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Abstract
ABSTRACT
Introduction. Although malaria is the most common cause of anemia in children in our context, it is still common practice for health practitioners to prescribe iron to patients with anemia based only on red blood cell indices. The assessment of iron stores is not common practice. Objective. To report the prevalence of iron deficiency in acute anemia among children received at the Yaoundé Gyneco-Obstetric and Pediatric Hospital in an infectious context. Methodology. This was a cross-sectional study over a period of 6 months, including 1451 Children with infection; aged 6 months to 15 years. Laboratory tests included, full blood count, septic screen depending on the clinical presentation, malaria test, direct stool examination, measurement of iron and ferritin levels in those presenting with biological anemia. The Chi² test was used for comparison and the association between qualitative variables; the threshold of significance was 0.05. Results. The sex ratio was 1.27. Children aged 6 to 60 months accounted for 72.9%. Malaria accounted for 68.8% of etiologies. Two-thirds (57.2%) of the patients had biological anemia of which 19.1% were severe. Hypochromic microcytic anemia was more frequent (41.2%) and mostly (83.6%) in children less than 5 years. Serum iron and ferritin levels were measured in 64 patients among whom only 14 of them had low serum iron levels and 2 with low serum ferritin levels. Conclusion. The prevalence of anemia in children received for infectious problems was high but almost all the children had normal or high iron.
RÉSUMÉ
Introduction. Le paludisme est la première cause d'anémie chez l’enfant camerounais. La prescription de fer au cours d’anémies en contexte infectieux est basée sur les indices érythrocytaires. L'évaluation des réserves en fer n'est pas courante. Objectif. Déterminer la prévalence de la carence en fer au cours des anémies aiguës en contexte infectieux chez l’enfant reçu à HGOPY. Méthodologie. Il s'agissait d'une étude prospective transversale analytique portant sur 1451 enfants âgés de 6 mois à 15 ans. Après examen clinique nous avons réalisé une Numération Formule Sanguine, un bilan infectieux selon l’orientation, un dépistage du paludisme, et l’examen direct des selles. Le fer sérique et la férritinémie ont été mesurés chez les patients présentant une anémie biologique. Le test Chi² a été utilisé pour la comparaison et l'association entre les variables qualitatives. Le seuil de significativité était de 0,05. Résultats. Le sex-ratio était de 1,27 et 1058 (72,9%) enfants compris entre 6 et 60 mois. Deux tiers (57,2%) des enfants avaient une anémie biologique et 11% étaient sévères. Les anémies microcytaires hypochromes étaient plus fréquentes (41,2%), à majorité chez les moins de 2 ans (76,2%). Le paludisme représentait 2/3 (68,8%) des étiologies. Les taux sériques de fer et de ferritine mesurés chez 64 patients révélaient une hyposidérémie chez 14 (21,9%) et seulement 2 (3,1%) avaient une hypoférritinémie. Conclusion. L’anémie est fréquente chez les enfants en contexte infectieux. Cependant, leurs réserves de fer sont pour la majorité normales ou élevées. La supplémentation systématique dans ces cas n'est pas justifiée.
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References
- WHO | Haemoglobin concentrations for the diagnosis of anaemia and assessment of severity [Internet]. WHO. [cited 2017 Mar 4]. Available from: http://www.who.int/vmnis/indicators/haemoglobin/en/
- Janus J, Sarah K. Moerschel. Evaluation of anemia in children. Am Fam Physician. 2010 Jun 15;81(12):1462–71.
- Mary Wang. Iron Deficiency Anemia and Other types of Anemia in Infants and Children. Am Fam Physician. 2016 Feb 15;93(4):270–8.
- Institut National de la Statistique (INS) et ICF. International. 2012. Enquête Démographique et de Santé et à Indicateurs Multiples du Cameroun 2011 [Internet]. Calverton, Maryland, USA: INS et ICF International; 2011 p. 174. Available from: www.dhsprogram.com/pubs/pdf/fr260.pgf
- Kago I, Doumbe P, Ngoh EJ, Tene G T, Ghogomou E, Monny LM, et al. Anémie sévère de l’enfant au Centre Mère et Enfant de la Fondation Chantal Biya de Yaoundé, Cameroun. Aspects épidémiologiques, cliniques et étiologiques. Bull Soc Path Exot. 93(1):68–78.
- Nguefack F, Chelo D, Tejiokem MC, Pondy A, Njiki kinkela MJ, Dongmo R, et al. Fréquence des anémies sévères chez les enfants âgés de 2 mois à 15 ans au Centre Mère et Enfant de la Fondation Chantal Biya, Yaoundé, Cameroun. Pan Afr Med J [Internet]. 2012 Jun 23 [cited 2017 Mar 4];12. Available from: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3428166/
- World Health Organization. Turning the tide of malnutrition : responding to the challenge of the 21st century. WHO [Internet]. 2000 [cited 2017 Mar 3]; Available from: http://apps.who.int/iris/bitstream/10665/66505/1/WHO_NHD_00.7.pdf
- Ministère de la Santé Publique du Cameroun. Le point de lutte contre le paludisme. 2009 juin. Report No.: 2.
- Ojukwu JU, Okebe JU, Yahav D, Paul M. Oral iron supplementation for preventing or treating anaemia among children in malaria-endemic areas. Cochrane Database Syst Rev. 2009 Jul 8;(3):CD006589.
- Organisation Mondiale de la Santé (OMS. Les anémies nutritionnelles. Génève; 1972.
- Punnonen K, Irjala K, Rajamäki A. Serum Transferrin Receptor and Its Ratio to Serum Ferritin in the Diagnosis of Iron Deficiency. Blood. 1997 Feb 1;89(3):1052–7.
- Cook JD, Lipschitz DA, Miles LEM, Finch CA. Serum ferritin as a measure of iron stores in normal subjects. Am J Clin Nutr. 1974 Jul 1;27(7):681–7.
- Mbanya D, Tagny CT, Akamba A, Mekongo MO, Tetanye E. Étiologies de l’anémie chez l’enfant africain de 5 à 10 ans. Cah Détudes Rech Francoph Santé. 2008 Dec 30;18(4):227–30.
- Abissey A, Mignonsin D, Vilasco B, Bondurand A. Apport de l’hémogramme dans la classification des anémies. Med Afr Noire. 2008 Dec;38(11):227–30.
- Atanda HL, Bon JC, Force-barge P, Porte J, Rodier J. Contribution à l’étude de la prévalence de l’anémie chez l’enfant en milieu tropical - CMS. Elf-Congo - Pointe-Noire. Med Afr Noire. 1997;44(1):40–4.
- Male C, Persson LA, Freeman V, Guerra A, van’t Hof MA, Haschke F, et al. Euro-Growth Iron Study Group. Prevalence of iron deficiency in 12-mo-old infants from 11 European areas and influence of dietary factors on iron status (Euro-Growth study). Acta Pædiatr. 2001;90:492–498.
- Frank P, Mokhenhaupt, Jurgen M, Klaus S, Adeyinka GF, Meyer CG, et al. Serum transferring receptor levels are increased in asymptomatic and mild Plasmodium falciparum infectin. Haemetologica. 84(10).
- Forlack EA, Obama MA, Owono MB, Manga E, Same-Ekobo A, Ondoa MM, et al. Clinical presentation of severe malaria in children in two district hospitals in Cameroon. Clin Mother Child Health [Internet]. 2005 Jan 1 [cited 2017 Mar 3];2(1). Available from: http://www.ajol.info/index.php/cmch/article/view/35777
- Tchokoteu P, Bitchong-Ekono C, Tietche F, Tapko J, Same Ekobo A, Douala-Mouteng V, et al. [Severe forms of malaria in children in a general hospital pediatric department in Yaounde, Cameroon]. Bull Soc Pathol Exot 1990. 1999 Jul;92(3):153–6.
- Kalenga MK, Nyembo MK, Nshimba M, Foidart JM. [Anemia associated with malaria and intestinal helminthiasis in Lubumbashi]. Sante Publique Vandoeuvre--Nancy Fr. 2003 Dec;15(4):413–21.
- Ategbo S, Minto’o S, Koko J, Doukaga A, Moussavou A, Milama EN. Laboratory Elements For Accurate Detection Of Iron Deficiency In Resource-Limited Settings Of Africa. Clin Mother Child Health [Internet]. 2009 Jan 1 [cited 2017 Mar 2];6(1). Available from: http://www.ajol.info/index.php/cmch/article/view/44736
- Intragumtornchai T, Rojnukkarin P, Swasdikul D, Israsena S. The role of serum ferritin in the diagnosis of iron deficiency anaemia in patients with liver cirrhosis. J Intern Med. 1998 Mar;243(3):233–41.
- Cook JD. Clinical evaluation of iron deficiency. Semin Hematol. 1982 Jan;19(1):6–18.
- Kis AM, Carnes M. Detecting Iron Deficiency in Anemic Patients with Concomitant Medical Problems. J Gen Intern Med. 1998 Jul;13(7):455–61.
- Bergeret B, Bascoulergue P. Le fer sérique chez l’enfant africain de Yaoundé. Extr Médécine Trop. 1961 Oct;Vol XXI(5):531–7.
- Lima ACVMS, Lima MC, Guerra MQF, Romani SAM, Eickmann SH, Lira PIC. Impact of weekly treatment with ferrous sulfate on hemoglobin level, morbidity and nutritional status of anemic infants. J Pediatr (Rio J). 2006 Dec;82(6):452–7.
- Eisenhut M. Exacerbation of infectious diseases by iron supplementation. J Pediatr (Rio J). 2007 Feb;83(1):95–6.
References
WHO | Haemoglobin concentrations for the diagnosis of anaemia and assessment of severity [Internet]. WHO. [cited 2017 Mar 4]. Available from: http://www.who.int/vmnis/indicators/haemoglobin/en/
Janus J, Sarah K. Moerschel. Evaluation of anemia in children. Am Fam Physician. 2010 Jun 15;81(12):1462–71.
Mary Wang. Iron Deficiency Anemia and Other types of Anemia in Infants and Children. Am Fam Physician. 2016 Feb 15;93(4):270–8.
Institut National de la Statistique (INS) et ICF. International. 2012. Enquête Démographique et de Santé et à Indicateurs Multiples du Cameroun 2011 [Internet]. Calverton, Maryland, USA: INS et ICF International; 2011 p. 174. Available from: www.dhsprogram.com/pubs/pdf/fr260.pgf
Kago I, Doumbe P, Ngoh EJ, Tene G T, Ghogomou E, Monny LM, et al. Anémie sévère de l’enfant au Centre Mère et Enfant de la Fondation Chantal Biya de Yaoundé, Cameroun. Aspects épidémiologiques, cliniques et étiologiques. Bull Soc Path Exot. 93(1):68–78.
Nguefack F, Chelo D, Tejiokem MC, Pondy A, Njiki kinkela MJ, Dongmo R, et al. Fréquence des anémies sévères chez les enfants âgés de 2 mois à 15 ans au Centre Mère et Enfant de la Fondation Chantal Biya, Yaoundé, Cameroun. Pan Afr Med J [Internet]. 2012 Jun 23 [cited 2017 Mar 4];12. Available from: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3428166/
World Health Organization. Turning the tide of malnutrition : responding to the challenge of the 21st century. WHO [Internet]. 2000 [cited 2017 Mar 3]; Available from: http://apps.who.int/iris/bitstream/10665/66505/1/WHO_NHD_00.7.pdf
Ministère de la Santé Publique du Cameroun. Le point de lutte contre le paludisme. 2009 juin. Report No.: 2.
Ojukwu JU, Okebe JU, Yahav D, Paul M. Oral iron supplementation for preventing or treating anaemia among children in malaria-endemic areas. Cochrane Database Syst Rev. 2009 Jul 8;(3):CD006589.
Organisation Mondiale de la Santé (OMS. Les anémies nutritionnelles. Génève; 1972.
Punnonen K, Irjala K, Rajamäki A. Serum Transferrin Receptor and Its Ratio to Serum Ferritin in the Diagnosis of Iron Deficiency. Blood. 1997 Feb 1;89(3):1052–7.
Cook JD, Lipschitz DA, Miles LEM, Finch CA. Serum ferritin as a measure of iron stores in normal subjects. Am J Clin Nutr. 1974 Jul 1;27(7):681–7.
Mbanya D, Tagny CT, Akamba A, Mekongo MO, Tetanye E. Étiologies de l’anémie chez l’enfant africain de 5 à 10 ans. Cah Détudes Rech Francoph Santé. 2008 Dec 30;18(4):227–30.
Abissey A, Mignonsin D, Vilasco B, Bondurand A. Apport de l’hémogramme dans la classification des anémies. Med Afr Noire. 2008 Dec;38(11):227–30.
Atanda HL, Bon JC, Force-barge P, Porte J, Rodier J. Contribution à l’étude de la prévalence de l’anémie chez l’enfant en milieu tropical - CMS. Elf-Congo - Pointe-Noire. Med Afr Noire. 1997;44(1):40–4.
Male C, Persson LA, Freeman V, Guerra A, van’t Hof MA, Haschke F, et al. Euro-Growth Iron Study Group. Prevalence of iron deficiency in 12-mo-old infants from 11 European areas and influence of dietary factors on iron status (Euro-Growth study). Acta Pædiatr. 2001;90:492–498.
Frank P, Mokhenhaupt, Jurgen M, Klaus S, Adeyinka GF, Meyer CG, et al. Serum transferring receptor levels are increased in asymptomatic and mild Plasmodium falciparum infectin. Haemetologica. 84(10).
Forlack EA, Obama MA, Owono MB, Manga E, Same-Ekobo A, Ondoa MM, et al. Clinical presentation of severe malaria in children in two district hospitals in Cameroon. Clin Mother Child Health [Internet]. 2005 Jan 1 [cited 2017 Mar 3];2(1). Available from: http://www.ajol.info/index.php/cmch/article/view/35777
Tchokoteu P, Bitchong-Ekono C, Tietche F, Tapko J, Same Ekobo A, Douala-Mouteng V, et al. [Severe forms of malaria in children in a general hospital pediatric department in Yaounde, Cameroon]. Bull Soc Pathol Exot 1990. 1999 Jul;92(3):153–6.
Kalenga MK, Nyembo MK, Nshimba M, Foidart JM. [Anemia associated with malaria and intestinal helminthiasis in Lubumbashi]. Sante Publique Vandoeuvre--Nancy Fr. 2003 Dec;15(4):413–21.
Ategbo S, Minto’o S, Koko J, Doukaga A, Moussavou A, Milama EN. Laboratory Elements For Accurate Detection Of Iron Deficiency In Resource-Limited Settings Of Africa. Clin Mother Child Health [Internet]. 2009 Jan 1 [cited 2017 Mar 2];6(1). Available from: http://www.ajol.info/index.php/cmch/article/view/44736
Intragumtornchai T, Rojnukkarin P, Swasdikul D, Israsena S. The role of serum ferritin in the diagnosis of iron deficiency anaemia in patients with liver cirrhosis. J Intern Med. 1998 Mar;243(3):233–41.
Cook JD. Clinical evaluation of iron deficiency. Semin Hematol. 1982 Jan;19(1):6–18.
Kis AM, Carnes M. Detecting Iron Deficiency in Anemic Patients with Concomitant Medical Problems. J Gen Intern Med. 1998 Jul;13(7):455–61.
Bergeret B, Bascoulergue P. Le fer sérique chez l’enfant africain de Yaoundé. Extr Médécine Trop. 1961 Oct;Vol XXI(5):531–7.
Lima ACVMS, Lima MC, Guerra MQF, Romani SAM, Eickmann SH, Lira PIC. Impact of weekly treatment with ferrous sulfate on hemoglobin level, morbidity and nutritional status of anemic infants. J Pediatr (Rio J). 2006 Dec;82(6):452–7.
Eisenhut M. Exacerbation of infectious diseases by iron supplementation. J Pediatr (Rio J). 2007 Feb;83(1):95–6.