Erythrocyte indices in the second trimester of pregnancy: are reference values well established?

Bresani, Cristiane C.; Souza, Ariani I.; Batista Filho, Malaquias

doi:10.1590/S1516-84842009005000007

Abstracts

The erythrocyte index values in the pregnancy-puerperal cycle behave in a particular manner, however, the physiological or nosological meaning of such alterations are not well established. This study was aimed at analyzing the distribution of erythrocyte indices in the second trimester of pregnancy. The study was carried out with secondary data from 347 pregnant women in the 2nd trimester of low-risk prenatal care at the Instituto Materno Infantil Professor Fernando Figueira (Recife, Brazil) between May 2000 and June 2001. Measurements were performed using an automatic counter. Frequency distribution curves of erythrocyte indices (means and standard deviations) and correlation curves of hematocrit (HTC) and hemoglobin (Hb) concentrations were constructed. The mean red blood cell number (RBC) was 3.7 x 10(12)cells/L; mean HTC was 32.9% and mean Hb was 10.8 g/dL; the values exhibited Gaussian distributions. The mean morphological values were 88.4 fL for the mean corpuscular volume; 29.0 pg for the mean corpuscular hemoglobin and 32.8 g/dL for the mean corpuscular hemoglobin concentration; these values were not adjusted to Normal distributions. HTC values were three times higher than Hb values. Mean RBC, HTC and Hb values (used in the diagnosis of anemia) were lower than thresholds considered normal and exhibited Gaussian distributions. Morphological indices remained within normal ranges, but without delineating a Normal curve. As expected HTC and Hb values behaved following a linear correlation.

Anemia; iron deficiency; prenatal care; erythrocyte indices; pregnancy

Os valores dos índices eritrocitários comportam-se de maneira particular no ciclo grávido-puerperal, entretanto, o significado fisiológico ou nosológico de tais alterações não está bem estabelecido. Este estudo objetivou analisar as distribuições dos índices eritrocitários no segundo trimestre da gestação. O estudo foi realizado baseando-se em dados secundários de 347 gestantes de 2º trimestre do pré-natal de baixo risco do Instituto Materno Infantil Prof. Fernando Figueira (Recife - Brasil), entre maio de 2000 e junho de 2001. Foram construídas curvas de distribuição de freqüências dos índices eritrocitários, com médias e desvios-padrão, e curva de correlação dos valores de hematócrito (HTC) e de concentração de hemoglobina (Hb), mensurados por contador automático. O valor médio da hematimetria foi 3,7 x 10(12) células/L; do HTC, 32,9% e da Hb, 10,8 g/dL, apresentando distribuições gaussianas. As médias foram para volume corpuscular médio de 88,4 fL; hemoglobina corpuscular média de 29,0 pg e concentração de hemoglobina corpuscular média de 32,8 g/dL, não ajustadas à distribuição normal. Os valores de HTC corresponderam a três vezes os de Hb. Hematimetria, HTC e Hb - utilizados para diagnóstico de anemia - foram, em média, inferiores aos limites considerados normais, apresentando distribuições gaussianas. Os índices morfológicos mantiveram-se nas faixas consideradas normais, porém sem delinear curva Normal. O HTC e Hb apresentaram a correlação linear esperada.

Anemia; anemia ferropriva; cuidado pré-natal; índices de eritrócitos; gravidez

ARTIGO ARTICLE

Erythrocyte indices in the second trimester of pregnancy: are reference values well established?

Índices eritrocitários no segundo trimestre da gravidez: os valores de referência estão bem estabelecidos?

Cristiane C. Bresani^I; Ariani I. Souza^II; Malaquias Batista Filho^III

^IMédica. Preceptora do Programa de Residência em Clínica Médica do IMIP, professora do Curso de Medicina da Escola Pernambucana de Saúde FBV-IMIP

^IIMédica. Professora do Curso de Medicina da Escola Pernambucana de Saúde FBV-IMIP

^IIIMédico. Docente da Pós-graduação em Saúde Materno Infantil do IMIP, bolsista de produtividade do CNPq

^{Correspondência} Correspondência: Cristiane Campello Bresani Departamento de Pesquisa do Instituto Materno Infantil Professor Fernando Figueira (IMIP) - Grupo de Estudos em Clínica Médica. Rua dos Coelhos, 300 Boa Vista 50070-550 Recife-PE Brasil Tel. (+55 81) 2122-4779 Fax. (+55 81) 2122-4782 Email: crisbresani@terra.com.br

ABSTRACT

The erythrocyte index values in the pregnancy-puerperal cycle behave in a particular manner, however, the physiological or nosological meaning of such alterations are not well established. This study was aimed at analyzing the distribution of erythrocyte indices in the second trimester of pregnancy. The study was carried out with secondary data from 347 pregnant women in the 2nd trimester of low-risk prenatal care at the Instituto Materno Infantil Professor Fernando Figueira (Recife, Brazil) between May 2000 and June 2001. Measurements were performed using an automatic counter. Frequency distribution curves of erythrocyte indices (means and standard deviations) and correlation curves of hematocrit (HTC) and hemoglobin (Hb) concentrations were constructed. The mean red blood cell number (RBC) was 3.7 x 10¹²cells/L; mean HTC was 32.9% and mean Hb was 10.8 g/dL; the values exhibited Gaussian distributions. The mean morphological values were 88.4 fL for the mean corpuscular volume; 29.0 pg for the mean corpuscular hemoglobin and 32.8 g/dL for the mean corpuscular hemoglobin concentration; these values were not adjusted to Normal distributions. HTC values were three times higher than Hb values. Mean RBC, HTC and Hb values (used in the diagnosis of anemia) were lower than thresholds considered normal and exhibited Gaussian distributions. Morphological indices remained within normal ranges, but without delineating a Normal curve. As expected HTC and Hb values behaved following a linear correlation.

Key words: Anemia; iron deficiency; prenatal care; erythrocyte indices; pregnancy.

RESUMO

Os valores dos índices eritrocitários comportam-se de maneira particular no ciclo grávido-puerperal, entretanto, o significado fisiológico ou nosológico de tais alterações não está bem estabelecido. Este estudo objetivou analisar as distribuições dos índices eritrocitários no segundo trimestre da gestação. O estudo foi realizado baseando-se em dados secundários de 347 gestantes de 2º trimestre do pré-natal de baixo risco do Instituto Materno Infantil Prof. Fernando Figueira (Recife - Brasil), entre maio de 2000 e junho de 2001. Foram construídas curvas de distribuição de freqüências dos índices eritrocitários, com médias e desvios-padrão, e curva de correlação dos valores de hematócrito (HTC) e de concentração de hemoglobina (Hb), mensurados por contador automático. O valor médio da hematimetria foi 3,7 x 10¹² células/L; do HTC, 32,9% e da Hb, 10,8 g/dL, apresentando distribuições gaussianas. As médias foram para volume corpuscular médio de 88,4 fL; hemoglobina corpuscular média de 29,0 pg e concentração de hemoglobina corpuscular média de 32,8 g/dL, não ajustadas à distribuição normal. Os valores de HTC corresponderam a três vezes os de Hb. Hematimetria, HTC e Hb utilizados para diagnóstico de anemia foram, em média, inferiores aos limites considerados normais, apresentando distribuições gaussianas. Os índices morfológicos mantiveram-se nas faixas consideradas normais, porém sem delinear curva Normal. O HTC e Hb apresentaram a correlação linear esperada.

Palavras-chave: Anemia; anemia ferropriva; cuidado pré-natal; índices de eritrócitos; gravidez.

Introduction

Threshold erythrocyte indices values define anemia and its classifications, but vary with age, gender and physiological conditions such as pregnancy.^1-3 Red blood cells number (RBC), haematocrit (HTC) and hemoglobin concentration (Hb) values indicate the erythroid mass, the reduction of which results in anemia.^1,2 Mean corpuscular volume (MCV), mean corpuscular hemoglobin (MCH) and mean corpuscular hemoglobin concentration (MCHC) indicate the morphology (size and degree of hemoglobinization) of the red blood cells, theoretically associated to the cause and functional classification of anemia.¹ The erythrocyte indices behave in a Gaussian manner in the general population.

The RBC, HTC and Hb values in the pregnancy-puerperal cycle behave following a physiological curve (concavity turned upward), with the lowest point between the 24^th and 28^th weeks of pregnancy and a gradual increase from this point until birth, returning to initial levels in approximately the 6^th week postpartum.^4-8However, alterations in morphological erythrocyte indices and the nosological meaning of such alterations are not well established. The few studies published^5-9 state that MCH and MCHC can also undergo significant drops in normal pregnancy, becoming accentuated by the end of the third trimester; and that the MCV undergoes an increase, following the same time sequence, however, do not deviate from ranges normal for healthy women at fertile ages and return to pre-pregnancy levels in the late puerperal period.^5,8,9

Current cutoff points of erythrocyte indices (during pregnancy as well) are derived from a survey carried out between the 1970s and 1990s on the North American population, therefore, likely do not apply to all populations.^3,10,11 Consequently, it is of relevance to describe the behavior of these indices in different subpopulations, particularly during pregnancy, from the presupposition that they will be distributed in distinct manners.¹⁰ The aim of this study was to describe the distribution of RBC, HTC, Hb, MCV, MCH and MCHC in the second trimester of low-risk pregnant women and determine the correlation between haematocrit and hemoglobin concentration values.

Patients and Method

This cross-sectional study was based on a secondary databank of a clinical trial.¹² Between May 2000 and June 2001, pregnant women were recruited at the women's prenatal care clinic of the Instituto Materno Infantil Professor Fernando Figueira (IMIP), a tertiary care hospital located at sea level in northeastern Brazil. Subjects who had used medication containing iron in the previous 60 days were excluded. A total of 393 participants with a single, low-risk pregnancy between 16 and 20 weeks were selected. Of these subjects, 347 underwent the hematological examinations analyzed herein.

Erythrograms were performed by a automated electronic cells counter (model Coulter T 890) and included the following variables: RBC in 10¹² cells per liter (10¹² cel/L); Hb in grams of hemoglobin per deciliter of whole blood (g/dL); HTC in percentage of volume of whole blood occupied by the conglomerate of red blood cells (%); MCV in fentoliters (fL); MCH in picograms (pg) of hemoglobin per red blood cell; MCHC in grams of hemoglobin per deciliter of the conglomerate of red blood cells (g/dL).

Statistical analysis was performed using the EPI INFO 6.04 b and Minitab 14.2 software programs, obtaining frequency distribution, mean and standard deviation. The Anderson-Darling test was used for the compatibility of the variables with Gaussian distribution. Pearson's test was used for the correlation between the HTC and Hb values. The Research Ethics Committee of the Instituto Materno Infantil Professor Fernando Figueira approved the study under nº 650/05.

Results

The mass erythrocyte indices (RBC, HTC and Hb) were Gaussians. The same did not occur with the morphological erythrocyte indices (MCV, MCH and MCHC). Due to the large sample size and the proximity of the mean and median values, the option was made to represent them through means and standard deviations (Table 1). Figure 1 illustrates a linear correlation in which each additional unit of Hb corresponded to 2.94 units of HTC, beginning with a virtual minimum value of 1.23.

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Discussion

From the premise of Gaussian distribution¹³ regarding the specific case of anemia, 2.5 percent of the subjects would be below the lower threshold of normality for the red blood cells number, haematocrit and hemoglobina levels.¹⁰The same criteria applies to the size of the red blood cells or their degree of hemoglobinization.^1,2 Hence, in an attempt to reproduce the actual distribution of erythrocyte indices in the present sample, data were analyzed without excluding iron deficiency and not all exhibited the expected Gaussian configuration.^9,14,15 Erythrocyte mass indices (RBC, HTC and Hb) exhibited Normal distribution, whereas morphological indices (MCV, MCH and MCHC) did not follow a Normal curve. This phenomenon may be explained by a possible emergence of young red blood cells of different sizes and degrees of hemoglobinization, recruited by the high erythropoietic demand of pregnancy.¹⁶

As displayed in Table 2, studies^4,8,16-20 describing erythrocyte indices values in the second trimester of pregnancy generally demonstrate that these values tend not to deviate from ranges considered normal for healthy women at fertile ages.¹⁰ This situation was not corroborated by the present study with regard to RBC, HTC and Hb, as the means of these values were below their respective lower cutoff points. This finding indicates an epidemiologically anemic population, considered to be of a severe magnitude by the World Health Organization (> 40%).¹⁰ However, this high frequency could indicate an absolute (true anemia) and/or relative (hemodilution) drop in erythrocyte mass among these pregnant women.¹⁰ Indeed, an analyses of same databank verified that the frequency of anemia whereas the frequency of iron deficiency anemia were 56.6% and 10.7%, respectively.²¹ Therefore, is necessary survey to establish the true erythrocyte indices cutoff points in pregnancy women at the our region.

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Milman et al.⁵ demonstrated a significant correlation between HTC and Hb throughout pregnancy in patients treated both with and without iron. The resultant function (HTC = 0.046 + 2.62 Hb) was similar to that found here, reaffirming a 3:1 correlation empirically observed between the HTC and Hb cutoff points.^10,11 Therefore, there may be incoherence in considering cutoff points that do not obey this rule, as when establishing a 11.0 g/dL threshold for Hb, this would signify a 33% threshold for HTC. Co-linearity could be applied by extension to the RBC and MCV, as these are derived from the HTC; to the MCH, as its is derived from the RBC, and to the MCHC, as it is derived from the Hb/HTC.^1,2

Conclusions

In the second trimester of pregnancy, the erythrocyte mass indices routinely used in the diagnosis of anemia were, on average, lower than limits considered normal and reproduced Gaussian distribution. The morphological indices remained within ranges considered normal, but did not delineate a Normal curve. There was the expected co-linearity between HTC and Hb values at a ratio 3:1.

Acknowledgments

The authors are grateful to professor José Natal Figueiroa, MS (Postgraduate teaching staff member in Mother-Infant Health at Instituto Materno Infantil Professor Fernando Figueira [IMIP]) for the indispensable assistance in the statistics.

Recebido: 18/06/2008

Aceito: 28/07/2008

Avaliação: Editor e dois revisores externos

Conflito de interesse: não declarado

Instituto Materno Infantil Professor Fernando Figueira (IMIP) Recife-PE Brasil.

1. Schrier SL. Excerpted from: approach to the adult patient with anemia. Available from: http://patients.uptodate.com/topic.asp? file=red_cell/2950 Accessed in 2008 (Jan 22).
2. Guyton AC, Hall JE. Glóbulos vermelhos, anemia e policitemia. In: Guyton AC, Hall JE, editors. Tratado de Fisiologia Médica. Rio de Janeiro: Guanabara Koogan; 1997. p. 389-96.
3. Yip R. Significance of an abnormally low or high hemoglobin concentration during pregnancy: special consideration of iron nutrition. Am J Clin Nutr. 2000 Jul;72(1 Suppl):272S-279S.
4. Petraglia B, Silva LG, Rezende Filho J, Netto HC, Montenegro CA. Avaliaçåo dos valores eritrocitários no ciclo grávido-puerperal [Normal values of erythrogram in pregnancy and puerperium]. J Bras Ginecol. 1994;104(5):139-44.
5. Milman N, Byg KE, Agger AO. Hemoglobin and erythrocyte indices during normal pregnancy and postpartum in 206 women with and without iron supplementation. Acta Obstet Gynecol Scand. 2000; 79(2):89-98.
6. Bendell J, Benz Jr. EJ. Hematologic changes of pregnancy. In: Hoffman R, Benz Jr. EJ, Shattil SJ, Furie B, Cohen HJ, editors. Hematology: basic principles and practice. 4th ed. Florida: Churchill Livingstone; 2005. p. 2629-32.
7. Samuels P. Hematologic complications of pregnancy. In: Gabbe SG, Niebyl JR, Simpson JL, editors. Obstetrics: normal and problem pregnancies. 5^thed. Florida: Churchill Livingstone; 2002. p. 1169-79.
8. van Buul EJ, Steegers EA, Jongsma HW, Eskes TK, Thomas CM, Hein PR. Haematological and biochemical profile of uncomplicated pregnancy in nulliparous women; a longitudinal study. Neth J Med. 1995;46(2):73-85.
9. Tam KF, Lao TT. Hemoglobin and red cell indices correlated with serum ferritin concentration in late pregnancy. Obstet Gynecol. 1999;93(3):427-31.
¹⁰
World Health Organization. Iron deficiency anemia: assessment, prevention and control. A guide for programme managers. Geneve, Switzerland: WHO, 2001. Available from: http://www.who.int/nutrition/publications/en/ida_assessment_prevention_control.pdf Accessed in 2008 (Jan 9).
11. Recommendations to prevent and control iron deficiency in the United States. Centers for Disease Control and Prevention. MMWR Recomm Rep. 1998;47(RR-3):1-29.
12. Souza AI, Batista-Filho M, Ferreira LO, Figueirôa JN. Efetividade de três esquemas com sulfato ferroso para tratamento de anemia em gestantes [The effectiveness of three regimens using ferrous sulfate to treat anemia in pregnant women]. Rev Panam Salud Publica. 2004;15(5):313-9.
13. Medronho RA, Perez MA. Testes diagnósticos. In: Medronho RA, Carvalho DM, Bloch KV, Luiz RR, Werneck GL, editors. Epidemiologia. São Paulo: Atheneu; 2005. p. 259-70.
14. Lee EJ, Oh EJ, Park YJ, Lee HK, Kim BK. Soluble transferrin receptor (sTfR), ferritin, and sTfR/log ferritin index in anemic patients with nonhematologic malignancy and chronic inflammation. Clin Chem. 2002;48(7):1118-21.
15. Cook JD, Flowers CH, Skikne BS. The quantitative assessment of body iron. Blood. 2003;101(9):3359-64.
16. Casanova BF, Sammel MD, Macones GA. Development of a clinical prediction rule for iron deficiency anemia in pregnancy. Am J Obstet Gynecol. 2005;193(2):460-6.
17. Puolakka J. Serum ferritin as a measure of iron stores during pregnancy. Acta Obstet Gynecol Scand Suppl. 1980;95:1-31.
18. Volpi E, De Grandis T, Alba E, Mangione M, Dall'Amico D, Bollati C. Variazione dei livelli di ferritinemia nella gravidanza fisiologica [Variations in ferritin levels in blood during physiological pregnancy]. Minerva Ginecol. 1991;43(9):387-91.
19. Knight EM, Spurlock BG, Edwards CH, Johnson AA, Oyemade UJ, Cole OJ, et al. Biochemical profile of African American women during three trimesters of pregnancy and at delivery. J Nutr. 1994;124(6 Suppl):943S-953S.
20. Friis H, Gomo E, Koestel P, Ndhlovu P, Nyazema N, Krarup H, et al. HIV and other predictors of serum folate, serum ferritin, and hemoglobin in pregnancy: a cross-sectional study in Zimbabwe. Am J Clin Nutr. 2001;73(6):1066-73.
21. Bresani CC, Souza AI, Batista-Filho M, Figueiroa JN. Anemia e ferropenia em gestantes: dissensos de resultados de um estudo transversal. Rev Bras Saúde Matern Infant. 2007;7(Supl.1): S15-S22.

Correspondência:

Cristiane Campello Bresani

Departamento de Pesquisa do Instituto Materno Infantil Professor Fernando Figueira (IMIP) - Grupo de Estudos em Clínica Médica.

Rua dos Coelhos, 300 Boa Vista

50070-550 Recife-PE Brasil

Tel. (+55 81) 2122-4779 Fax. (+55 81) 2122-4782

Email:

crisbresani@terra.com.br

Publication Dates

Publication in this collection
06 Mar 2009
Date of issue
Feb 2009

History

Received
18 June 2008
Accepted
28 July 2008

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Schrier SL. Excerpted from: approach to the adult patient with anemia. Available from: http://patients.uptodate.com/topic.asp? file=red_cell/2950 Accessed in 2008 (Jan 22).

[2] 2. Guyton AC, Hall JE. Glóbulos vermelhos, anemia e policitemia. In: Guyton AC, Hall JE, editors. Tratado de Fisiologia Médica. Rio de Janeiro: Guanabara Koogan; 1997. p. 389-96.

[3] 3. Yip R. Significance of an abnormally low or high hemoglobin concentration during pregnancy: special consideration of iron nutrition. Am J Clin Nutr. 2000 Jul;72(1 Suppl):272S-279S.

[4] 4. Petraglia B, Silva LG, Rezende Filho J, Netto HC, Montenegro CA. Avaliaçåo dos valores eritrocitários no ciclo grávido-puerperal [Normal values of erythrogram in pregnancy and puerperium]. J Bras Ginecol. 1994;104(5):139-44.

[5] 5. Milman N, Byg KE, Agger AO. Hemoglobin and erythrocyte indices during normal pregnancy and postpartum in 206 women with and without iron supplementation. Acta Obstet Gynecol Scand. 2000; 79(2):89-98.

[6] 6. Bendell J, Benz Jr. EJ. Hematologic changes of pregnancy. In: Hoffman R, Benz Jr. EJ, Shattil SJ, Furie B, Cohen HJ, editors. Hematology: basic principles and practice. 4th ed. Florida: Churchill Livingstone; 2005. p. 2629-32.

[7] 7. Samuels P. Hematologic complications of pregnancy. In: Gabbe SG, Niebyl JR, Simpson JL, editors. Obstetrics: normal and problem pregnancies. 5^thed. Florida: Churchill Livingstone; 2002. p. 1169-79.

[8] 8. van Buul EJ, Steegers EA, Jongsma HW, Eskes TK, Thomas CM, Hein PR. Haematological and biochemical profile of uncomplicated pregnancy in nulliparous women; a longitudinal study. Neth J Med. 1995;46(2):73-85.

[9] 9. Tam KF, Lao TT. Hemoglobin and red cell indices correlated with serum ferritin concentration in late pregnancy. Obstet Gynecol. 1999;93(3):427-31.

[10] ¹⁰
World Health Organization. Iron deficiency anemia: assessment, prevention and control. A guide for programme managers. Geneve, Switzerland: WHO, 2001. Available from: http://www.who.int/nutrition/publications/en/ida_assessment_prevention_control.pdf Accessed in 2008 (Jan 9).

[11] 11. Recommendations to prevent and control iron deficiency in the United States. Centers for Disease Control and Prevention. MMWR Recomm Rep. 1998;47(RR-3):1-29.

[12] 12. Souza AI, Batista-Filho M, Ferreira LO, Figueirôa JN. Efetividade de três esquemas com sulfato ferroso para tratamento de anemia em gestantes [The effectiveness of three regimens using ferrous sulfate to treat anemia in pregnant women]. Rev Panam Salud Publica. 2004;15(5):313-9.

[13] 13. Medronho RA, Perez MA. Testes diagnósticos. In: Medronho RA, Carvalho DM, Bloch KV, Luiz RR, Werneck GL, editors. Epidemiologia. São Paulo: Atheneu; 2005. p. 259-70.

[14] 14. Lee EJ, Oh EJ, Park YJ, Lee HK, Kim BK. Soluble transferrin receptor (sTfR), ferritin, and sTfR/log ferritin index in anemic patients with nonhematologic malignancy and chronic inflammation. Clin Chem. 2002;48(7):1118-21.

[15] 15. Cook JD, Flowers CH, Skikne BS. The quantitative assessment of body iron. Blood. 2003;101(9):3359-64.

[16] 16. Casanova BF, Sammel MD, Macones GA. Development of a clinical prediction rule for iron deficiency anemia in pregnancy. Am J Obstet Gynecol. 2005;193(2):460-6.

[17] 17. Puolakka J. Serum ferritin as a measure of iron stores during pregnancy. Acta Obstet Gynecol Scand Suppl. 1980;95:1-31.

[18] 18. Volpi E, De Grandis T, Alba E, Mangione M, Dall'Amico D, Bollati C. Variazione dei livelli di ferritinemia nella gravidanza fisiologica [Variations in ferritin levels in blood during physiological pregnancy]. Minerva Ginecol. 1991;43(9):387-91.

[19] 19. Knight EM, Spurlock BG, Edwards CH, Johnson AA, Oyemade UJ, Cole OJ, et al. Biochemical profile of African American women during three trimesters of pregnancy and at delivery. J Nutr. 1994;124(6 Suppl):943S-953S.

[20] 20. Friis H, Gomo E, Koestel P, Ndhlovu P, Nyazema N, Krarup H, et al. HIV and other predictors of serum folate, serum ferritin, and hemoglobin in pregnancy: a cross-sectional study in Zimbabwe. Am J Clin Nutr. 2001;73(6):1066-73.

[21] 21. Bresani CC, Souza AI, Batista-Filho M, Figueiroa JN. Anemia e ferropenia em gestantes: dissensos de resultados de um estudo transversal. Rev Bras Saúde Matern Infant. 2007;7(Supl.1): S15-S22.