Correlation between red cell indices and serum ferritin level in pregnant women with latent iron deficiency

Authors

  • Farzana Farhin Khan Department of Obstetrics and Gynaecology, 100 Bedded District Hospital, Narsingdi, Bangladesh
  • Muna Shalima Jahan Department of Female Pelvic Medicine & Reconstructive Surgery, Dhaka Medical College Hospital, Dhaka, Bangladesh
  • M. Irin Nahar Department of Obstetrics and Gynaecology, Rajshahi Medical College Hospital, Rajshahi, Bangladesh
  • Rahana Parvin Department of Obstetrics and Gynecology, Army Medical College, Rangpur, Bangladesh
  • Nusrat Jahan Eva Department of Obstetrics and Gynecology, Government Unani and Ayurvedic Medical College, Dhaka, Bangladesh
  • Naorin Ahmed Upazila Health Complex, Kaliakoir, Gazipur, Bangladesh
  • M. Karimatun Nesa Upazila Health Complex, Kaliakoir, Gazipur, Bangladesh

DOI:

https://doi.org/10.18203/2320-1770.ijrcog20254256

Keywords:

Latent iron deficiency, Pregnancy, Red cell indices, Serum ferritin

Abstract

Background: Latent iron deficiency (LID), defined as iron depletion without anemia, frequently precedes iron deficiency anemia in pregnancy and is associated with adverse maternal and fetal outcomes. Serum ferritin is the gold standard for assessing iron stores but is often unavailable in low-resource settings. Readily obtainable red cell indices may serve as practical alternatives for identifying early iron deficiency. This study aimed to evaluate the relationship between red cell indices and serum ferritin levels among pregnant women with latent iron deficiency.

Methods: This cross-sectional analytical study was conducted at Sir Salimullah Medical College Mitford Hospital, Dhaka, including 205 non-anemic pregnant women in their second trimester. Complete blood count and serum ferritin were assessed using automated analyzers. Participants were categorized as latent iron-deficient (ferritin <30 µg/L) or non-deficient (≥30 µg/l). Group differences were compared using independent t-tests, and correlations between red cell indices and ferritin levels were analyzed using Pearson’s test.

Results: Mean MCV and MCH were lower in the latent iron-deficient group, though not significantly (p>0.05). RDW-CV% was significantly higher in LID women (15.3±1.6 vs 14.1±1.6, p<0.001). A significant negative correlation was observed between RDW-CV% and serum ferritin (r = -0.347, p<0.001).

Conclusions: RDW-CV% demonstrates a strong negative correlation with serum ferritin and may be used as a sensitive hematologic marker for early detection of latent iron deficiency in pregnancy. Integrating RDW interpretation into routine antenatal blood count assessments can improve screening and management of iron deficiency in resource-limited settings.

References

Garzon S, Cacciato PM, Certelli C, Salvaggio C, Magliarditi M, Rizzo G. Iron deficiency anemia in pregnancy: Novel approaches for an old problem. Oman Medi J. 2020;35(5):e166.

Breymann C. Iron deficiency anemia in pregnancy. In Seminars in hematology. 2015;52(4):339-47.

Daru J, Colman K, Stanworth SJ, De La Salle B, Wood EM, Pasricha SR. Serum ferritin as an indicator of iron status: what do we need to know? Am J Clin Nutrit. 2017;106:1634S-9S.

Pavord S, Myers B, Robinson S, Allard S, Strong J, Oppenheimer C, British Committee for Standards in Haematology. UK guidelines on the management of iron deficiency in pregnancy. Brit J Haematol. 2012;156(5):588-600.

Briggs C, Bain BJ. Basic haematological techniques. Dacie Lewis Pract Haematol. 2012;11:23-56.

Rabindrakumar MS, Pujitha Wickramasinghe V, Gooneratne L, Arambepola C, Senanayake H, Thoradeniya T. The role of haematological indices in predicting early iron deficiency among pregnant women in an urban area of Sri Lanka. BMC Hematol. 2018;18(1):37.

Tiwari M, Kotwal J, Kotwal A, Mishra P, Dutta V, Chopra S. Correlation of haemoglobin and red cell indices with serum ferritin in Indian women in second and third trimester of pregnancy. Med J Armed Forces India. 2013;69(1):31-6.

Sultana GS, Haque SA, Sultana T, Rahman Q, Ahmed AN. Role of red cell distribution width (RDW) in the detection of iron deficiency anemia in pregnancy within the first 20 weeks of gestation. Bangl Med Res Coun Bullet. 2011;37(3):102-5.

Teichman J, Nisenbaum R, Lausman A, Sholzberg M. Suboptimal iron deficiency screening in pregnancy and the impact of socioeconomic status in a high-resource setting. Blood Adv. 2021;5(22):4666-73.

De Silva HN, Williams S, Moratuwagama D, Siriwardena I, Mandal A, Motha C, et al. Prevalence of latent iron deficiency in early pregnancy in a tertiary care hospital in Sri Lanka. Brit J Haematol. 2020;189:83-4.

Urrechaga E, Borque L, Escanero JF. Clinical value of hypochromia markers in the detection of latent iron deficiency in nonanemic premenopausal women. J Clin Laborat Analy. 2016;30(5):623-7.

Lopez A, Cacoub P, Macdougall IC, Peyrin-Biroulet L. Iron deficiency anaemia. Lancet. 2016;387(10021):907-16.

Lee KH, Park HW, Cho JG, Yoon NS, Kim SS, Kim MR, et al. Red cell distribution width as a novel predictor for clinical outcomes in patients with paroxysmal atrial fibrillation. EP Europace. 2016;17(suppl_2):ii83-8.

Yousefi B, Sanaie S, Ghamari AA, Soleimanpour H, Karimian A, Mahmoodpoor A. Red cell distribution width as a novel prognostic marker in multiple clinical studies. Ind Soci Crit Care Medi. 2020;24(1):49.

Fava C, Cattazzo F, Hu ZD, Lippi G, Montagnana M. The role of red blood cell distribution width (RDW) in cardiovascular risk assessment: useful or hype? Ann Translat Med. 2019;7(20):581.

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Published

2025-12-29

How to Cite

Khan, F. F., Jahan, M. S., Nahar, M. I., Parvin, R., Eva, N. J., Ahmed, N., & Nesa, M. K. (2025). Correlation between red cell indices and serum ferritin level in pregnant women with latent iron deficiency. International Journal of Reproduction, Contraception, Obstetrics and Gynecology, 15(1), 33–37. https://doi.org/10.18203/2320-1770.ijrcog20254256

Issue

Vol. 15 No. 1 (2026): January 2026

Section

Original Research Articles
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