Evaluation of the prescription pattern of ferrous sulfate as a therapy for preventing iron deficiency anemia in infants

Vásquez-Guzmán, Rocío A.; Solano-Ceh, Adriana; Villarreal-Ríos, Enrique; Aguilar-Ramírez, Maribel; Vargas-Daza, Emma R.; Hernández-Vásquez, María de Jesús; Galicia-Rodríguez, Liliana; Elizarrarás-Rivas, Jesús; Vásquez-Guzmán, Rocío A.; Solano-Ceh, Adriana; Villarreal-Ríos, Enrique; Aguilar-Ramírez, Maribel; Vargas-Daza, Emma R.; Hernández-Vásquez, María de Jesús; Galicia-Rodríguez, Liliana; Elizarrarás-Rivas, Jesús

doi:10.24875/bmhim.22000081

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Boletín médico del Hospital Infantil de México

versión impresa ISSN 1665-1146

Bol. Med. Hosp. Infant. Mex. vol.79 no.6 México nov./dic. 2022 Epub 13-Ene-2023

https://doi.org/10.24875/bmhim.22000081

Research articles

Evaluation of the prescription pattern of ferrous sulfate as a therapy for preventing iron deficiency anemia in infants

Evaluación del patrón de prescripción de sulfato ferroso como terapia de prevención de anemia ferropénica en el lactante

Rocío A. Vásquez-Guzmán¹

Adriana Solano-Ceh²

Enrique Villarreal-Ríos³

Maribel Aguilar-Ramírez⁴

Emma R. Vargas-Daza³

María de Jesús Hernández-Vásquez¹

Liliana Galicia-Rodríguez³

Jesús Elizarrarás-Rivas⁵

^¹Unidad de Medicina Familiar No. 65, Instituto Mexicano del Seguro Social, Oaxaca de Juárez, Oaxaca, Mexico

^²Unidad de Medicina Familiar No. 1, Instituto Mexicano del Seguro Social, Oaxaca de Juárez, Oaxaca, Mexico

^³Unidad de Investigación Epidemiológica y en Servicios de Salud, Instituto Mexicano del Seguro Social, Querétaro, Querétaro de Arteaga, Mexico

^⁴Hospital General Zonal No. 1, Instituto Mexicano del Seguro Social, Oaxaca de Juárez, Oaxaca, Mexico

^⁵Coordinación de Investigación en Salud, Órgano de Operación Administrativa Desconcentrada, Instituto Mexicano del Seguro Social, Oaxaca, Mexico

Abstract

Background:

Iron deficiency prevalence in infants is high. Therefore, iron supplementation has been recommended and specified as a program. This study aimed to determine the characteristics of the prescription of ferrous sulfate as a preventive therapy for iron deficiency anemia in young infants.

Methods:

We conducted a descriptive cross-sectional study of clinical records of young infants with eight visits per year. We analyzed a total of 287 records. The prescription characteristics included five criteria prescription indication, age at prescription, dosage, periodicity, and time. These characteristics were scored as follows 1 point when it was considered adequate and 0 when it was considered inadequate; the minimum possible score was 0, and the maximum possible score was 5 points. Statistical analysis included percentages and 95% confidence intervals (CI).

Results:

The prescription pattern of ferrous sulfate as preventive therapy in infants under one year of age was indicated in 100% of the records reviewed. All five criteria were met in 18.1% of the reviewed records (95%CI 13.6–22.6). The lowest compliance corresponded to adequate dosage (29.2%; 95%CI 23.9–34.5). Age at prescription was correct in 75.9% (95%CI 70.9–80.9); duration of prescription was correct in 44.2% (95%CI 38.4–50.0), and periodicity was proper in 31.1% (95%CI 25.9–36.7) of the files reviewed.

Conclusions:

Compliance with the prescription of ferrous sulfate as a preventive measure for anemia in infants was not as expected; interventions are needed to reverse this behavior.

Keywords First prescription; Primary prevention; Anemia; Infant care

Resumen

Introducción:

Debido a que la prevalencia de deficiencia de hierro en el lactante es alta, el aporte de hierro se ha recomendado como suplemento y se ha concretado como programa. El objetivo del estudio fue determinar las características de la prescripción de sulfato ferroso como terapia de prevención de anemia ferropénica en el lactante menor.

Métodos:

Se llevó a cabo un estudio descriptivo con diseño transversal de expedientes clínicos de lactantes menores con ocho consultas al año. Se analizaron 287 expedientes. Las características de prescripción incluyeron cinco criterios: indicación de prescripción, edad de indicación, dosificación, periodicidad y tiempo. Se calificó con 1 punto cuando la característica se consideró adecuada y con 0 cuando se consideró inadecuada; la puntuación mínima posible fue 0 y la puntuación máxima posible de 5 puntos. El análisis estadístico incluyó porcentajes e intervalos de confianza (IC) al 95%.

Resultados:

El patrón de prescripción del sulfato ferroso como terapia preventiva en el menor de un año se encontró indicado en 100% de los expedientes revisados. Se cumplió exactamente con los cinco criterios en el 18.1% de los expedientes revisados (IC95% 13.6-22.6); el cumplimiento más bajo correspondió a la dosificación adecuada (29.2%; IC95% 23.9-34.5). La edad de inicio fue correcta en el 75.9% (IC95% 70.9-80.9); la duración de la prescripción fue correcta en el 44.2% (IC95% 38.4-50.0) y la periodicidad fue correcta en el 31.1% (IC95% 25.9-36.7) de los expedientes revisados.

Conclusiones:

El cumplimiento de la prescripción de sulfato ferroso como medida preventiva de la anemia en lactantes no fue el esperado, por lo que se requiere adoptar intervenciones para revertir este comportamiento.

Palabras clave Primera prescripción; Prevención primaria; Anemia; Cuidado del lactante

Introduction

The National Health Survey (ENSANUT, for its Spanish acronym) identified a 38% prevalence of iron deficiency anemia in infants under one year of age¹-⁴.

During the first 4 to 6 months of life, iron stores maintain the infant’s developmental requirements; after this time, iron supply will depend on daily dietary intake⁵.

Although the importance of dietary intake is evident, the prescription of ferrous sulfate as preventive therapy for iron deficiency anemia is recommended in infants from 4 months of age when they are full-term newborns and from 2 months of age in preterm infants²,⁵.

The decrease in iron reserves in the first months of life is associated with hypomyelination and alterations in the regulation and conduction of neurotransmitters [serotonin, dopamine, gamma amino butyric acid (GABA)], leading to alterations that can cause deficits in psychomotor development, cognitive alterations, and developmental delay⁶-¹⁶.

Faced with this situation, organized associations have proposed actions to prevent ferrous sulfate deficiency in young infants, which have been included in the Official Mexican Standard for Child Health Care NOM-031-SSA2-1999 and the Guidelines for the Care of Children¹,⁹,¹⁶-²⁴. In addition, the Food and Drug Administration (FDA) of the United States has specified the indication, age of onset, prescription time, periodicity, and dosage of ferrous sulfate²⁵-³⁰. This proposal has been incorporated into daily clinical practice as a preventive action program²⁰,²³,²⁴,²⁷.

Based on this scenario, the objective of this article was to determine the characteristics of ferrous sulfate prescription as a preventive therapy for iron deficiency anemia in clinical records of infants.

Methods

We conducted a descriptive cross-sectional study on the clinical records of infants who attended follow-up visits from January 1^st to December 31^st, 2019. Care was provided by 20 family physicians and four specialized nurses in a Family Medicine Unit in Mexico with ten offices for medical care and four for nursing care.

We included records of infants who had eight follow-up visits during the study year (7 and 28 days, and 2, 4, 6, 8, 10, and 12 months after birth). We excluded records of infants diagnosed with anemia who were on treatment with ferrous sulfate.

The sample size was calculated using the percentage formula for a finite population with a 95% confidence level for two zones of rejection of the null hypothesis (Z_alpha=1.96), assuming 95% correct prescription of ferrous sulfate (p = 0.95), with a margin of error of 2% (d = 0.02) and a total infant population of 774 (n = 774). The calculated sample size was 287 infant records.

The 287 files in the sample were divided into the 12 months of 2019: 24 files corresponding to each month during the first 11 months and 23 files in the last month. The 24 files were obtained from 20 family physicians and four nurses in the maternal-child area, one file per individual. We chose the first record in the physician’s or nurse’s productivity report.

We recorded the sex of the infant and the weeks of gestation (term, preterm). The prescription characteristics of the studied sample comprised five criteria: ferrous sulfate prescription (present, absent); the age of indication assuming as ideal before four months in term infants and before two months in preterm infants (adequate, inadequate); dosage of 10 drops orally for term infants and 15 drops orally for preterm infants (adequate, inadequate); periodicity of daily prescription (adequate, inadequate), and prescription time of 90 days or more (adequate, inadequate). The information was scored 1 point when it was considered adequate and 0 when it was considered inadequate; the minimum possible score was 0, and the maximum was 5.

The statistical analysis included percentages and 95% confidence intervals.

The protocol was approved by the ethics and research committee of the health institution. The principal researcher accessed the electronic clinical record and reviewed the information. When the clinical history met the selection criteria, it was incorporated into the previously designed survey and printed on paper. The data was then entered into the statistical program for analysis. Forty-nine files were eliminated because they did not meet the specified criteria.

Results

Male sex predominance was observed in 52.6% (95%CI 46.8-58.4), and 94.0% (95%CI 91.3-96.8) were term newborns.

All five criteria were met precisely in 18.1% (95%CI 13.6-22.6) of the files reviewed, and one criterion was met precisely in 15.0% (95%CI 10.9-19.1) (Table 1).

Table 1 Compliance with ferrous sulfate prescription by criteria

Criteria	Percentage (%)	95% confidence interval
Criteria	Percentage (%)	Lower	Upper
Indication of prescription (present)	100.0	100.0	100.0
Age upon indication (adequate)	75.9	70.9	80.9
Time of prescription (adequate)	44.2	38.4	50.0
Periodicity of prescription (adequate)	31.1	25.9	36.7
Dosage (adequate)	29.2	23.9	34.5

Ferrous sulfate was prescribed in 100% of the files; the lowest compliance corresponded to adequate dosage in 29.2% (95%CI 23.9-34.5). Table 2 shows the percentage of compliance with the rest of the criteria.

Table 2 Percentage by number of met criteria

Criteria met	Percentage (%)	95% confidence interval
Criteria met	Percentage (%)	Lower	Upper
Exactly 1	15.0	10.9	19.1
Exactly 2	34.5	29.0	40.0
Exactly 3	23.3	18.4	28.2
Exactly 4	9.1	5.8	12.4
Exactly 5	18.1	13.6	22.6

Discussion

The prescription of ferrous sulfate is an option to prevent anemia in infants, for which its role in the individual’s future health has been described. It has been documented that anemia causes hypomyelination, affecting the regulation and conduction of neurotransmitters¹⁰-¹². Furthermore, it is associated with impaired cognitive development when present in the first two years of life. It has also been stated that the damage can be irreversible if it exceeds the critical stage of development³¹. Given this scenario, the infant ferrous sulfate supplementation program becomes relevant and requires a permanent evaluation by the clinician and the health system management. This research is an incursion into the subject.

Studies on the prescription of ferrous sulfate to prevent or correct anemia are oriented toward evaluating the behavior of the patient³² and leave aside the study of the physician who prescribes the treatment. It should be recognized that the behavior of the patient-physician binomial will impact adherence to the prescription and the results obtained. The present research addresses the behavior of the prescribing physician.

The literature on this subject describes that compliance with the prescription of ferrous sulfate by health professionals is not as expected³³, as observed in this study. Two possible explanations can be considered. The first possibility is related to physicians’ decisions based on their clinical criteria and the established regulations; this scenario invites ongoing updating of the regulations and the prescriber. The second possibility is the lack of recording of medical indications in the clinical record. This condition is of concern given that the clinical history is a legal document used in decision-making to regulate public policies. In turn, the indications would reflect the treating physician’s behavior and conceptualization of the importance of recording the activities performed on the patient in the medical record.

Based on the information obtained from this research, it is impossible to conclude which one of the two alternatives reflects reality, which could be considered a limitation of this work. However, it should be recognized that the research was not designed to determine association but to establish the situational diagnosis of the prescriptive behavior, assuming that what is found in the clinical history is a reliable reflection of reality.

From the biochemical perspective, it has been described that a weekly intake of ferrous sulfate has the same efficacy as a daily intake. However, patient adherence to a daily intake of ferrous sulfate is poor³⁴. Regardless, our work did not analyze infants’ behavior but rather that of the prescribing physician. Our results show noncompliance with the guidelines, but we do not know if this has a supporting clinical rationale or if it corresponds to a defect in prescribing behavior. This suggests the need to ponder the prescribing periodicity and, consequently, the updating of the guidelines or that of healthcare personnel.

The literature has indicated the age to initiate the prescription of ferrous sulfate in term and preterm infants. In addition, the role of hemoglobin in oxygen uptake for the development of the central nervous system has been documented. In this process, oligodendrocytes are responsible for the production of myelin. With a decrease in iron reserves in the first months of life, hypomyelination is induced, thereby affecting the regulation and conduction of neurotransmitters (serotonin, dopamine, GABA), leading to alterations in neurodevelopment. This point is of concern considering that the initiation of ferrous sulfate prescription was outside the period established as adequate in 25% of infants¹⁰-¹⁵.

In this research, the criteria evaluated for the preventive prescription of ferrous sulfate in infants are far from ideal, despite a regulation with academic support. The scenario is worrisome because of all the clinical implications for the infant and because it underutilizes an available and proven therapeutic resource. It has been shown that educational intervention modifies behavior and favors adequate dosing³⁵,³⁶. Based on our findings, this could be an alternative to improve compliance with the criteria for prescribing ferrous sulfate in infants.

The first step in preventing infant anemia involves the health service, specifically the prescribing physician. The health problem will persist even if the patient fully adheres to the physician’s prescription if the physician does not comply with clinically accepted guidelines.

In conclusion, as compliance with the prescription of ferrous sulfate as a preventive measure for anemia in infants was not as expected, it is necessary to evaluate an intervention to correct this behavior.

References

1. Martínez-Villegas O, Baptista-González HA. Anemia por deficiencia de hierro en niños:un problema de salud nacional. Rev Hematol Mex. 2019;20:96-105. [ Links ]

2. Instituto Mexicano del Seguro Social. Prevención, diagnóstico y tratamiento de la anemia por deficiencia de hierro en niños y adultos. Guía de Práctica Clínica. Mexico:Instituto Mexicano del Seguro Social;2010. Available from:https://www.imss.gob.mx/sites/all/statics/guiasclinicas/415GER.pdf [ Links ]

3. Instituto Nacional de Salud Pública. Encuesta Nacional de Salud y Nutrición 2012. Resultados por entidad federativa, Oaxaca. Cuernavaca, Mexico:Instituto Nacional de Salud Pública;2013. [ Links ]

4. De la Cruz-Go?ngora V, Marti?nez-Tapia B, Cuevas-Nasu L, Rangel-Baltazar E, Medina-Zacarías MC, García-Guerra A, et al. ENSANUM 2018. Anemia, deficiencias de zinc y hierro, consumo de suplementos y morbilidad en niños mexicanos de 1 a 4 años:resultados de la Ensanut 100k. Salud Publica Mex. 2019;61:821-32. [ Links ]

5. Baker RD, Greer FR;Committee on Nutrition American Academy of Pediatrics. Diagnosis and prevention of iron deficiency and iron-deficiency anemia in infants and young children (0-3 years of age). Pediatrics. 2010;126(5):1040-50. [ Links ]

6. Comité Nacional de Hematología, Oncología y Medicina Transfusional y Comité Nacional de Nutrición. Deficiencia de hierro y anemia ferropénica. Guía para su prevención, diagnóstico y tratamiento. Arch Argent Pediatr. 2017;115(Supl 4):s68-s82. [ Links ]

7. Instituto Mexicano del Seguro Social. Control y seguimiento de la salud en la niña y el niño menor de 5 años en el primer nivel de atención. Guía de Práctica Clínica. Mexico:Instituto Mexicano del Seguro Social;2015. Available from:https://www.imss.gob.mx/sites/all/statics/guiasclinicas/029GER.pdf [ Links ]

8. Cataldo S. La infancia y sus 6 etapas (desarrollo físico y psíquico). Calameo;2017. Available from:https://es.calameo.com/read/0037235761e7596∤24 [ Links ]

9. Secretaría de Salud. Prevención, diagnóstico y tratamiento de la anemia por deficiencia de hierro en menores de 5 años de edad. Guía de Práctica Clínica. Guía de Referencia Rápida. Mexico:CENETEC;2016. [ Links ]

10. Reyes-Gómez U, Reyes-Hernández D, López-Cruz G, Reyes-Hernández U, García-Cruz F, Calleja-Sánchez MA. Valores de hemoglobina en el diagnóstico de anemia en niños. Análisis comparativo de dos periodos. Bol Clin Hosp Infant Edo Son. 2010;27:113-18. [ Links ]

11. Pavo García MR, Muñoz Díaz M, Baro Fernández M. Anemia en la edad pediátrica. Form Act Pediatr Aten Prim. 2016;9:149-55. [ Links ]

12. Coronel Santos LJ, Trujillo Espinoza MV. Prevalencia de anemia con sus factores asociados en niños/as de 12 a 59 meses de edad y capacitación a los padres de familia en el Centro de Desarrollo Infantil de la Universidad de Cuenca. [Thesis]. Cuenca, Ecuador:Facultad de Ciencias Médicas, Universidad de Cuenca;2016. [ Links ]

13. Sánchez-Michaca VJ, García-Galaviz JL, Velasco-Pasillas M, Flores-Huerta S, Belmont-Martínez L, Orozco-Monroy JV, et al. Consenso Nacional para el Diagnóstico y Tratamiento de la Anemia en la Infancia y la Adolescencia. Pediatr Mex. 2012;14:71-85. [ Links ]

14. Picos Nordet S, Santiesteban González BC, Cortés Santos MC, Morales Gómez AC, Acosta Alegría M. Factores de riesgo en la aparición de anemia en lactantes de 6 meses. Rev Cubana Pediatr. 2015;87(4). [ Links ]

15. Anemia. Scottsdale:Mayo Clinic;2022. Available from:https://www.mayoclinic.org/diseases-conditions/anemia/symptoms-causes/syc-20351360 [ Links ]

16. Lyme Villegas JC. Factores asociados a la presencia de anemia en niños de 6 a 35 meses de edad del centro de salud Lambrama-Abancay, 2017. [Thesis]. Abancay, Peru:Facultad de Enfermería, Universidad Inca Garcilaso de la Vega;2018. [ Links ]

17. Sánchez Ruiz Cabello J. ¿Hay que hacer profilaxis de hierro en lactantes?Rev Pediatr Aten Primaria. 2014;16(Supl 23):65-8. [ Links ]

18. Academia Americana de Pediatría. Suplementos de vitamina D y hierro para los bebés:recomendaciones de la AAP. Illinois:American Academy of Pediatrics;2015. Available from:https://www.healthychildren.org/spanish/ages-stages/baby/feeding-nutrition/paginas/vitamin-iron-supplements.aspx [ Links ]

19. World Health Organization. Daily Iron Supplementation in Infants and Children Aged 6–23 Months. In:Guideline:Daily iron supplementation in infants and children. Geneva:World Health Organization;2016. [ Links ]

20. Falivene MA, Fatore GL. Abordaje multidimensional de la anemia por deficiencia de hierro en niños menores de dos años de edad del Noreste Argentino. Años 2004-2005. Arch Argent Pediatr. 2016;114(1):14-22. [ Links ]

21. Gobierno de México. Cartilla Nacional de Salud. Niñas y niños de 0 a 9 años. Cartilla Nacional de Vacunación. Mexico City:Gobierno de México;2019. 9. [ Links ]

22. Barja S, Le Roy C. Alimentación durante la Niñez y Adolescencia. In:Perret-Pérez C, Pérez-Valenzuela C, Poblete-Villacorta MJ, editors. Manual de pediatría. Chile:Pontificia Universidad Católica de Chile;2019. pp. 30-48. [ Links ]

23. Rodríguez-Salinas Pérez E, Aparicio-Rodrigo M. La profilaxis con hierro en lactantes con alto riesgo de ferropenia mejora de forma discreta el desarrollo motor a los nueve meses. Evid Pediatr. 2016;12:45. [ Links ]

24. Secretaría de Salud. Guía técnica para la cartilla nacional de salud. Niñas y niños de 0 a 9 años. Mexico:Gobierno Federal;2008. [ Links ]

25. Instituto Mexicano del Seguro Social. Guía para el Cuidado de la Salud. PrevenIMSS. Programa de Salud del niño y de la niña de 1 a 11 meses. Nutrición. Administración de hierro:34-35. https://www.imss.gob.mx/sites/all/statics/salud/guias_salud/ninios/guianinos_1a11meses.pdf [ Links ]

26. Carrizo LR. Aspectos epidemiológicos de la anemia ferropénica en niños de 6-23 meses en el consultorio externo del Hospital Pediátrico de Santiago del Estero 2008-2010. [Thesis]. Córdoba, Argentina:Facultad de Ciencias Médicas, Universidad Nacional de Córdoba;2013. [ Links ]

27. Santamarina Fernández A, Sánchez Díaz RD, Verdecia OA. Caracterización de lactantes menores de 6 meses con anemia ferropénica. Rev Cubana Pediatr. 2017;89:11-9. [ Links ]

28. de Vries TPGM, Henning RH, Hogerzeil HV, Fresle DA. Guía de buena prescripción. Manual práctico. Ginebra:Organización Mundial de la Salud;1998. [ Links ]

29. Lifshitz A, Arrieta O, Campillo C, Burgos R, Celis MA, De la LLata M, et al. Libertad de prescripción médica. Gac Med Mex. 2019;155:202-3. [ Links ]

30. Horna ME, Rocha MT, Hartman I, Larroza GO, Morales SD, Blugerman MA, et al. Utilización de hierro como terapia preventiva de anemia ferropénica en niños menores de 2 años. Rev Posgrado Via Cat Med. 2014;216:10-3. [ Links ]

31. Barreto-Pincay GM, Bunces-Otañez MA, Cajas-Yugcha EL, Acosta-Tamayo GJ, Salazar-Bustamante MM, Saltos-Morán JP. Control y cuidado de los infantes con cuadro anémico. RECIMUNDO. 2019;3:1415-28. [ Links ]

32. Vásquez-Garibay EM. La anemia en la infancia. Rev Panam Salud Publica. 2003;13:349-51. [ Links ]

33. Olivares GM. Suplementación con hierro. Rev Chil Nutr. 2004;31:272-5. [ Links ]

34. López DF, Benjumea MV. Atención integrada a las enfermedades prevalentes de la infancia–AIEPI, para ferropenia en niños. Rev Salud Publica. 2011;13:102-14. [ Links ]

35. Zalles-Cueto L, Rojas-Meneces J, Rojas-Soto S, Sejas E. Eficacia de la suplementación semanal versus diaria con sulfato ferroso en niños escolares con anemia ferropenica. Gac Med Bol. 2005;28:3-8. [ Links ]

36. Castro-Ríos A, Reyes-Morales H, Pérez-Cuevas R. Evaluación de un programa de educación médica continua para la atención primaria en la prescripción de hipoglucémicos. Salud Publica Mex. 2008;50(Supl 4):S445-S452. [ Links ]

Ethical disclosures

Protection of human and animal subjects. The authors declare that no experiments were performed on humans or animals for this study.

Confidentiality of data. The authors declare that they have followed the protocols of their work center on the publication of patient data.

Right to privacy and informed consent. This study involved a retrospective review of medical records, for which approval was obtained from a formally constituted review board (Institutional Review Board or Institutional Ethics Committee).

FundingNo funding.

Received: April 12, 2022; Accepted: June 28, 2022

^* Correspondence: Enrique Villarreal-Ríos E-mail: enriquevillarrealrios@gmail.com

^{Conflicts of interest}

The authors declare no conflicts of interest.

Instituto Nacional de Cardiología Ignacio Chávez. Published by Permanyer. This is an open access article under the CC BY-NC-ND license