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Colombia Médica, Vol. 41, No. 2, April-June, 2010, pp. 141-147 Original Article Determinación de la prevalencia de la hemoglobina S, C, D y Gen recién nacidos de Buenaventura, Colombia Determination of the prevalence of hemoglobin S, C, D, and G in neonates from Buenaventura, Colombia* Matilde de Bernal1, Andrés Collazos2, Rubén Darío Bonilla3, Edna Patricia Tascón4 1 Full Professor, Department of Internal Medicine, Endocrinology Laboratory, Universidad del Valle, Cali, Colombia Correspondence Address:Matilde de Bernal, Full Professor, Department of Internal Medicine, Endocrinology Laboratory, Universidad del Valle, Cali, Colombia, endocrino@univalle.edu.co Date of Submission: 07-Dec-2009 Code Number: rc10019 Abstract Introduction: Inherited hemoglobinopathies are common among African Blacks. In Buenaventura, a city on Colombia's Pacific coast, where 92% of the population is Afro-Colombian, there are few published attempts to identify these disorders. Affected individuals require more health care due to higher morbidity and mortality. Early identification of these newborns followed by comprehensive care is important to reduce co-morbidities.Objective: To study newborns and establish the numbers at risk with a bloodspot screening method. This information will demonstrate to Public Health Authorities the need to provide care for this population Methods: A cross-sectional descriptive study of a sample of 399 newborns (95% CI) where there is an expected prevalence of 10% of abnormal hemoglobins. Mothers in at least the 36 th week of gestation, living in the urban area of Buenaventura, were used. Umbilical cord blood was drawn and specimens fixed on filter paper and stored at 4°C. Isoelectric focusing electrophoresis assays were used to separate the hemoglobins. The results were reported according to the identified hemoglobin as F, A, S, C, D, and G. Results: We processed 399 samples, 353 (88.5%) were normal (hemoglobin FA), 23 (5.8%) were heterozygous for hemoglobin C (FAC), 19 (4.8%) were heterozygous for hemoglobin S (FAS), 2 (0.5%) were heterozygous for hemoglobin G (FAG), 1 was heterozygous for hemoglobin D (FAD) and 1 was heterozygous combined S and C (FSC). Conclusion: Hemoglobins S, C, D, and G are common among infants born in Buenaventura. Hemoglobin C occurred more frequently than in other reported studies. This study suggests that both detection and a follow-up program are required in areas with a high density of Afro-Colombian population. Keywords: Prevalence; Newborn; Hemoglobinopathies; Hemoglobin S; Hemoglobin C; Anemia; Sickle cell; Electrophoresis, iso electric point; Colombia RESUMEN Introducción: Las hemoglobinopatías son entidades muy frecuentes
en el África negra. En Buenaventura, ciudad de la
costa pacífica colombiana con una población 92% afrocolombiana,
hay pocas publicaciones identificando esta patología. Las
poblaciones afectadas requieren cuidados especiales por su alta mortalidad
y morbilidad. La identificación temprana desde
el periodo neonatal y los programas de cuidado integral se imponen en
poblaciones de alta prevalencia. Palabras clave: Prevalencia; Recién nacido; Hemoglobina S; Hemoglobina C; Anemia de células falciformes; Electroforesis de punto isoeléctrico; Colombia; Hemoglobinopatías Neonatal screening for abnormal hemoglobin (Hb) permits establishing the presence of hemoglobinopathies in the population. Sickle-cell disease is one of these, with the disorder being most frequent in countries with obligatory neonatal screening [1],[2] . It is produced by the specific mutation of the beta-globin gene [3] , resulting from the change of glutamic acid for valine in the 6 th position, of autosomal recessive inheritance. The most common genotypes are: homozygous hemoglobin S (HbS), combined heterozygous SC (HbSC), and Sβ+ thalassemia and Sβ0 thalassemia; and, less frequently, it is due to the combination of hemoglobin S with other variants (for example, hemoglobin D, G). Sickle-cell disease increases morbidity and mortality uring the first years of life [4] , being greater in homozygous SS individuals in comparison to heterozygous SC. Hemoglobin C is associated to less symptoms and offers protection against severe malaria [5] . The high prevalence of sickle-cell anemia in a population with African ancestry was shown in the analysis of records from Texas from 1992 to 1998, from 2′292,698 live births and 94% specimens collected, revealing total prevalence per ethnic groups per every 10,000 live births of 29.91 Afro-Americans, 0.11 White, 0.29 Hispanic, and 2.47 others [6] . The studies conducted in the city of Buenaventura and in other towns in the Colombian Pacific region are: from a reference center for malaria infection in individuals older than one year of age that showed a prevalence of 14.9% of abnormal hemoglobins (AS of 7%, AC of 6.2%, and AD of 1.7%) [7] ; from the Hematology service at Universidad del Valle in individuals referred because of having samples suspicious of sickle-cell anemia [8] , and from Salahonda (close to Tumaco in Nariño, Colombia) with sickle-cell trait in 10% of the population and clinical relevant hemoglobinopathies by 1% [9] . A preliminary report published in 2004 of neonatal screening begun in Cali (Valle del Cauca, Colombia, with an Afro-Colombian population of 26.51%) as of 2003 of 6500 neonates, revealed 146 cases of HbS carriers (2.4%), 90 cases heterozygous HbC (1.4%), 2 heterozygous HbD (0.02%), and 2 homozygous HbC, without cases of homozygous S [10] ; however, there is no definition of inclusion criteria (especially of gestational age) and of exclusion criteria (transfusions prior to taking the sample). There is no knowledge of the prevalence of the types of abnormal hemoglobins (S, C, D, and G) in newborns in the city of Buenaventura (Valle del Cauca, Colombia). This city, located in the Pacific region, has a population projected for 2005 of 278,960 inhabitants (86% living in the urban zone) [11] . The proportion of Afro-Colombian population is of 92%. Previous studies of cost-effectiveness analysis favor neonatal detection aimed at, that is, only newborns from some ethnic groups [12],[13] when the individuals at risk are few among the population; however, universal detection identifies more newborns with the disease and prevents more deaths [14],[15] . Early detection of homozygous S newborns permits the application of broadly recognized integral programs in health services, vaccines, monitoring, and education for children and their parents2, diminishing the incidence of infection and associated mortality [16] . Parent education on disease and above all the symptoms (e.g., splenic sequestration) permits opportune attention of severe cases. The possibility of curing via allogenic stem cell transplants informed in the literature, although still promissory, assigns more relevance to detection [17] . The objective of this study was to determine the prevalence of hemoglobins S, C, D, and G in newborns from a high-risk zone like the city of Buenaventura. Methods A descriptive cross-sectional study was conducted. Universal screening was employed [15] . To estimate the sample size, we used the information on the projected population for the city of Buenaventura for 2005, because the data for the 2005 census and projections for subsequent years had not been published [18] . Said projection reports 278,960 inhabitants (86% located in the urban zone) [11] . To estimate the sample size, the StatCalc 6 th version program by EpiInfo was used based on the following considerations: estimated prevalence of hemoglobinopathies (S, C, D, G) equal to 10% [9] , margin of error of 3%, and confidence level of 95%. The representative minimum sample size was of 384 newborns. The samples were taken from newborns at three hospitalization centers in the city: Departmental Hospital of Buenaventura - complexity level 2, Luis Ablanque de la Plata Hospital - complexity level 1, and the Buenaventura Clinic - complexity level 2 (these are the hospitalization centers in Buenaventura authorized for childbirth attention by the Valle del Cauca Departmental Secretary of Public Health), these were taken after informed signed consent by legal guardians. Inclusion criteria. Gestational age of 36 or more weeks (corroborated by obstetric sonogram, given that more premature newborns do not express in adequate proportion the hemoglobins of the adult stage [19] ), domiciled in the urban area of Buenaventura, born between 01 February 2007 and 01 February 2008. On an adjoining card, the following data were registered: mother′s name (or legal guardian), mother′s age (in years), telephone number, home address, gestational age, date of birth, sex (female or male), and weight of the newborn. Exclusion criteria: newborns with red blood cell transfusion prior to taking the sample. Taking of blood sample and storage. Using a syringe, 1 ml of blood was drawn from the umbilical cord placental end in loop form after its ligation (or from the heel, in case of not having been obtained from the first site or due to bad previous sample taking) and a drop was fixed on each circle of the filter paper (a total of 4 drops), and stored at 4ºC. Analytical methods. The isoelectric focusing electrophoresis (IFE) technique was selected because of the low costs of equipment and samples, high sensitivity (100%), and specificity (100%) compared to methods like electrophoresis in cellulose agar and high-performance liquid chromatography [20] with low intra- and inter-assay error [21] , permitting reproduction of the results. With IFE, each hemoglobin has a defined isoelectric point (pI) [Table - 1]. To develop the methodology, we used the Wallac RESOLVE® Neonatal Hemoglobin test kit (PerkinElmer, 940 Winter Street, Waltham, Massachusetts 02451, USA) [21],[22] . The results of the hemoglobins were reported in qualitative order according to the percentage of hemoglobins present like: FA (normal), FS (homozygous Hb S), FAS (carrier Hb S), FC (homozygous Hb C), FAC (carrier Hb C), FSC (mixed S and C heterozygous), FAD (carrier Hb D), and FAG (carrier Hg G) [Graph 1]. The statistical analysis was conducted based on percentage distributions, prevalence, and confidence intervals of 95% - according to the exact binomial method using the Epi Info Software for Windows, version 3.3.2. Ethical considerations. The study was approved by the Institutional Committee on Human Ethics Review of the Faculty of Health at Universidad del Valle. The sample was taken from each newborn after informed signed consent from one of the parents or legal guardian. Results In total, 399 samples were collected from newborns at three Institutions: Departmental Hospital of Buenaventura 252 (63.2%), Luis Ablanque de Plata Hospital 113 (28.3%), and Buenaventura Clinic 34 (8.5%). Some 98.7% of the samples were taken from the umbilical cord; the rest were collected from the heel. A total of 50.6% of the newborns were females. The average gestational age was 39.3 ± 1.1 weeks, with average weight at birth of 3114 ± 505 g. The prevalence of newborns with at least one abnormal hemoglobin was of 11.7%, with 8.6%-15.1% having a confidence interval of 95% [Table - 2], [Graph 2], [Graph 3], [Graph 4]. No significant statistical differences were found regarding gender or the gestational age of the newborns with respect to the hemoglobin pattern. Discussion Although the total percentage of abnormal hemoglobins in this study is similar to prior studies [7],[8],[9] , we note a greater proportion of newborns with hemoglobin C, in comparison with previous studies in the zone. Hemoglobin C is more frequent in Western Africa [23] and it is associated to minor symptoms related to malaria infection [5],[24] . Homozygous C has lower complications related to sickle-cell anemia when compared to homozygous S. They may even be asymptomatic into adulthood, although the retinopathy related to sickle-cell anemia is more frequent with hemoglobin C [25] , requiring periodic ophthalmologist control of these individuals. The previously mentioned studies conducted in adults and children older than one year of age could underestimate the prevalence in the population when not including the children who perished because of sickle-cell disease before reaching one year of life, and not including individuals with hemoglobin C that may not have attended the center of reference for malaria infection (because of manifesting few or no symptoms). Only one newborn with combined heterozygous SC was found, warranting a periodic monitoring. In these individuals, it was not establish the effectiveness of the antibiotic prophylaxis to diminish mortality due to pneumococcus, which has indeed benefited homozygous SS individuals. The current study found no homozygous S or C, given that the design was not made for individuals with the disease of sickle-cell anemia; this requires a larger sample size. When the screening detects a newborn with hemoglobins FS or FC, the test must be confirmed before two months of age to discard the co-existence of beta + thalassemia [26] . In 2007, 4546 babies were born in the urban zone of Buenaventura [27] . The study sample of 399 newborns represents 8.7% (399/4546) of the live births for 2007, hence, applying for this period. The high prevalence of hemoglobin alterations in a high-risk population, like Buenaventura, suggests the need for an universal neonatal detection program in these types of zones. This should be done for the purpose of early detection of homozygous S or C individuals, and opportunely initiate preventive and educational measures tending to diminishing morbidity and mortality related to sickle-cell anemia. Conflict of interest. None of the authors has conflicts of interest related to this study. Acknowledgments We thank the directors and personnel from the neonatal wards at the Departmental Hospital in Buenaventura, the Luis Ablanque de la Plata Hospital, and the Buenaventura Clinic for their collaboration. We also thank John Jairo Lozano and María del Pilar Silva R, professionals at the Endocrine and Metabolism Laboratory in the Faculty of Health at Universidad del Valle for their collaboration in administrative and budget matters and in the transcription of documents. References
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