Genotipificación del gen RHD en ADN fetal libre en plasma de embarazadas RhD negativo / Genotyping of the RHD gene in free fetal DNA in plasma of RhD negative pregnant women

Objetivo: Determinar el grupo RhD fetal a través del estudio del gen RHD en ADN fetal que se encuentra libre en plasma de embarazadas RhD negativo. Método: Se analizó la presencia de los genes RHD, SRY y BGLO en ADNfl obtenido de plasma de 51 embarazadas RhD negativo no sensibilizadas, utilizando una qPCR. Los resultados del estudio genético del gen RHD se compararon con el estudio del grupo sanguíneo RhD realizado por método serológico en muestras de sangre de cordón, y los resultados del estudio del gen SRY fueron cotejados con el sexo fetal determinado por ecografía. Se calcularon la sensibilidad, la especificidad, los valores predictivos y la capacidad discriminativa del método estandarizado. Resultados: El gen RHD estaba presente en el 72,5% de las muestras y el gen SRY en el 55,5%, coincidiendo en un 100% con los resultados del grupo RhD detectado en sangre de cordón y con el sexo fetal confirmado por ecografía, respectivamente. Conclusiones: Fue posible deducir el grupo sanguíneo RhD del feto mediante el estudio del ADN fetal que se encuentra libre en el plasma de embarazadas con un método molecular no invasivo desarrollado y validado para este fin. Este test no invasivo puede ser utilizado para tomar la decisión de administrar inmunoglobulina anti-D solo a embarazadas RhD negativo que portan un feto RhD positivo.

Objective: To determine the fetal RhD group through the study of the RHD gene in fetal DNA found free in plasma of RhD negative pregnant women. Method: The presence of the RHD, SRY and BGLO genes in fetal DNA obtained from plasma of 51 non-sensitized RhD negative pregnant women was analyzed using qPCR. The results of the genetic study of the RHD gene were compared with the RhD blood group study performed by serological method in cord blood samples, and the results of the SRY gene study were compared with the fetal sex determined by ultrasound. Sensitivity, specificity, predictive values and discriminative capacity of the standardized method were calculated. Results: The RHD gene was present in 72.5% of the samples and the SRY gene in 55.5%, coinciding 100% with the results of the RhD group detected in cord blood, and with the fetal sex confirmed by ultrasound, respectively. Conclusions: It was possible to deduce the RhD blood group of the fetus through the study of fetal DNA found free in the plasma of pregnant women with a non-invasive molecular method developed and validated for this purpose. This non-invasive test can be used to make the decision to administer anti-D immunoglobulin only to RhD-negative pregnant women carrying an RhD-positive fetus.

Análise do perfil de Rh e Kell em doadores de sangue em Porto Alegre, Rio Grande do Sul / Phenotypic profile analysis of Rh and Kell blood group systems among donors in Porto Alegre, Rio Grande do Sul

Introdução: A hemoterapia é uma prática terapêutica pelo meio de transfusão sanguínea. Devido ao baixo estoque de bolsas de sangue e o aumento de pacientes crônicos e emergenciais, se faz necessária a realização de testes imuno-hematológicos para minimizar os riscos de reações transfusionais e aloimunizações em doadores e receptores de sangue. Deste modo, no estudo foi avaliada a prevalência dos antígenos dos sistemas Rh e Kell em doadores de sangue de Porto Alegre ­ RS.Métodos: Estudo quantitativo, transversal e retrospectivo que foi realizado através da análise das informações dos doadores de sangue contidas no banco de dados do Hemocentro do Estado do Rio Grande do Sul, nos anos de 2018 e 2019.Resultados: Das 6.479 amostras fenotipadas, quanto ao sistema Rh, 44,6% são Rh positivo e 55,4% são Rh negativo. As frequências dos antígenos encontradas foram de, CC 10,1%, Cc 27%, cc 62,9%, EE 1,2%, Ee 13,9%, ee 84,9%. E, para o sistema Kell, K1 positivo 7,1% e K1 negativo 92,9%.Conclusões: Antígenos do sistema Rh e Kell exibem um grande nível de imunogenicidade e uma forte ligação com a Doença Hemolítica do Recém-nascido, podendo ocorrer a sensibilização em pacientes caso não haja a compatibilidade sanguínea. Este estudo ressalta a importância da implementação da fenotipagem eritrocitária em doadores de sangue, sugere-se mais estudos com períodos distintos para a pesquisa de resultados satisfatórios.

Introduction: Hemotherapy is a therapeutic practice consisting of blood transfusion. Low blood supply and an increase in chronic and emergency patients have made it necessary to conduct immunohematology tests to minimize the risks of adverse reactions and alloimmunization in donors and recipients. Therefore, this study aimed to assess the prevalence of Rh and Kell blood group antigens among blood donors in Porto Alegre, Rio Grande do Sul, Brazil.Methods: We conducted a quantitative, cross-sectional, retrospective study. Information from blood donors included in the Rio Grande do Sul's Blood Center database from 2018 to 2019 were analyzed.Results: A total of 6,479 samples were phenotyped, of which 44.6% were Rh-positive and 55.4% were Rh-negative. Antigen prevalence was CC (10.1%), Cc (27%), cc (62.9%), EE (1.2%), Ee (13.9%), and ee (84.9%). As for the Kell group, 7.1% were K1-positive and 92.9% were K1-negative.Conclusions: The Rh and Kell antigens are highly immunogenic and have a strong link with the hemolytic disease of the newborn. Sensitization may occur in patients if there is no blood compatibility. This study highlights the importance of implementing erythrocyte phenotyping in blood donors. Further studies should be conducted in different time frames to achieve satisfactory results.

RHD and RHCE molecular analysis in weak D blood donors and in patients with Rh antibodies against their own corresponding Rh antigen.

BACKGROUND: The Rh system is the largest and most polymorphic blood group system. The existence of a large number of RH alleles results in variant phenotypes that often complicate blood donor phenotyping and the distinction between auto- and allo-antibodies in recipients who have anti-Rh antibodies in the presence of their own corresponding Rh antigen. Knowledge of these variants is necessary in order to make blood transfusion safer. MATERIALS AND METHODS: Samples from 48 blood donors with serological weak D and from 29 patients who had anti-Rh antibody in the presence of their own corresponding Rh antigen were evaluated molecularly for RHD and RHCE alleles using a blood-multiplex ligation-dependent probe amplification assay and Sanger sequencing. RESULTS: Rh variants were found in 45 of the 48 blood donors: 24/45 (53%) were weak D, 2/45 (4%) partial D and 19/45 (42%) were weak and partial D. The remaining three donors (6%) did not show a mutation in the RHD allele. Among the 29 patients, 13/29 had anti-e, of whom 4/13 had genotypes that predicted a partial e antigen; 11/29 had anti-D, with 6/11 being identified as partial D; 2/29 had anti-c, of whom 1/2 was predicted to express partial c antigen; 4/29 who had anti-E and 4/29 who had anti-C did not show mutations in RHCE*C or RHCE*E. DISCUSSION: It was possible to find individuals with clinically significant Rh phenotypes due to the weak reactivity of the D antigen, detected through serological tests in blood donors. In patients, when found with the anti-Rh antibody in the presence of the same Rh antigen, it is difficult to distinguish an auto-antibody from an allo-antibody by serological tests; in these cases, molecular methods (genotyping) can help us to determine whether there are changes in the RH alleles and to discover the nature of the antibody (allo or auto).

Sistema Rh-Hr y variantes del antígeno D en tres poblaciones afroecuatorianas del Valle del Chota / Rh-Hr system and D antigen variants in three Afro-Ecuadorian populations in the Chota Valley / Sistema Rh-Hr e variantes do antígeno D em três populações afro-equatorianas no vale do Chota

Resumen La identificación inequívoca del antígeno D en medicina transfusional es de vital importancia para evitar reacciones postransfusionales y la enfermedad hemolítica del recién nacido. Es común el uso de reactivos serológicos monoclonales o tarjetas de gel y su interpretación está definida por cruces, de acuerdo con la reacción serológica. El propósito de este estudio fue determinar la frecuencia del factor Rh y las variantes del antígeno D en una población afroecuatoriana. Se trató de un estudio descriptivo, transversal con muestreo aleatorio simple de 541 pobladores. Para la tipificación del factor Rh se utilizó la metodología en tubo con antisueros monoclonales y para la detección de las variantes de D se utilizaron tarjetas de gel IDCoombs Anti-IgG. Las lecturas se verificaron mediante el análisis del índice kappa. Se aplicó estadística descriptiva y el análisis de Chi cuadrado para establecer la relación de las variables y su significación. Se identificó una frecuencia del 92% de individuos Rh(D) positivo y un 8% Rh(D) negativo. El 4,80% de los individuos presentaban la variante D débil y el 79% reacciones serológicas entre 2 y 3(+) indicativas de otras variantes del antígeno D. El fenotipo más común fue el R0/R0. Estos datos demuestran la necesidad de confirmar la existencia de variantes del antígeno D en esta población para un mejor manejo de la sangre. Una limitante constituye la disponibilidad de técnicas moleculares para la genotipificación de D; sin embargo, se podría implementar la fenotipificación RHCE como estrategia pretransfusional.

Abstract The unequivocal identification of D antigen in transfusion medicine is of vital importance to avoid post-transfusion reactions and hemolytic disease of the newborn. The use of monoclonal serological reagents or gel cards is common and their interpretation is defined according to the serological reaction by crosses. The purpose of this study was to determine the frequency of Rh factor and D antigen variants in the Afro-Ecuadorian population. This was a descriptive, cross-sectional study with simple random sampling of 541 residents. Tube typing with monoclonal antisera was used to typify Rh factor and ID-Coombs Anti-IgG gel cards were used to detect D variants, and the readings were verified by analysis of the kappa index. Descriptive statistics and Chi-square analysis were applied for the relationship of the variables and their significance. A frequency of 92% of Rh(D) positive individuals and 8% Rh(D) negative individuals were identified. Almost 5% (4.80%) of the individuals presented the weak D variant and 79% serological reactions between 2-3(+) indicative of other D antigen variants, the most common phenotype being R0/R0. These data demonstrate the need to confirm the existence of D antigen variants in this population for better management and availability of blood. A limitation is the availability of molecular techniques for D genotyping, however, RHCE phenotyping could be implemented as a pretransfusion strategy.

Resumo A identificação inequívoca do antígeno D na medicina transfusional é de vital importância para evitar reações pós-transfusionais e a doença hemolítica do recém-nascido. É comum o uso de reagentes sorológicos monoclonais ou cartões de gel e sua interpretação é definida por cruzamentos de acordo com a reação sorológica. O objetivo deste estudo foi determinar a frequência do fator Rh e as variantes do antígeno D numa população afro-equatoriana. Foi um estudo descritivo, transversal, com amostragem aleatória simples de 541 residentes. Para a tipagem do fator Rh foi utilizada a metodologia em tubo com anti-soros monoclonais e para a detecção das variantes de D, os cartões de gel ID-Coombs Anti-IgG. As leituras foram verificadas por análise do índice kappa. Foi aplicada estatística descritiva e para estabelecer a relação das variáveis e sua significação se utilizou a análise do qui-quadrado. Identificando uma frequência de 92% dos indivíduos Rh (D) positivos e 8% Rh (D) negativos. 4,80% dos indivíduos apresentavam a variante D fraca e 79% reações sorológicas entre 2 e 3(+) indicativas de outras variantes do antígeno D, sendo o fenótipo mais comum o R0/R0. Esses dados demonstram a necessidade de confirmar a existência de variantes do antígeno D nessa população para melhor gerenciamento e disponibilidade de sangue. Uma limitação é a disponibilidade de técnicas moleculares para a genotipagem de D, no entanto, a fenotipagem de RHCE poderia ser implementada como uma estratégia de pré-transfusão.

Extensive clinical, serologic and molecular studies lead to the first reported Rhmod phenotype in Argentina.

BACKGROUND: A highly reduced expression of Rh antigens in the erythrocyte membrane is the main feature of Rhmod , an extremely rare phenotype. Mutations within RHAG gene, which encodes RhAG glycoprotein and modulates Rh antigen expression and Rh complex formation, are the molecular events responsible for the Rhmod phenotype. Here we report a clinical, serologic, and molecular study of an Argentinean proband with Rh-deficiency syndrome. MATERIALS AND METHODS: Rh antigens, RhAG and CD47 glycoproteins were studied by serologic methods in the proband, her parents and sister. Osmotic fragility and viscoelastic parameters were also examined. RHD zygosity was analyzed by RFLP-PCR. RHD, RHCE, and RHAG genes were studied by Sanger sequencing. RESULTS: No Rh antigens were detected in the proband by standard techniques. However, adsorption-elution and anti-RhAG tests showed that the proposita was Rhmod . Reduced expression of CD47, enhanced osmotic fragility, and surface viscosity alterations giving rise to spherocytes were observed in the patient. Sequencing analysis showed that a c.920C>T mutation in RHAG Exon 6 was present in a homozygous state in the proband and in a heterozygous state in the rest of the family. This novel missense mutation caused the p.Ser307Phe amino acid substitution in Transmembrane Segment 10 of the RhAG glycoprotein. CONCLUSION: This comprehensive study determined the causes of the proband's anemia allowing the diagnosis of Rh-deficiency syndrome.

Challenges in providing compatible blood with Rh genotype-matching in Brazilian patients with sickle cell disease.

OBJECTIVES: The aim of this study was to verify the possibility of performing prophylactic Rh genotype-matching in Brazilian patients with sickle cell disease (SCD) and identify the genotypes that are lacking or insufficient in our donor cohort. BACKGROUND: Rh alloimmunisation is still a challenge in transfused patients with SCD. Rh genotype-matching may mitigate Rh alloimmunisation. METHODS/MATERIALS: We examined the transfusion requests for antigen-matched donor units in SCD patients with Rh variants and compared the Rh altered alleles in the patients to the Rh allele frequency in a selected donor population. For each patient and donor, RBC antigen genotyping was performed using HEA, RHD and RHCE BeadChip arrays. Sequencing was used to clarify inconclusive results. Twenty-one patients and 956 Brazilian blood donors were genotyped. RESULTS: According to our matching strategies, 47·6% of patients filled most of their unit requests, but 52·4% of patients had insufficient donors to fill their annual transfusion needs. We found different combinations of RHCE variant alleles in patients and donors, but the most frequent genotypes that are lacking or insufficient in our donor cohort are those associated with the lack of hrB and hrS high prevalence antigens and those co-inherited with altered RHD alleles. CONCLUSION: Our study shows that the provision of compatible blood with Rh genotype-matching in Brazilian patients with SCD can be feasible but challenging and, efficient strategies of recruitment of African-Brazilian donors must be developed.

Correlation among automated scores of agglutination, antigen density by flow cytometry and genetics of D variants.

BACKGROUND: Laboratory testing to identify the molecular basis of serologic weak D phenotypes is recommended to determine whether a pregnant woman or potential transfusion recipient should be managed as RhD-positive or RhD-negative. The variation in D antigen expression on RBCs, different potencies of anti-D typing reagents, lack of standardized test methods, and the subjectivity of interpreting agglutination reactions complicate the detection of D variants. We evaluated the correlation of agglutination scores by an automated immunoassay analyzer with D antigen densities determined by flow cytometry, and D variant types identified by molecular analysis. MATERIALS AND METHODS: We selected 273 blood donor samples with agglutination scores of less than 92 (4+), measured by an automated analyzer (NEO®, Immucor, Norcross, GA, USA). D antigen densities were measured by flow cytometry for 89 samples. Samples were classified as molecularly-determined weak D or partial D variants by multiplex PCR, PCR RFLP and DNA sequencing. RESULTS: All samples with a D antigen density ≥15% had an agglutination score >80 (4+). Agglutination scores for weak D types varied from 10 to 90. Agglutination scores for partial D antigens were graded with scores varying from 60 to 99. D antigen densities varied from 0.55% to 10.67% for weak Ds and 4.1% to 30.5% for partial Ds. DISCUSSION: Our results showed that score values follow a pattern among D variants that could be related to antigen density and to the RhD variant classification.

Diversity of RH and transfusion support in Brazilian sickle cell disease patients with unexplained Rh antibodies.

BACKGROUND: Genetic diversity in the RH genes among sickle cell disease (SCD) patients is well described but not yet extensively explored in populations of racially diverse origin. Transfusion support is complicated in patients who develop unexpected Rh antibodies. Our goal was to describe RH variation in a large cohort of Brazilian SCD patients exhibiting unexpected Rh antibodies (antibodies against RH antigens to which the patient is phenotypically positive) and to evaluate the impact of using the patient's RH genotype to guide transfusion support. STUDY DESIGN AND METHODS: Patients within the Recipient Epidemiology and Evaluation Donor Study (REDS)-III Brazil SCD cohort with unexpected Rh antibodies were selected for study. RHD and RHCE exons and flanking introns were sequenced by targeted next-generation sequencing. RESULTS: Fifty-four patients with 64 unexplained Rh antibodies were studied. The majority could not be definitively classified as auto- or alloantibodies using serologic methods. The most common altered RH were RHD*DIIIa and RHD*DAR (RHD locus) and RHCE*ce48C, RHCE*ce733G, and RHCE*ceS (RHCE locus). In 53.1% of the cases (34/64), patients demonstrated only conventional alleles encoding the target antigen: five of 12 anti-D (41.7%), 10 of 12 anti-C (83.3%), 18 of 38 anti-e (47.4%), and one of one anti-E (100%). CONCLUSION: RHD variation in this SCD cohort differs from that reported for African Americans, with increased prevalence of RHD*DAR and underrepresentation of the DAU cluster. Many unexplained Rh antibodies were found in patients with conventional RH allele(s) only. RH genotyping was useful to guide transfusion to determine which patients could potentially benefit from receiving RH genotyped donor units.

Frequency and characterization of RHD variants in serologically D- Surinamese pregnant women and D- newborns.

BACKGROUND: Numerous RHD variant genes affect the expression of D on the red blood cell surface. In Suriname, 4.3% of pregnant women were D-, ranging from virtually zero to 7% among ethnic groups. Characterization of RHD variants, which are associated with a variable potential to induce anti-D, is of practical clinical importance especially in case of limited access to preventive measures. Here we report on the occurrence of RHD variant genes in Surinamese serologically D- pregnant women and their D- newborns from different ethnic groups. STUDY DESIGN AND METHODS: The RheSuN study is a cross-sectional cohort study in D- pregnant women and their newborns, who visited hospitals in Paramaribo, Suriname, during routine pregnancy care. The presence of RHD variants was investigated using quantitative polymerase chain reaction targeting RHD Exons 5 and 7 and RH-multiplex ligation-dependent probe amplification. RESULTS: Seven RHD variant genes were detected in 35 of 84 women and four RHD variant genes in 15 of 36 newborns. The RHD*03 N.01 and RHD*08 N.01 variants represented 87% of a total of 62 variant genes. Variants were comparably frequent among ethnicities. In four cases genotyping would have changed anti-D prophylaxis policy: one woman with a RHD*01EL.01 variant, not associated with anti-D formation and three D- newborns with RHD*09.01 and RHD*09.03.01 variants, potentially capable of inducing anti-D. CONCLUSION: RHD variants at risk for anti-D are common among serologic D- individuals from African descent in Suriname. While genotyping D- women has limited added value, it may be considered in newborns from D- women.

Prevalence of positive direct antiglobulin test and clinical outcomes in Surinamese newborns from D-negative women.

BACKGROUND: In low-resource countries, screening for D antibodies to detect pregnancies at risk for hemolytic disease of the newborn is not routine practice. Retrospective data showed that 5.5% of Surinamese newborns of D-negative women had a positive direct antiglobulin test (DAT), indicating the presence of maternal antibodies against fetal antigens. Here, the frequency and clinical relevance of DAT positivity is evaluated. STUDY DESIGN AND METHODS: Between April 2015 and June 2016, an observational, multicenter cohort study was undertaken among Surinamese newborns born to D-negative women. In newborns, the DAT was performed, and clinical outcomes between DAT-negative and DAT-positive newborns were compared. RESULTS: Of the 232 evaluable newborns, 19 (8.2%) had a positive DAT, of which 11 of 15 antibody-tested newborns had D antibodies. DAT-positive newborns had lower hemoglobin levels (p = 0.02) and a trend toward higher bilirubin concentrations (p = 0.09) in the first days of life compared with DAT-negative newborns. DAT-positive newborns were admitted more frequently (p = 0.02), needed phototherapy treatment almost four times as often as DAT-negative newborns (26% vs. 7%; p = 0.008), and therapy took 2 days longer (p = 0.01). Exchange transfusions were performed in two newborns with D antibodies, both complicated with sepsis. The hospital stay was 2.5 days longer for DAT-positive newborns (p = 0.007). Overall, the prevalence of hemolytic disease of the newborn requiring treatment was 2.2% among the whole cohort of newborns. CONCLUSION: We found a high prevalence of DAT positivity with substantial need for hyperbilirubinemia treatment in newborns in Suriname. These results stress the necessity for better management procedures in D-negative women.

Genotyping approach for non-invasive foetal RHD detection in an admixed population.

BACKGROUND: Non-invasive foetal RHD genotyping can predict haemolytic disease of the foetus and the newborn in pregnancies with anti-D alloantibodies and also avoid antenatal anti-D prophylaxis in pregnant women carrying an RHD negative foetus. Considering that the Argentine genetic background is the result of generations of intermixing between several ethnic groups, we evaluated the diagnostic performance of a non-invasive foetal RHD determination strategy to guide targeted antenatal RhD immunoprophylaxis. This algorithm is based on the analysis of four regions of the RHD gene in cell-free foetal DNA in maternal plasma and maternal and paternal RHD genotyping. MATERIALS AND METHODS: DNA from 298 serologically D negative pregnant women between 19-28 weeks gestation were RHD genotyped. Foetal RHD status was determined by real-time PCR in 296 maternal plasma samples. In particular cases, RHDΨ and RHD-CE-Ds alleles were investigated in paternal DNA. Umbilical cord blood was collected at birth, and serological and molecular studies were performed. RESULTS: Of the 298 maternal samples, 288 were D-/RHD- and 10 D-/RHD+ (2 RHD*DAR; 5 RHD-CE-Ds; 3 RHDΨ). Plasma from RHD*DAR carriers was not analysed. Real-time PCR showed 210 RHD+ and 78 RHD- foetuses and 8 inconclusive results. In this latter group, paternal molecular studies were useful to report a RHD negative status in 5 foetuses while only 3 remained inconclusive. All the results, except one false positive due to a silent allele (RHD[581insG]), agreed with the neonatal typing performed in cord blood. DISCUSSION: The protocol used for non-invasive prenatal RHD genotyping proved to be suitable to determine foetal RHD status in our admixed population. The knowledge of the genetic background of the population under study and maternal and paternal molecular analysis can reduce the number of inconclusive results when investigating foetal RHD status.

RHCE variants inherited with altered RHD alleles in Brazilian blood donors.

BACKGROUND: The high homology and opposite orientation of RH genes promote rearrangements between them and generate a large number of RHD and RHCE variants which can be inherited together. Searching of RHD-CE genotypes predicting partial antigens in donors is of interest in order to find more closely matched donors for African descent patients. This study aimed to evaluate a molecular approach to search for RhCE variants in a cohort of individuals with altered expression of D antigen and determine the association of RH variant alleles in Brazilian blood donors. METHODS: From 80,961 blood samples tested, 421 with atypical D typing results were studied. The samples were phenotyped for C, c, E, e antigens. Rh variants were identified using molecular techniques. RESULTS: All 421 samples had altered RHD alleles, being 56·3% of them partial D. Among them, 94·9% presented variant RHCE*ce and the most common associations were: RHD*weak D type 4.2.2 with RHCE*ceAR; RHD*DAR linked to RHCE*ceVS.02; RHD*weak D type 4.0 linked to RHCE*ceVS.02 and RHCE*ce (c.48C, c.105T, c.733G, c.744C, c.1025T). Among the samples with RhCE variants, 10·6% predict partial c, partial e, hr(B) - and/or hr(S) - and 100% express low prevalence antigens. CONCLUSION: Targeting individuals with altered expression of D antigen can be a good strategy for finding donors with RhCE variants. In our study 94·9% of the partial D samples revealed altered RHCE variant alleles and 5·7% of the samples with altered RHD allele predicted partial c, partial e and the lack of the high prevalence hr(B) and hr(S) antigens.

RhD negativity among pregnant women in multiethnic Suriname.

BACKGROUND: RhD negativity is distributed unevenly among different ethnicities. In this study we explored the frequencies of RhD negativity in pregnant women in multiethnic Suriname, along with screening results for red blood cell (RBC) antibodies in these women and their offspring. Results may help identify women at risk for hemolytic disease of the fetus and newborn. STUDY DESIGN AND METHODS: A retrospective study was performed in pregnant women who delivered at three major hospitals in Suriname between January 1, 2013, and December 31, 2014. RESULTS: The overall prevalences of RhD negativity among 8686 women was 4.3%. The percentages of RhD negativity in Maroons, Creoles, and Hindustani women were 7.2, 5.4, and 3.7%, respectively. Chinese and Javanese women had very low prevalences of 0.8 and 0.5%, respectively, and Amerindians showed no RhD negativity. Antibody screening was positive in six D- (five Maroons and one Creole) women and weakly positive in three women (two Creoles and one Maroon), making overall antibody prevalence 4.4%. In 15 (5.5%; 10 Maroons, four Creoles, one Chinese) newborns from D- mothers antibody screening was positive. CONCLUSION: In the multiethnic Surinamese population RhD negativity among pregnant women varied between 0.0 and 7.2% between ethnic groups. RBC antibodies were detected during pregnancy and in newborns in 4.4 and 5.5%, respectively.

Frecuencia de antígenos del sistema sanguíneo Rh y del sistema Kell en donantes de sangre / Frequency of antigens in Rh and Kell blood system in blood donors

Introducción: los estudios inmunohematológicos que se realizan a los donantes de sangre se orientan a proporcionar al receptor una terapia transfusional compatible con el sistema sanguíneo ABO y antígeno D del sistema Rh. Sin embargo, como una forma de incrementar la seguridad transfusional, surge el interés de ampliar la gama de antígenos a determinar y por ende, a compatibilizar previo a una transfusión sanguínea. Objetivo: determinar la frecuencia de los cinco antígenos mayores del sistema Rh y los antígenos K1 y K2 del sistema Kell en donantes voluntarios de sangre. Métodos: Estudio descriptivo transversal que incluyó 200 donantes voluntarios de sangre del Centro Productivo Regional de Sangre del Maule (CPRSM) seleccionados al azar. Se realizó fenotipificación de los cinco antígenos mayores del sistema Rh. y el antígeno K1 y K2 del sistema Kell. Se utilizó la técnica de hemaglutinación en tubo, con sueros monoespecíficos y DG Gel® Coombs. Se calculó la frecuencia fenotípica de los antígenos D, C, c, E y e del sistema Rh., y K1 y K2 del sistema Kell, en porcentajes. A partir de la frecuencia de los fenotipos Rh. se determinó la frecuencia del genotipo más probable de dicho sistema. Para el Kell se estimó el genotipo en base al fenotipo. Resultados: sistema Rh: 96 por ciento de las muestras estudiadas presentaba el antígeno D, 97,5 por ciento el antígeno e; 35,5 por ciento el antígeno E; 79 por ciento el antígeno C y 65,5 por ciento el antígeno c. El genotipo más frecuente fue CDe/CDe. Sistema Kell: se encontró una frecuencia del 4 por ciento para el antígeno K1, mientras que el antígeno K2 presenta una frecuencia del 99,5 por ciento. Al nivel de frecuencia genotípica se detectó que el 96 por ciento de la población tiene un genotipo homocigoto para K2 (kk). Conclusiones: La frecuencias de los siete antígenos estudiados es similar a la descrita en otras poblaciones(AU)

Introduction: Immunologic studies performed on blood donors are directed to provide a transfusion therapy compatible with ABO blood group system and Rh system D antigen in the recipient. However, as a way to increase transfusion safety, the interest of expanding the range of antigens to determine and therefore to be tested for compatibility prior to a blood transfusion, arises. Aim: To determine the frequency of the five major antigens of Rh. system and K1 and K2 antigens of the Kell system in blood donors. Methods: Cross-sectional study including 200 randomly selected voluntary blood donors from Centro Productivo Regional de Sangre del Maule (CPRSM). Phenotyping of five major antigens of Rh. system and K1 and K2 Kell system antigens was carried out. The tube hemagglutination technique with monospecific Coombs sera and DG Gel ® was used. The Rh. system D, C, c, E, e antigens and Kell system K1 and K2 antigen phenotypic frequencies were calculated in percentages. The most likely Rh.genotype was determined from the phenotype frequency of this system. Similarly, in Kell system the genotype frequency was determined based on phenotype. Results: In the Rh.system, 96 percent of the samples studied had D antigen; 97.5 percent had the e antigen, and 35.5 percent the E antigen. Antigen C was present in 79 percent and c in 65.5 percent. The most frequent Rh. genotype was CDe/CDe. In Kell system, K1 antigen presented a frequency of 4 percent, while antigen K2 presented a 99.5 percent. Regarding genotypic frequency, a 96 percent of the population showed a K2 (kk) homozygous genotype(AU) Conclusion: The frequency of the seven antigens studied is similar to that described in other populations(AU)

Molecular matching for Rh and K reduces red blood cell alloimmunisation in patients with myelodysplastic syndrome.

BACKGROUND: Matching for Rh and K antigens has been used in an attempt to reduce antibody formation in patients receiving chronic transfusions but an extended phenotype matching including Fy(a) and Jk(a) antigens has also been recommended. The aim of this study was to identify an efficient transfusion protocol of genotype matching for patients with myelodysplastic syndrome (MDS) or chronic myelomonocytic leukaemia. We also examined a possible association of HLA class II alleles with red blood cell (RBC) alloimmunisation. MATERIALS AND METHODS: We evaluated 43 patients with MDS undergoing transfusion therapy with and without antibody formation. We investigated antigen-matched RBC units for ABO, D, C, c, E, e, K, Fy(a), Fy(b), Jk(a), Jk(b), S, s, Do(a), Do(b) and Di(a) on the patients' samples and on the donor units serologically matched for them based on their ABO, Rh and K phenotypes and presence of antibodies. We also determined the frequencies of HLA-DRB1 alleles in the alloimmunised and non-alloimmunised patients. RESULTS: Seventeen of the 43 patients had discrepancies or mismatches for multiple antigens between their genotype-predicted profile and the antigen profile of the units of blood serologically matched for them. We verified that 36.8% of patients had more than one RBC alloantibody and 10.5% of patients had autoantibodies. Although we were able to find a better match for the patients in our extended genotyped/phenotyped units, we verified that matching for Rh and K would be sufficient for most of the patients. We also observed an over-representation of the HLA-DRB1*13 allele in the non-alloimmunised group of patients with MDS. DISCUSSION: In our population molecular matching for C, c, E, e, K was able to reduce RBC alloimmunisation in MDS patients. An association of HLA-DRB1*13 and protection from RBC alloimmunisation should be confirmed.

Variant RH alleles and Rh immunisation in patients with sickle cell disease.

BACKGROUND: Alloimmunisation is a major complication in patients with sickle cell disease (SCD) receiving red blood cell (RBC) transfusions and despite provision of Rh phenotyped RBC units, Rh antibodies still occur. These antibodies in patients positive for the corresponding Rh antigen are considered autoantibodies in many cases but variant RH alleles found in SCD patients can also contribute to Rh alloimmunisation. In this study, we characterised variant RH alleles in 31 SCD patients who made antibodies to Rh antigens despite antigen-positive status and evaluated the clinical significance of the antibodies produced. MATERIALS AND METHODS: RHD and RHCE BeadChip™ from BioArray Solutions and/or amplification and sequencing of exons were used to identify the RH variants. The serological features of all Rh antibodies in antigen-positive patients were analysed and the clinical significance of the antibodies was evaluated by retrospective analysis of the haemoglobin (Hb) levels before and after transfusion; the change from baseline pre-transfusion Hb and the percentage of HbS were also determined. RESULTS: We identified variant RH alleles in 31/48 (65%) of SCD patients with Rh antibodies. Molecular analyses revealed the presence of partial RHD alleles and variant RHCE alleles associated with altered C and e antigens. Five patients were compound heterozygotes for RHD and RHCE variants. Retrospective analysis showed that 42% of antibodies produced by the patients with RH variants were involved in delayed haemolytic transfusion reactions or decreased survival of transfused RBC. DISCUSSION: In this study, we found that Rh antibodies in SCD patients with RH variants can be clinically significant and, therefore, matching patients based on RH variants should be considered.

Molecular structures identified in serologically D- samples of an admixed population.

BACKGROUND: The D- phenotype is mainly caused by the complete deletion of the RHD gene in Caucasians. However, a plethora of allelic variants have been described among D- individuals from different ethnic groups. STUDY DESIGN AND METHODS: A cohort of 1314 routine serologically D- samples from white Argentineans was studied by molecular methods. RESULTS: Among the 1314 D- samples, 2.1% showed RHD-specific amplifications. One hybrid Rhesus box was detected in all D-/RHD+ samples, suggesting a hemizygous status. The RHDΨ was found in 0.7% of rr samples while DEL and null variants were detected in 16.7% of the D- samples expressing C and/or E antigens. The variants associated with the C antigen were seven RHD-CE-D(s) , two RHD(1-2)-CE(2-9)-D(10), two previously unreported RHD(329T>C)-CE(3-9)-D null alleles, one RHD(M295I), and one new RHCE(1-2)-RHD(3361del11 -10) null allele whereas those associated with the E antigen were five RHD(46T>C) and one novel RHD(581insG) null allele responsible for a premature stop codon. CONCLUSIONS: The prevalence of D-/RHD+ samples is higher than that observed in Europeans. More than 50% of the RHD alleles found were represented by RHDψ and RHD-CE-D(s) showing the African contribution to the genetic pool of the admixed population analyzed. Interestingly, three new alleles were found, two of them being hybrid structures between previously described RHD variants recombined with RHCE sequences. The knowledge of the RHD allele repertoire in our population allowed the implementation of reliable typing and transfusion strategies for a better management of patients and pregnant women.

Noninvasive fetal RHD genotyping from maternal plasma in an admixed Brazilian population.

We evaluated the efficacy of noninvasive fetal Rhesus D (RHD) genotyping from maternal plasma in a highly admixed population. Fifty-five blood samples from RhD-negative pregnant women from Brazil were processed for extraction of cell-free plasma DNA. Real-time PCR was performed to amplify segments of exons 5 and 7 from the RHD gene, as well as for detection of the SRY gene to confirm the presence of fetal DNA. Fetal genotyping results were compared with the RhD phenotype determined from newborn cord blood samples obtained at birth. Thirty-two samples were RHD-positive, 18 were RHD-negative and 5 were inconclusive due to amplification of only one RHD exon. In 43 samples, the fetal RHD genotype was compared to the neonatal RhD phenotype, and only one result was discordant, due to false-negative serology. There was one false SRY genotyping negative result. We conclude that noninvasive fetal RHD genotyping from maternal blood provides accurate results and suggests its viability as a clinical tool for the management of RhD-negative pregnant women in an admixed population.