COMPARATIVE EFFICACY OF FERROUS SULPHATE MONOTHERAPY VERSUS COMBINATION THERAPY WITH VITAMIN C IN PEDIATRIC IRON DEFICIENCY ANEMIA: A RANDOMIZED CONTROLLED TRIAL

Authors

  • H NAZ Department of Peads Emergency, The Children's Hospital and The Institute of Child Health (CH&ICH), Multan, Pakistan
  • Q ZAFAR Department of Peads Emergency, The Children's Hospital and The Institute of Child Health (CH&ICH), Multan, Pakistan
  • M JAFFAR Department of Peads Emergency, ChildLife Foundation (CLF), Multan, Pakistan
  • KAA KHAN Department of Pathology, Nishtar Medical University (NMU), Multan, Pakistan
  • M IBRAHIM Department of Biochemistry, Bahauddin Zakariya University, Multan, Pakistan
  • S BATOOL Department of Biochemistry, Bahauddin Zakariya University, Multan, Pakistan

DOI:

https://doi.org/10.54112/bcsrj.v2024i1.843

Keywords:

Anemia, Combination Therapy, Ferrous Sulfate, Iron Deficiency, Pediatrics, Vitamin C

Abstract

Iron deficiency is the single most common cause of anaemia worldwide. Treatment consists of improved nutrition and oral, intramuscular, or intravenous iron administration. Objective: To compare the outcome of monotherapy with ferrous sulphate and combination therapy with ferrous sulphate and vitamin C in children with iron deficiency anaemia. Methods: This randomised controlled trial was conducted in the Department of Pediatric Medicine, The Children's Hospital and The Institute of Child Health (CH&ICH), Multan, over six months from January 20, 2022, to July 20, 2023. A total of 166 children with iron deficiency anaemia were included in the study. Participants were randomly assigned to two groups: Group A received ferrous sulphate 5 mg/kg/day Fe²⁺ orally on an empty stomach plus vitamin C 6.3 mg/kg/day, while Group B received ferrous sulphate without additional vitamin C. Baseline and post-treatment measurements of haemoglobin, serum ferritin, and mean corpuscular volume (MCV) were taken. Data were analysed using SPSS-20, applying descriptive statistics and Student’s t-test for comparison, with a significance level set at p≤0.05. Results: Of the 166 children, 111 (66.9%) were male, and 55 (33.1%) were female. The mean age was 24.55 ± 16.23 months. Rural residents accounted for 67 (40.4%), and urban residents were 99 (59.6%). Socioeconomically, 100 (60.2%) were from poor backgrounds, and 66 (39.8%) were middle-income. Among the mothers, 81 (48.8%) were illiterate, and 85 (51.2%) were literate. Post-treatment mean haemoglobin levels increased from 11.95 ± 1.02 g/dL to 12.74 ± 0.83 g/dL, serum ferritin levels from 30.73 ± 4.29 ng/mL to 32.87 ± 4.80 ng/mL, and MCV from 70.36 ± 3.81 fL to 74.49 ± 3.59 fL. Conclusion: Combination therapy with ferrous sulphate and vitamin C in pediatric patients with iron deficiency anaemia is well-tolerated and results in significant clinical improvement with minimal adverse reactions. This approach should be considered to enhance clinical outcomes, reduce morbidity, improve quality of life, and decrease healthcare costs.

Downloads

Download data is not yet available.

References

Saleem MK, Sattar K, Ejaz KF, Rehman MU, Saleem H, Khursheed S, et al. Use of telemedicine to tackle health problems in South Asia during the COVID-19 era and beyond a systematic review. Annals of Medicine and Surgery. 2024;86(2):1012-20.

Greffeuille V, Fortin S, Gibson R, Rohner F, Williams A, Young MF, et al. Associations between zinc and hemoglobin concentrations in preschool children and women of reproductive age: an analysis of representative survey data from the Biomarkers Reflecting Inflammation and Nutritional Determinants of Anemia (BRINDA) Project. The Journal of Nutrition. 2021;151(5):1277-85.

Turawa E, Awotiwon O, Dhansay MA, Cois A, Labadarios D, Bradshaw D, et al. Prevalence of anaemia, iron deficiency, and iron deficiency anaemia in women of reproductive age and children under 5 years of age in south africa (1997–2021): A systematic review. International Journal of Environmental Research and Public Health. 2021;18(23):12799.

Monisha S. To Study the Prevalence of Anemia in Antenatal Patients attending OPD in a Tertiary Care Centre: Madras Medical College, Chennai; 2022.

Camaschella C, Girelli D. The changing landscape of iron deficiency. Molecular Aspects of Medicine. 2020;75:100861.

Al-Naseem A, Sallam A, Choudhury S, Thachil J. Iron deficiency without anaemia: a diagnosis that matters. Clinical Medicine. 2021;21(2):107.

Romano AD, Paglia A, Bellanti F, Villani R, Sangineto M, Vendemiale G, et al. Molecular aspects and treatment of iron deficiency in the elderly. International Journal of Molecular Sciences. 2020;21(11):3821.

Shubham K, Anukiruthika T, Dutta S, Kashyap A, Moses JA, Anandharamakrishnan C. Iron deficiency anemia: A comprehensive review on iron absorption, bioavailability and emerging food fortification approaches. Trends in Food Science & Technology. 2020;99:58-75.

Basrowi RW, Dilantika C. Optimizing iron adequacy and absorption to prevent iron deficiency anemia: the role of combination of fortified iron and vitamin C. World Nutrition Journal. 2021;5(S1):33-9.

Aycicek A. Ferrous Sulfate Versus Ferrous Fumarate Plus Zinc Sulfate and Vitamin C for Treatment of Iron Deficiency Anemia in Children. Glob J Hematol Blood Transfus. 2015;2:15-9.

Rakanita Y, Sinuraya RK, Suradji EW, Suwantika AA, Syamsunarno MRA, Abdulah R. The Challenges in Eradication of Iron Deficiency Anemia in Developing Countries. Systematic Reviews in Pharmacy. 2020;11(5).

Albaroudi IN, Khodder M, Al Saadi T, Turk T, Youssef LA. Prevalence, diagnosis, and management of iron deficiency and iron deficiency anemia among Syrian children in a major outpatient center in Damascus, Syria. Avicenna Journal of Medicine. 2018;8(03):92-103.

Svenson N, Bailey J, Durairaj S, Dempsey‐Hibbert N. A simplified diagnostic pathway for the differential diagnosis of iron deficiency anaemia and anaemia of chronic disease. International Journal of Laboratory Hematology. 2021;43(6):1644-52.

Bendavid E, Boerma T, Akseer N, Langer A, Malembaka EB, Okiro EA, et al. The effects of armed conflict on the health of women and children. The Lancet. 2021;397(10273):522-32.

Tunkara-Bah H. Hepcidin-guided screen-and-treat for iron-deficiency anaemia in young children. The Lancet Global Health. 2023;11(1):e12-e3.

Ivanovska V, Rademaker CM, van Dijk L, Mantel-Teeuwisse AK. Pediatric drug formulations: a review of challenges and progress. Pediatrics. 2014;134(2):361-72.

Malik NA, Shah SA, Mashhadi SF. EVALUATION OF INJECTABLE IRON SUCROSE THERAPY IN CHILDREN WITH IRON DEFICIENCY ANEMIA: Injectable Iron Sucrose in Iron Deficiency Anemia. Pakistan Armed Forces Medical Journal. 2016;66(5):680-83.

Mahmood A, Ahmed P, Altaf C, Aziz S, Azim W. Clinicohaematological features of iron deficiency anemia in children between 1-5 years of age. Pakistan Journal of Pathology. 2006;17(3).

Ziaullah K, Nawaz S, Shah S, Talat A. Iron deficiency anemia as a cause of breath holding spells. Journal of Postgraduate Medical Institute. 2005;19(2).

Crary SE, Hall K, Buchanan GR. Intravenous iron sucrose for children with iron deficiency failing to respond to oral iron therapy. Pediatric blood & cancer. 2011;56(4):615-9.

Roganovic J, Mantadakis E. Parenteral iron therapy in children with iron deficiency anemia. World J Pediatr. 2016;12(1):122.

Downloads

Published

2024-05-27

How to Cite

NAZ, H., ZAFAR, Q., JAFFAR, M., KHAN, K., IBRAHIM, M., & BATOOL, S. (2024). COMPARATIVE EFFICACY OF FERROUS SULPHATE MONOTHERAPY VERSUS COMBINATION THERAPY WITH VITAMIN C IN PEDIATRIC IRON DEFICIENCY ANEMIA: A RANDOMIZED CONTROLLED TRIAL. Biological and Clinical Sciences Research Journal, 2024(1). https://doi.org/10.54112/bcsrj.v2024i1.843

Most read articles by the same author(s)

1 2 > >>