A Comparison between Serum 25-Hydroxyvitamin D3 Levels and Serum Ferritin in Children and Adolescents with Iron Deficiency Anemia, Thalassemia Minor, Thalassemia Major and Healthy People
-
Akram Hemmatipour
,
Bijan Kikhaei
,
Razieh Jalkani
,
Mansour Ahmadnejad
,
Farhad Soleimanzadeh
,
Dariush Rokhafrooz
Abstract
Background: We aimed to determine the level of serum vitamin D and serum ferritin in four groups’ children and adolescents.
Methods: This descriptive/analytical study was conducted in 2019 on children and adolescents with thalassemia aged 7-18 years in Ahvaz, Iran. Overall, 160 patients with the target inclusion and exclusion criteria were assigned into four groups (n=40) of people with thalassemia minor, thalassemia major, iron deficiency anemia and healthy individuals. The level of ferritin and vitamin D was assessed. Mann-Whitney test, Wilcoxon test and Spearman's correlation test were used as well as SPSS Statistics V21.
Results: The mean age of the participants was 13.07 ± 3.82 yr and 100 people (62.5%) were male. In terms of vitamin D deficiency, 16 people (40%) had severe deficiency in iron deficiency group. The highest level of ferritin was found in thalassemia major group and the lowest in iron deficiency group. Regarding the level of vitamin D and ferritin in the healthy group, there was a statistically significant difference between mean vitamin D and serum ferritin levels (P=0.027). In iron deficiency group, this level of ferritin was observed with mild deficiency (P=0.017). In thalassemia major group, the increase in ferritin was associated with severe vitamin D deficiency (P=0.05.
Conclusion: Severe vitamin D is seen in thalassemia major due to the increase in ferritin, but moderate deficiency of this vitamin in healthy people and mild deficiency in iron deficiency anemia group was observed considering the normal levels of ferritin.
2. Atkinson MA, Melamed ML, Kumar J, et al (2014). Vitamin D, race, and risk for anemia in children. J Pediatr, 164(1): 153–158.e1.
3. Lutter CK (2008). Iron deficiency in young children in low-income countries and new approaches for its prevention. J Nutr, 138(12): 2523–2528.
4. Beucher G, Grossetti E, Simonet T, et al (2011). [Iron deficiency anemia and pregnancy. Prevention and treatment]. J Gynecol Obstet Biol Reprod (Paris), 40(3): 185–200.
5. Stoltzfus RJ (2003). Iron deficiency: global prevalence and consequences. Food Nutr Bull, 24(4 Suppl):S99-103.
6. Shahi H, Reiisi S, Bahreiny R (2017). Rela-tionship between Helicobacter Pylori CagA+ Infection and Iron Deficiency Anemia in Children under 5 Years of Age. J Mazandaran Univ Med Sci, 26(144): 362-366.
7. Khorasaninejad R, Roshandel GH, Ayatol-lahi AA, et al (2013). The comparison of serum vitamin D level in patients with iron deficiency anemia and minor tha-lassemia. Medical Laboratory Journal, 7(3): 24-30.
8. Muncie HL, & Campbell J (2009). Alpha and beta thalassemia. Am Fam Physician, 80(4): 339–344.
9. Maleki E, Daei MH, Frahmandi Nia Z, et al (2016). The relationship between plasma level of 25-hydroxy vitamin D3 and plasma ferritin level in children with thalassemia major. Afzalipour Journal of Clinical Research, 1(1): 9-18.
10. Kazemi S, ZIAEE S, Kazemnejad A, et al (2017). Maternal Neonatal Anthropo-metric Indices With Beta Thalassemia Minor. Nursing and Midwifery Journal, 15 (4) :263-269.
11. Heshmat R, Mohammad K, Majdzadeh SR, et al (2008). A supplementary issue on osteoporosis and bone turnover. Iran J Pubilc Health, 37(1):72-78.
12. Onsori F, Ahmadi A, Salimian J (2017). Study of relationship between serum vit-amin D level and IgE in allergic chil-dren. J Shahrekord Univ Med Sci, 18(6): 18-25.
13. Uush T (2013). Prevalence of classic signs and symptoms of rickets and vitamin D deficiency in Mongolian children and women. J Steroid Biochem Mol Biol, 136: 207–210.
14. Albayrak C, Albayrak D (2013). Vitamin D deficiency in children with beta thalas-semia major and intermedia Beta ta-lasemi major ve İntermediali {dotless} çocuklarda vitamin D eksikliǧi. Turkiye Klinikleri Journal of Medical Sciences, 33(4):1058-63.
15. Nur-Eke R, Özen M (2020). The Relation-ship between Vitamin D Levels and Iron Deficiency and Anemia in Adults Applied for Periodic Medical Examina-tion. Clin Lab, 66(6):10.7754/Clin.Lab.2019.190918.
16. Tzoulis P, Ang A L, Shah FT, et al (2014). Prevalence of low bone mass and vita-min D deficiency in β-thalassemia ma-jor. Hemoglobin, 38(3): 173–178.
17. Napoli N, Carmina E, Bucchieri S, et al (2006). Low serum levels of 25-hydroxy vitamin D in adults affected by thalas-semia major or intermedia. Bone, 38(6): 888–892.
18. Abdelmotaleb GS, Behairy OG, El Azim KE A, et al (2021). Assessment of serum vitamin D levels in Egyptian children with beta-thalassemia major. Egypt Pae-diatr Assoc Gaz, 69: 20.
19. Tharwat RJ, Balilah S, Habib HM, et al (2019). Ferritin and Vitamin D levels and its relation to bone diseases in tha-lassemic adults: A hospital-based retro-spective cohort study. J Appl Hematol, 10(1): 15-22.
20. Cagliyan GA, Yaylalı GF, Soyer N, et al (2021). Relationship Between Endo-crinopathies and Ferritin Levels in Adult Turkish Patients with Beta Thalassemia Major: A Single-Center Experience. Erciyes Med J, 43(1): 37–42
21. Gul HF, Bozkurt HB, Özbolat G, et al (2021). A data analysis study: is there a relationship between 25 (OH) D defi-ciency and iron-deficient anaemia in the pediatric population? Turk J Biochem, 46(1): 89-95.
22. Monlezun DJ, Camargo CA, Jr Mullen JT, et al (2015). Vitamin D Status and the Risk of Anemia in Community-Dwelling Adults: Results from the National Health and Nutrition Examination Survey 2001-2006. Medicine (Baltimore), 94(50): e1799.
23. Gombar S, Parihar K, Choudhary M, et al (2018). Comparative study of serum fer-ritin and vitamin D in thalassemia pa-tients with healthy controls. Int J Res Med Sci, 6:693-695.
24. Saki F, Salehifar A, Kassaee SR, et al (2020). Association of vitamin D and FGF23 with serum ferritin in hypoparathyroid thalassemia: a case control study. BMC Nephrol, 21(1): 482.
25. Wood JC, Claster S, Carson S, et al (2008). Vitamin D deficiency, cardiac iron and cardiac function in thalassaemia major. Br J Haematol, 141(6): 891–894.
26. Shaykhbaygloo R, Moradabadi A, Tahe-rahmadi H, et al (2020). Correlation of Cardiac and Liver Iron Level with T2*MRI and Vitamin D3 Serum Level in Patients with Thalassemia Major. J Blood Med, 11: 83–87.
27. Nakavachara P, Chaichanwattanakul K, Viprakasit V (2013). Non-transfusion de-pendent hemoglobin E/β thalassemia had high prevalence of vitamin D defi-ciency than more severe patients who received regular blood transfusion and iron chelation therapy. Int J Pediatr En-docrinol, 2013(Suppl 1): P165.
28. Sharma S, Jain R, Dabla PK (2015). The Role of 25-Hydroxy Vitamin D Defi-ciency in Iron Deficient Children of North India. Indian J Clin Biochem, 30(3): 313–317.
| Files | ||
| Issue | Vol 53 No 6 (2024) | |
| Section | Original Article(s) | |
| Keywords | ||
| Vitamin D Ferritin Thalassemia minor Thalassemia major Iron deficiency | ||
| Rights and permissions | |
|
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License. |
