial (RCT), baseline Bayley scores were 10% to 15% lower (P<.01) for infants (12–18 months) with IDA compared with both nonanemic iron-deficient and iron-sufficient infants.3 Following treatment with ferrous sulfate (3 mg/kg/d of elemental iron) for 4 months, the IDA infants’ Bayley scores improved compared with those of nonanemic children.
Consensus recommendations suggest that iron deficiency should be the presumptive diagnosis in a child with anemia, and that a trial of ferrous sulfate at a dose of 3 mg/kg/d of elemental iron be instituted because of low cost, tolerability, and relative simplicity.4,5 In a prospective study of 75 1-year-olds with anemia (hemoglobin <11.0 g/dL), 45% achieved an increase in hemoglobin ≥1 g/dL after 3 months of iron therapy (3 mg/kg/d).6 An RCT of 278 nonanemic 1-year-olds found no difference in adverse effects from this dose compared with placebo.7 However, an analysis of data from NHANES III showed that a Hgb <11.0 had a positive predictive value of just 29% and sensitivity of 30% for diagnosing iron-deficiency in children aged <3 years.8
The recommended dose of 3 mg/kg/d was derived from models of bioavailability and iron needs9; no studies compare alternative doses. An RCT of 557 anemic children under 24 months of age in Ghana demonstrated that ferrous sulfate (5 mg/kg/d) given once daily was equivalent to 3-times-daily dosing in terms of effectiveness (61% vs 56%) and tolerance.10 Less frequent dosing has been studied in developing countries with mixed results.
Because anemia may lead to developmental impairment, primary prevention is critical. In a cohort study, infants given iron-fortified formula (n=98) were less likely to become iron-deficient by their 12-month visit than infants fed whole cow milk (n=69) (11.2% vs 24.6%, number needed to treat [NNT]=8).11 In a RCT of innercity children who had been switched to cows’ milk by 6 months, half (n=50) were randomized to receive iron-fortified formula for another year, resulting in a decreased risk of anemia at 24 months (0% vs 26%, NNT=4), and smaller declines in developmental functioning compared with those on cows’ milk.12
Recommendations from others
The CDC and the Institute of Medicine recommend parental dietary counseling, treatment with oral ferrous sulfate at 3 mg/kg/d for 3 months to restore iron stores, and monitoring of hemoglobin or hematocrit to assess response.4,5 To prevent IDA, the American Academy of Pediatrics (AAP) recommends that all infants who are not breastfed or are partially breastfed should receive an iron-fortified formula (containing between 4.0–12 mg/L of iron) from birth to 12 months. The AAP also recommends that parents should refrain from feeding cow’s milk to infants until after age 12 months and introduce iron-enriched foods between ages 4 and 6 months.13
Infants and toddlers with suspected iron-deficiency anemia (IDA) should begin treatment with oral ferrous sulfate (3 mg/kg/d of elemental iron). A rise in hemoglobin >1 g/dL after 4 weeks supports the diagnosis of iron deficiency, and supplementation should continue for 2 additional months to replenish iron stores. Recheck hemoglobin at the end of treatment and again 6 months later (strength of recommendation [SOR]: C, based on expert opinion).
For primary prevention, counsel parents on the use of iron-fortified formula for non-breastfed infants until the age 12 months (SOR: B, based on randomized controlled study), and introduce iron-rich foods between 4 and 6 months to breastfed babies (SOR: C, based on expert opinion).
If you need reassurance, check CBC and reticulocytes 1 week after start of iron therapy
Dan Hunter-Smith, MD
Adventist La Grange Family Medicine Residency, LaGrange, Ill
While the evidence supports the empiric approach, hemoglobin <11 g/dL has only a 29% positive predictive value for IDA. To obtain quick reassurance the diagnosis is correct, the pediatric faculty of our residency program advocates checking a complete blood count and a reticulocyte count 1 week after beginning iron therapy. By then, if the hemoglobin level stays the same or shows a small increase and the reticulocyte level is elevated, the diagnosis is confirmed.
When advising parents on how much iron to give their child, remember that 3 mg of elemental iron is contained in 15 mg of ferrous sulfate. The common over-the-counter liquid ferrous sulfate product contains 15 mg of elemental iron per 0.6-mL dropper. Thus, a 10-kg child would require a 0.6-mL dropper twice a day.
Evidence summary
Depletion of iron stores leads to IDA, which, among children, is associated with motor and cognitive deficits that may be irreversible. Little is known about whether iron deficiency, in the absence of anemia, results in physiologic sequelae. A Cochrane review of iron therapy for children with IDA aged >3 years found no short-term (5–11 days) improvement in Bayley scores of mental and motor development following iron therapy.1 A 10-year longitudinal cohort study in Costa Rica found that adolescents treated for severe chronic IDA in infancy (n=48) scored 0.4 to 0.7 standard deviations lower on cognitive and motor testing relative to controls (n=114).2 In an Indonesian randomized controlled trial (RCT), baseline Bayley scores were 10% to 15% lower (P<.01) for infants (12–18 months) with IDA compared with both nonanemic iron-deficient and iron-sufficient infants.3 Following treatment with ferrous sulfate (3 mg/kg/d of elemental iron) for 4 months, the IDA infants’ Bayley scores improved compared with those of nonanemic children.
Consensus recommendations suggest that iron deficiency should be the presumptive diagnosis in a child with anemia, and that a trial of ferrous sulfate at a dose of 3 mg/kg/d of elemental iron be instituted because of low cost, tolerability, and relative simplicity.4,5 In a prospective study of 75 1-year-olds with anemia (hemoglobin <11.0 g/dL), 45% achieved an increase in hemoglobin ≥1 g/dL after 3 months of iron therapy (3 mg/kg/d).6 An RCT of 278 nonanemic 1-year-olds found no difference in adverse effects from this dose compared with placebo.7 However, an analysis of data from NHANES III showed that a Hgb <11.0 had a positive predictive value of just 29% and sensitivity of 30% for diagnosing iron-deficiency in children aged <3 years.8
The recommended dose of 3 mg/kg/d was derived from models of bioavailability and iron needs9; no studies compare alternative doses. An RCT of 557 anemic children under 24 months of age in Ghana demonstrated that ferrous sulfate (5 mg/kg/d) given once daily was equivalent to 3-times-daily dosing in terms of effectiveness (61% vs 56%) and tolerance.10 Less frequent dosing has been studied in developing countries with mixed results.
Because anemia may lead to developmental impairment, primary prevention is critical. In a cohort study, infants given iron-fortified formula (n=98) were less likely to become iron-deficient by their 12-month visit than infants fed whole cow milk (n=69) (11.2% vs 24.6%, number needed to treat [NNT]=8).11 In a RCT of innercity children who had been switched to cows’ milk by 6 months, half (n=50) were randomized to receive iron-fortified formula for another year, resulting in a decreased risk of anemia at 24 months (0% vs 26%, NNT=4), and smaller declines in developmental functioning compared with those on cows’ milk.12
Recommendations from others
The CDC and the Institute of Medicine recommend parental dietary counseling, treatment with oral ferrous sulfate at 3 mg/kg/d for 3 months to restore iron stores, and monitoring of hemoglobin or hematocrit to assess response.4,5 To prevent IDA, the American Academy of Pediatrics (AAP) recommends that all infants who are not breastfed or are partially breastfed should receive an iron-fortified formula (containing between 4.0–12 mg/L of iron) from birth to 12 months. The AAP also recommends that parents should refrain from feeding cow’s milk to infants until after age 12 months and introduce iron-enriched foods between ages 4 and 6 months.13
1. Logan S, Martin S, Gilbert R. Iron therapy for improving psychomotor development and cognitive function in children under the age of three with iron deficiency anaemia. Cochrane Database Syst Rev 2001;(2):CD001444.-
2. Lozoff B, Jimenez E, Hagen J, et al. Poorer behavioral and developmental outcome more than 10 years after treatment for iron-deficiency in infancy. Pediatrics 2000;105:E51.-
3. Idjradinata P. Reversal of developmental delays in iron-deficient anaemic infants treated with iron. Lancet 1993;341:1-4.
4. Centers for Disease Control and Prevention (CDC). Recommendation to prevent and control iron deficiency in the United States. MMWR Recomm Rep 1998;47(RR-3):1-29.
5. Institute of Medicine. Iron deficiency anemia: recommended guidelines for the prevention, detection, and management among U.S. children and women of childbearing age. Washington, DC: National Academy Press;1993.
6. Driggers DA, Reeves JD, Lo EY, Dallman PR. Iron deficiency in one-year old infants: comparison of results of a therapeutic trial in infants with anemia or low-normal hemoglobin values J Pediatr 1981;98:753-758.
7. Reeves JD, Yip R. Lack of adverse effects of oral ferrous sulfate therapy in 1-year-old infants. Pediatrics 1985;75:352-355.
8. White K. Anemia is a poor predictor of iron deficiency among toddlers in the United States: for heme the bell tolls. Pediatrics 2005;115:315-320.
9. Choudhury P, Gera T. Rationale of iron dosage and formulations in under three children. Available at www.micro-nutrient.org/%5Fidpas/pdf/985rationale.pdf.
10. Zlotkin S, Arthur P, Antwi KY, Yeung G. Randomized, controlled trial of single versus 3-times-daily ferrous sulfate drops for treatment of anemia. Pediatrics 2001;108:613-616.
11. Tunnessen WW, Jr, Oski, FA. Consequences of starting whole cow milk at 6 months of age. J Pediatr 1987;111:813-816.
12. William J, Wolff A, Daly A, MacDonald A, Auckett A, Booth IW. Iron supplemented formula milk related to reduction in psychomotor decline in infants from inner city areas: randomized study. BMJ 1999;318:693-697.
13. AAP Committee on Nutrition The use of whole cow’s milk in infancy. Pediatrics 1992;89:1105-1109.
1. Logan S, Martin S, Gilbert R. Iron therapy for improving psychomotor development and cognitive function in children under the age of three with iron deficiency anaemia. Cochrane Database Syst Rev 2001;(2):CD001444.-
2. Lozoff B, Jimenez E, Hagen J, et al. Poorer behavioral and developmental outcome more than 10 years after treatment for iron-deficiency in infancy. Pediatrics 2000;105:E51.-
3. Idjradinata P. Reversal of developmental delays in iron-deficient anaemic infants treated with iron. Lancet 1993;341:1-4.
4. Centers for Disease Control and Prevention (CDC). Recommendation to prevent and control iron deficiency in the United States. MMWR Recomm Rep 1998;47(RR-3):1-29.
5. Institute of Medicine. Iron deficiency anemia: recommended guidelines for the prevention, detection, and management among U.S. children and women of childbearing age. Washington, DC: National Academy Press;1993.
6. Driggers DA, Reeves JD, Lo EY, Dallman PR. Iron deficiency in one-year old infants: comparison of results of a therapeutic trial in infants with anemia or low-normal hemoglobin values J Pediatr 1981;98:753-758.
7. Reeves JD, Yip R. Lack of adverse effects of oral ferrous sulfate therapy in 1-year-old infants. Pediatrics 1985;75:352-355.
8. White K. Anemia is a poor predictor of iron deficiency among toddlers in the United States: for heme the bell tolls. Pediatrics 2005;115:315-320.
9. Choudhury P, Gera T. Rationale of iron dosage and formulations in under three children. Available at www.micro-nutrient.org/%5Fidpas/pdf/985rationale.pdf.
10. Zlotkin S, Arthur P, Antwi KY, Yeung G. Randomized, controlled trial of single versus 3-times-daily ferrous sulfate drops for treatment of anemia. Pediatrics 2001;108:613-616.
11. Tunnessen WW, Jr, Oski, FA. Consequences of starting whole cow milk at 6 months of age. J Pediatr 1987;111:813-816.
12. William J, Wolff A, Daly A, MacDonald A, Auckett A, Booth IW. Iron supplemented formula milk related to reduction in psychomotor decline in infants from inner city areas: randomized study. BMJ 1999;318:693-697.
13. AAP Committee on Nutrition The use of whole cow’s milk in infancy. Pediatrics 1992;89:1105-1109.
Evidence-based answers from the Family Physicians Inquiries Network