ABSTRACT
Resumen Introducción: La determinación del grupo sanguíneo ABO/RhD y la prueba directa de Coombs (PDC) al nacimiento son una práctica recomendada, pero existe variabilidad en su implementación universal. Se presentan los resultados de la determinación al nacimiento del grupo ABO/RhD y la PDC en una cohorte institucional. Métodos: Se incluyeron los recién nacidos entre 2017 y 2020 en un hospital de atención a embarazos de alto riesgo. Se determinó el grupo ABO/RhD y se realizó la PDC en muestras de cordón umbilical o en las primeras 24 horas de vida. Se registraron las variables demográficas, maternas y neonatales. Se estimó la asociación entre las variables mediante la razón de probabilidad (OR). Resultados: Se incluyeron 8721 binomios. La PDC fue positiva en 239 recién nacidos (2.7%), siendo las variables asociadas a la PDC positiva la edad materna > 40 años (OR: 1.5;IC95%: 1.0-2.3), el nacimiento por vía cesárea (1.4; 1.1-2.0), la madre del grupo O (6.4; 3.8-11.8), la prematuridad (3.6; 2.6-5.0); el peso al nacer < 2500 g (2.1; 1.6-2.8); el neonato del grupo A (15.7; 10.7-23.1) o del grupo B (17.6; 11.4-27.2), la hemoglobina al nacer < 13.5 g/dl (4.5; 2.8-7.1) y la reticulocitosis > 9% (1.9; 1.2 a 3.1). Discusión: La frecuencia de PDC positiva neonatal es del 2.7%, con asociación significativa la incompatibilidad materna/neonatal al grupo ABO y RhD, con impacto significativo en diversas variables neonatales. Estos resultados apoyan la política de implementación universal al nacimiento de la determinación de ABO/RhD y PDC.
Abstract Background: Evaluating the ABO/RhD blood group and the direct antiglobulin Coombs test (DAT) at birth is recommended good practice, but there is variability in its universal implementation. This study aims to show the comparative results in various variables of clinical impact during the hospital stay of neonates with positive DAT compared with those with negative DAT, based on the systematic detection of the ABO/RhD group and DAT at birth. Methods: Newborns between 2017 and 2020 in a high-risk pregnancy care hospital were included. The ABO/RhD and DAT group was determined in umbilical cord samples or the first 24 hours of life. Demographic, maternal, and neonatal variables were recorded. The association between the variables was estimated using the odds ratio (OR). Results: 8721 pairs were included. The DAT was positive in 239 newborns (2.7%), with the variables associated with positive PDC being maternal age > 40 years (OR: 1.5; 95% CI: 1.0 to 2.3), birth by cesarean section (1.4; 1.1-2.0), mother group O (6.4; 3.8-11.8), prematurity (3.6; 2.6-5.0), birth weight < 2500 g (2.1; 1.6-2.8), newborn group A (15.7; 10.7-23.1) and group B (17.6; 11.4-27.2), hemoglobin at birth < 13.5 g/dl (4.5; 2.8-7.1) and reticulocytosis > 9% (1.9; 1.2 to 3.1). Discussion: The frequency of neonatal positive PDC was 2.7%, with a significant association with maternal/neonatal incompatibility to the ABO and RhD group, with a substantial impact on various neonatal variables. These results support the policy of universal implementation at the birth of the ABO/RhD and DAT determination.
ABSTRACT
La guía para la atención prenatal es el marco regulatorio de las normas de obstetricia para el control y cuidado de las gestantes, con énfasis en aquellas que poseen el grupo sanguíneo RhD negativo. La aloinmunización por anti-D es la causa más frecuente y grave de la enfermedad hemolítica del recién nacido. Para un diagnóstico temprano de la embarazada con dicho grupo sanguíneo, resulta necesario determinar los anticuerpos antieritrocitarios involucrados. En la presente comunicación se resalta la función del laboratorio de inmunohematología en el seguimiento de la gestante con grupo de sangre RhD negativo.
The guide for prenatal care is the regulatory mark of obstetrics norms for the control and care of pregnant women, with emphasis on those who have the RhD negative blood group. Alloimmunization by anti-D is the most frequent and serious cause of hemolytic disease of the newborn. For an early diagnosis of the pregnant woman with said blood group, it is necessary to determine the red blood cell antibodies involved. This communication highlights the role of the immunohematology laboratory in the follow-up of pregnant woman with RhD negative blood type.
ABSTRACT
The Rh blood grouping system is a critical standardized test in transfusion medicine,espe-cially for the cases related to haemolytic transfusion reactions and neonatal haemolytic disease caused by clinical RhD blood group incompatibility.In the present case report,we presented two cases with the un-common RHD gene variation RHD*DEL37.The blood samples of the two subjects were mistakenly iden-tified as RhD-negative through conventional serological testing.Firstly,both blood samples were tested negative for the RhD antigen using traditional tube test and gel microcolumn methods.The phenotyping of RhCE were identified as ccEe and ccee for each sample,respectively.Secondly,genetic analysis was performed using polymerase chain reaction-sequence specific prime(PCR-SSP)which revealed that nei-ther sample belonging to the several common RHD gene variants which was found in Asia.Moreover,they turned out to be positive for the RHD haplotype,which indicated that exons 1-10 on one of the RHD al-leles were entirely absent.In addition,a T>C mutation was observed at bases 1154-31 in intron 8 of the other allele,which was located at the intron 8 breakpoint.This result was obtained after further Sanger sequencing of exons 1-10 of the RHD gene.The mutant allele was designated as RHD*DEL37 by the International Society of Blood Transfusion(ISBT)and was identified as D-elute(Del)by phenotype ana-lysis.Both samples were genotyped as RHD*DEL37 and showed positive results.In summary,the true genotype of the two blood samples,of which the screening results only using serological testing method was negative,were RHD*DEL37/RHD-(RHD*01N.01).Notably,this kind of genotype was reported for the first time in Chinese population.Moreover,the two individuals did not have ties of consanguinity,indicating that some of the Chinese individuals could be carriers of the genetic mutation.Therefore,it might be necessary to further confirm the frequency of this mutation in the Chinese population and the possibility of homozygosity for this mutation.This report identifies infrequent RHD gene mutation samples by coupling molecular biology and serological methods to prevent misclassification of blood groups.Com-bining serological and molecular biology test results to determine blood group is critical in protecting pa-tients during clinical transfusion procedures.
ABSTRACT
Objective To analyze the correlation between the expression of soluble glycoprotein A(GPA)in plasma of healthy blood donors and anti-M and anti-"Mia"antibodies.Methods Plasma from healthy donors from February 9,2022 to February 15,2023 was collected:irregular antibody-negative NN type(group Ⅰ,n=118)and MM type(group Ⅱ,n=51),anti-M antibody positive NN type(group Ⅲ,n=145)and anti-"Mia"antibody positive companion type(group Ⅳ,n= 87),the GPA content in plasma of different individuals in 4 groups was detected,and the difference in GPA expression was analyzed by t-test.Results The average plasma GPA contents in groupsⅠ,Ⅱ,Ⅲ and Ⅳ were 9.941±0.252,10.97±0.256,5.139±0.129 and 4.28±0.139ng/ml,respectively.The average GPA content of groups Ⅰ and Ⅱ was higher,and the average GPA content of groups Ⅲ and Ⅳ was lower,and the differences were statistically significant(all P<0.01).Conclusion The GPA content in plasma of healthy donors with anti-M and anti-"Mia"antibodies was significantly lower than that of the antibody-negative group.The results of this study lay a foundation for further investigation of whether GPA in plasma has the ability to neutralize anti-M and anti-"Mia"antibodies,improve disease diagnosis and safe blood transfusion.
ABSTRACT
Objective To analyze blood type unexpected antibody and disease characteristics of inpatients in a hospital,and provide a reference for optimizing precise transfusion schemes and improving clinical transfusion safety.Methods The data of unexpected antibody screening and identification in the General Hospital of Western Theater Command from January 2012 to December 2021 were collected,while information on these patient age,gender,blood transfusion history,pregnancy history and disease diagnosis were also collected.The positive rate,composition ratio and disease characteristics of unexpected antibodies were analyzed.Results The positive rate of unexpected antibody screening was 0.55%(1 736/315 456),in which females were higher than males(0.69%vs 0.44%,χ2=90.107,P<0.05),patients with a history of blood transfusion or(and)pregnancy were higher than those without a history of blood transfusion or(and)pregnancy(75.69%vs 22.81%,χ2=971.098,P<0.05),and patients aged 40~80 accounted for 72.93%(1 266/1 736).Patients diseases with unexpected antibody positive accounted for 80.41%(1 396/1 736),mainly including digestive system diseases,immune diseases of blood and hematopoietic organs,tumors,urogenital system diseases,circulatory system diseases,musculoskeletal system and connective tissue diseases.Moreover,91.88%(1 595/1 736)of the patients with anti-screening positive underwent antibody identification,in which the majority of unexpected antibodies were Rh blood group system[41.57%(663/1 595)],Lewis blood group system[11.22%(179/1 595)],and MNS blood group system[6.90%(110/1 595)].Antibody specificity was mainly characterized by anti-E[32.41%(517/1 595)],anti-Lea[10.47%(167/1 595)],and anti-M 6.08%(97/1 595).Other antibodies[35.8%(571/1 595)]were mainly no-detected specific antibodies.Conclusion The screening results of blood type unexpected antibodies and disease type analysis are of great significance for transfusion safety.Blood transfusion department should carry out precise blood transfusion matching with multiple antigens(RhCcDEe,Lea,M)for long-term transfusion patients,women,and patients with pregnancy or blood transfusion history,so as to reduce the incidence of unexpected antibodies and improve transfusion safety.
ABSTRACT
Objective:To investigate the molecular biological mechanism of Bw07 allele and its transferase alteration carried by a proband of ABw07 subtype.Methods:A 2-year-old male child was selected as the research object. The peripheral blood of the proband and his parents was identified for ABO blood type by the test tube method, and the ABO subgroup PCR-SSP detection and ABO gene sequencing were performed on the three individuals to determine their blood type genotypes. Finally, the effect of the p.Arg352Gln mutation on Bw07 transferase was verified by virtual mutation, DUET structure prediction, molecular dynamics analysis, and in vitro cellular experiments.Results:The serological phenotypes of the proband and his mother were ABw and Bw, respectively, while his father was normal A. The ABO subgroup PCR-SSP assay identified the three genotypes as Bw07/A, Bw07/O, and A/A, respectively.Sanger sequencing further verified that the proband and his mother carried the Bw07 gene, and virtual mutation showed that the intermolecular forces were weakened by the R352Q mutation. DUET predicted that this p.Arg352Gln mutation could affect the thermodynamic stability of Bw07 transferase. Molecular dynamics analysis confirmed that the alteration of thermodynamic stability was mainly related to the appearance of large fluctuations in the amino acid backbone atoms in the 125-133, 193-198 and 336-354 regions, and in vitro cellular experiments further verified the weakened antigen synthesis of Bw07 transferase.Conclusion:The formation of the ABw07 phenotype is associated with the mutation of the highly conserved Arg352 to Gln in Bw07 transferase.
ABSTRACT
【Objective】 To investigate the allele frequencies polymorphic distribution of Duffy, Kidd and Diego blood group systems in Dongxiang ethnic group in Gansu Province. 【Methods】 Blood samples of 100 unrelated blood donors were randomly selected from Dongxiang ethnic group in Gansu from January to December 2017. Allelic typing of Duffy, Kidd and Diego blood groups was performed by fluorescence PCR. 【Results】 The allele frequencies of Duffy, Kidd, and Diego blood group systems of Dongxiang ethnic group were 0.835 for Fy*01, 0.165 for Fy*02, 0.570 for Jk*01, 0.430 for Jk*02, 0.020 for DI*01, 0.980 for DI*02, respectively. No Fy(a-b-), Jk(a-b-), Di(a+b-) rare phenotypes were found. The antigen incompatibility rates of Fya/Fyb, Jka/Jkb, Dia/Dib of Duffy, Kidd, and Diego blood group systems were 23.76%, 37.01% and 3.84%, respectively. 【Conclusion】 The allele frequencies distribution of Duffy, Kidd and Diego blood group systems in Dongxiang ethnic group in Gansu were polymorphic and has unique ethnic distribution characteristics.
ABSTRACT
【Objective】 To comprehensively explore the serological characteristics of anti-PP1Pk and potential therapeutic strategies for recurrent miscarriage in p-blood type pregnant women. 【Methods】 Neutralization with pigeon egg white and human plasma, disruption of IgM antibodies by 2-mercaptoethanol reagent, and complement adding were conducted. Anti-PP1Pk titers under different processing conditions, media and temperatures were determined, and neutralizing effect of human plasma on anti-PP1Pk and its sensitization complement ability were analyzed. 【Results】 The titers of anti-PP1Pk in saline and column agglutination were 4 and 8, respectively. Low temperature increased titers, while β-mercaptoethanol treatment significantly reduced them. Pigeon egg white partially neutralized anti-PP1Pk antibodies. Human plasma was also capable of reducing anti-PP1Pk titers with neutralization capability surpassing that of pigeon egg white, and there were individual differences in neutralization capability. 【Conclusion】 The anti-PP1Pk was a blend of antibodies encompassing both IgM and IgG types, exhibiting cold reactivity, and having the potential for complement activation. Human plasma emerges as an effective modulator for diminishing the efficacy of anti-PP1Pk. Plasma transfusion holds promise as a therapeutic avenue for addressing recurrent miscarriages in pregnant individuals with the p phenotype.
ABSTRACT
【Objective】 To conduct serological identification and molecular study of two patients with ABO ambiguous blood group. 【Methods】 The serological tests were conducted by the tube method. DNA direct sequencing was performed to analyze the exons and transcriptional regulatory regions of the ABO gene. TA clone sequencing was performed to confirm the mutation sites of the haploid. DeepTMHMM was used for transmembrane region prediction and analysis. 【Results】 Both samples showed weak agglutination with anti-A in forward typing and the presence of anti-A antibodies in reverse typing. ABO gene analysis confirmed 1A>G and 467C>T mutations of A101 gene, indicating the Aw43 allele.DeepTMHMM analysis showed that 1A>G mutation shift back the translation start site, which would affect the transmembrane structure seriously. 【Conclusion】 The two cases of ABO ambiguous blood group were with Aw43 alleles. The 1A>G mutation affected the transmembrane region and subsequently altered the glycoprotein structure, resulting in impaired enzyme function.
ABSTRACT
【Objective】 To identify the specificity of alloantibody against high-frequency antigens in one case suffering with severe hemolytic diseases of the fetus and newborn (HDFN) and to screen for matching blood for transfusion. 【Methods】 The HDFN test and the antibody serological identification tests in the mother were performed. Several common high frequency antigens of maternal red blood cells (RBCs) were determined. IgG subtype coated on the RBCs of the newborn was determined. The phagocytic efficiency of the antibody was tested using the monocyte phagocytosis of sensitized erythrocyte by flow cytometry in vitro. Sanger sequencing of DI gene was performed in the mother, father and mother’s brother. The diluted maternal plasma was used for large scale screening of matching blood using IAT in Coomb’s gel card. 【Results】 Di(b-) phenotype was identified in the mother of the newborn and anti-Dib (titer: 512) related HDN was detected in the newborn. IgG1 and IgG2 subtypes of anti-Dib were detected and the rate of monocyte phagocytosis was 88.83%(74.7/84.09). The compatible blood was not detected in the maternal relatives. Subsequently, the newborn received the matching RBCs of two Di(b-) donors identified from 5 520 blood donors and discharged from the hospital. We screened out 17 Di(b-) donors out of 51 334 blood donors, indicating that the distribution frequency of Di(b-) among blood donors in Guangzhou was about 0.033% (17/51 334). 【Conclusion】 By serology and molecular biology methods, the newborn was identified with HDFN caused by anti-Dib, and an effective large-scale screening method for Di (b -) rare blood types was established to find matching blood, which supported the establishment of rare Di(b-) blood database.
ABSTRACT
【Objective】 To identify and analyze a case of ABO discrepancy between forward and reverse blood grouping, and to provide reference for the identification of ambiguous blood group in clinical. 【Methods】 ABO and Rh blood group typing, absorption and elution test, and gene sequencing were performed to confirm the ambiguous blood group. 【Results】 The sample was identified by absorption and elution test and molecular biological method to be Ael subtype, and was named ABO*AEL.05/ABO*O.01.01 by ISBT. After family investigation, the proband and her second son share the same characteristic mutation site, and was named ABO*AEL.05/ABO*B.01.01 by ISBT. 【Conclusion】 Multiple blood group serological tests and molecular biology tests help to identify ABO subtypes, thus assuring the safety, scientificity and rationality of clinical blood transfusion.
ABSTRACT
【Objective】 To investigate and analyze the serological and molecular biological characteristics of B(A) subgroup in a tertiary hospital in Jiaozhou, Qingdao. 【Methods】 From November 2019 to February 2023, the samples of 12 patients were suspected to be AB subgroup by microcolumn glass bead method and saline test tube method. The exons 6 and 7 of ABO gene were further amplified, sequenced and analyzed to determine the ABO allele type. 【Results】 A total of 9 cases of B(A) subgroup were detected in 26 065 patients in Jiaozhou, with a detection rate of 0.345 ‰ ( 9/26 065 ). Among the 9 cases of B(A) subgroup, 8 cases of serological reaction showed AweakB, and the gene detection was heterozygous for BA.04 gene and O gene.One case of serological reaction showed ABweak, and the gene detection was heterozygous for BA.04 gene and A gene. 【Conclusion】 Blood group serological combined with gene detection can accurately identify ABO blood group. B(A) subgroup alleles can exist in individuals with serological reaction of ABweak.
ABSTRACT
【Objective】 To analyze the serological characteristics and molecular mechanism of a novel B subtype allele 803delC. 【Methods】 ABO blood group was detected by serological method. Sequence-specific primer polymerase chain reaction (PCR-SSP) was used to detect ABO blood group genes. The coding region of exon 1-7 of ABO gene was detected by Sanger sequencing to determine the mutation site. 【Results】 Serological identification of patients was with forward O-type and reverse B-type. The result of PCR-SSP genotyping was A/O. There was A gene, which was not consistent with serological results. Further Sanger double-strand sequencing revealed that the C-base was deleted at position 803 of exon 7 on the basis of ABO*B. 01/ABO*O. 01.01. The mutation eventually leads to the amino acid substitution of p. Ala268Gly and p. Phe269Ser and the production of new open reading frame starting at position 269, with the new open reading frame No.20 amino acid being stop codon, resulted in the termination of B gene expression. Further single-strand sequencing of the ABO gene revealed that the mutation was located in the ABO*B. 01 gene. The mutation was submitted to the NCBI database with the number OR343908. 【Conclusion】 A new ABO allele leading to B variant has been found in Chinese population. Genetic detection can be used to identify the ambiguous blood group with discrepancy between forward and reverse blood grouping.
ABSTRACT
【Objective】 To correctly identify the blood group of ABO and study its molecular biological characteristics. 【Methods】 Blood samples from blood donors with discrepancies in forward and reverse typing using the microplate method were subjected to both saline tube agglutination test for serological identification and polymerase chain reaction-sequence specific primers (PCR-SSP) for genotyping. Additionally, direct sequencing of exons 1 to 7 of the ABO gene was performed on some donor samples to analyze their blood phenotype, genotype and gene sequence. 【Results】 For 256 samples showing discrepancy between forward and reverse typing in microwell method, 119 were identified as normal ABO blood types, 90 were weakened ABO antibodies and 47 were ABO subtypes by serology tube test. According to the PCR-SSP genotyping test, 233 of 256 (91.02%) were consistent with serological phenotype and genotype, 17 of 256 (6.64%) were inconsistent, and 6 samples can′t read genotype based on the kit result typing table.A total of 17 genotypes were identified in 250 samples as AO1 in 56, AO2 in 58, AA in 50, BO1 in 31, BO2 in 17, BB in 8, O1O1 in 2, O1O2 in 7, AB in 13, AO4 in 1, A205O2 in 1, A205A in 1, A201A in 1, O1O4 in 1, O2O2 in 1, A201B in 1 and A205B in 1. Sequencing of exons 1 to 7 of the ABO gene was carried out in 78 samples, and 29 ABO alleles were detected, seven of which were common alleles (*A101, *A102, *A104, *B101, *O01, *O02, *O04), 22 of which were rare alleles (*A201, *A205, *Ax01, *Ax03, *Ax13, *Ax19, *Ax22, *Ael10, *B305, *Bel03, *Bel06/*Bx02, *Bw07, *Bw12, *Bw17, *Bw37, *O05, *O26, *O61, *B(A)04, *B(A)07, *cisAB01 and *cisAB01var). In addition, six rare allele mutation sites were identified (c.101A>G; c. 103_106delG; c. 146_147insGC; c. 259G>T; c. 322C>T; c. 932T>C). 【Conclusion】 The identification of ambiguous ABO blood group requires the combination of serological testing and molecular biological examination to correctly identify the blood type and ensure the safety of clinical blood transfusion.
ABSTRACT
【Objective】 To screen the distribution frequency of Mur blood group among voluntary blood donors in Hezhou, Guangxi, and further analyze the molecular basis of of Mur antigen positive samples. 【Methods】 The Mur phenotype of voluntary blood donors in Hezhou was serologically screened using microplate method, and the distribution frequency of Mur antigens in different ethnic groups was analyzed. Genetic typing was performed on these positive samples with PCR-SSP method to verify the accuracy of the serological method, and the genetic background was sequenced and analyzed. 【Results】 Among 3 298 samples from voluntary blood donors in Hezhou, 432(13.10%, 432/3 298) were screened positive for Mur antigen, and PCR-SSP genotyping validation showed that all 432 samples were electrophoretic positive. Among them, the proportion of Han blood donors with positive Mur antigen was 12.79%(331/2 587), Yao ethnic group was 13.25%(64/483), Zhuang ethnic group was 16.51%(36/218), and no statistically significant difference was found in the three groups(P>0.05). Further sequencing results showed that 428 samples were GYP(B-A-B) Mur, also known as GYP. Mur type(12.98%, 428/3 298), the other 4 samples were GYP(B-A-B) Bun, also known as GYP. Bun type(0.12%, 4/3 298). 【Conclusion】 The Mur blood type frequency is high in the voluntary blood donors in Hezhou, Guangxi, and is predominant characterized by GYP. Mur genotype. Due to ethnic integration, no significant difference was noticed in the frequency of Mur blood type distribution between Han, Zhuang and Yao population. Therefore, conducting extensive Mur blood group antigen and antibody testing in Hezhou is of great significance for ensuring clinical blood transfusion safety.
ABSTRACT
【Objective】 To explore the blood group changes of two acute myeloid leukemia patients with suspected O type, and their relationship with the therapeutic effect. 【Methods】 Serological analysis of ABO blood group of patients was carried out by microcolumn gel method, tube method and absorption-elution test, ABO blood group genotyping was performed by microfluidic chip method. Exons E2 to E7 of ABO gene were amplified by PCR and sequenced by Sanger method. 【Results】 The forward typing of two cases were both O type, but the reverse typing were both A type. The absorption-elution test results all showed detection of antigen A. ABO gene phenotype of the two cases were both A, with genotyping results as A102/A102 and A102/O01, respectively. Sequencing results showed that SNP sites of ABO blood group were 467T/T, 261G/delG and 467C/T, respectively.In one case, the intensity of anti-A agglutination reaction changed significantly from weak to strong with the progress of treatment. 【Conclusion】 For clinical samples of acute myeloid leukemia patients with ABO forward and reverse typing discrepancy and suspected O type, the result of reverse typing should be valued, and absorption-elution test should be performed to further confirm the ABO blood type combining the genetic test results, so as to develop appropriate blood transfusion strategies for patients.
ABSTRACT
【Objective】 To study the relationship between ABO subtype, para-Bombay blood group and genotype, so as to explore the possible molecular mechanism of these two blood groups, and provide accurate genetic detection targets and theoretical basis for the accurate identification of ABO blood group. 【Methods】 First, the serology of 24 200 patients with blood type identification in the Ruijin Hospital from February to December in 2022 were analyzed, as well as 10 ambiguous ABO samples from other hospitals(3 were suspected ABO subtype and 7 were suspected para-Bombay blood group). Then ABO subtypes and para-Bombay blood groups were directly sequenced or post-clonal sequencing was performed to analyze ABO, FUT1 and FUT2 gene sequences. 【Results】 Among the 24 200 patients underwent blood type identification, 7 cases of ABO subtypes were detected. Among the 10 ambiguous samples sent by other hospitals, 2 of ABO subtypes, 1 of normal type A, and 7 of para-Bombay blood type were detected. In total, we identified blood types as follows: 1) 9 ABO subtypes: Ael(AEL.02/O.01.02), AelB(AEL.05/B.01), three of B3(2 of B3.03/O.01.01, 1 of B3.03/O.01.02), B(A)(BA.02/O.01.01), ABweak(A1.02/BW.07), Bweak(BW.31 /O.01.02), A2Bweak(A2.05 /BW.31); 2) 7 para-Bombay blood group: ABmh (FUT1*01N.13/FUT1*01N.13), 4 of Amh (3 of FUT1*01N.06/FUT1*01N.13, 1 of FUT1*01N.13/FUT1*01N.13); two of Bmh (FUT1*01N.06 /FUT1*01N.06, FUT1*01N.06/FUT1*01N.13), all of FUT2 of the 7 cases were FUT2*01/FUT2*01. 【Conclusion】 Clinical ABO blood group variant samples need to be identified in combination with serological and molecular biology to improve the accuracy of identification, thus providing a reference for safe blood transfusion, organ transplantation, and the prediction and prevention of fetal-maternal immune hemolytic disease.
ABSTRACT
【Objective】 To investigate the distribution of ABO and RhD blood groups among voluntary blood donors in Guangzhou, in order to ensure clinical blood safety and better serve blood donors. 【Methods】 Routine ABO and RhD blood group screening tests were carried out among voluntary blood donors from January 2021 to December 2022. The composition ratio of ABO blood group was statistically analyzed. The samples with discrepancy between forward and reverse blood grouping and negative RhD blood group samples were further verified by serological test to analyze the ABO subtypes and the reasons for missed detection. 【Results】 A total of 749 123 blood samples were screened from January 2021 to December 2022, and 513 291 samples were collected after excluding repeat blood donors, with the ABO blood groups as 208 126(40.55%) of O type, 138 859(27.05%) of A type, 130 987(25.52%) of B type and 35 319(6.88%) of AB type. The screening results showed discrepancy between forward and reverse blood grouping in 506 samples, of which 58 were with weak/non-erythrocyte reaction, 16 with erythrocyte reaction, 215 with weak/non-serum reaction, and 217 with serum reaction. Further serological test indicated that 44 samples were ABO subtypes, among which 13 were subtype A, 26 subtype B, 5 subtype AB and 3 B (A) and 14 Bombay-like blood group. The blood group with the highest missed detection rate in repeat blood donors were A3/B3 subtype (68.42%). A total of 128 unexpected antibody positive samples were detected among 513 291 samples A total of 2 277 samples were screened negative for RhD blood type, of which 2 188 were confirmed to be Rh negative (2 188/513 291, 0.43%), 89 were D variants (89/513 291, 0.02%, ) and 30 were detected with unexpected antibodies (30/2 188, 1.37%). 【Conclusion】 The ABO blood group distribution of blood donors in Guangzhou is O>A>B>AB, and the proportion of RhD negative population is 0.43%, slightly highter than 0.3%-0.4% of Han population nationwide. The ABO blood group subtype is dominated by B subtype. The detection rate and missed detection rate of A3/B3 subtypes in routine blood group tests are the highest.
ABSTRACT
The identification and categorization of blood groups play a crucial role in transfusion medicine as it allows for safe and compatible transfusions. Among the various blood group systems, the ABO and Rhesus blood grouping systems have special clinical significance. Understanding the distribution and frequency of ABO and Rhesus blood groups within a specific community is essential for healthcare planning, especially when it comes to blood supply management and organ transplantation. Additionally, studies have also shown a relationship between ABO blood groups and the onset and spread of diseases. Therefore, this study was conducted to detect the distribution and frequency of ABO and Rhesus blood groups in AzZawya City, Libya. In this retrospective study, data from the blood bank at Zawia Medical Center were collected over three years to detect the distribution of ABO and Rh blood groups among 5187 donors and admitted patients. The result shows that blood group O is the dominant among all study subjects (45%), as well as, among males (48.2%), and females (42.2%). Blood group A is the second most common at 34.6% among total, 33% among males, and 36% among females. For Rhesus antigens 89.4% of study subjects were Rhesus positive, 87.3% for males and 80% for females. In addition, the results show a statistically significant association between gender and blood group distribution p <0.001. Knowing the most common blood types helps maintain adequate blood bank supplies.
Subject(s)
Humans , FemaleABSTRACT
Abstract RhD alloimmunization in pregnancy is still the main cause of hemolytic disease of the fetus and neonate (HDFN). Nevertheless, there are other antigens that may be associated with the occurrence of this phenomenon and that have been growing in proportion, given that current prevention strategies focus only on anti-RhD antibodies. Although not widespread, the screening and diagnostic management of the disease caused by these antibodies has recommendations in the literature. For this reason, the following review was carried out with the objective of listing the main red blood cell antigen groups described — such as Rh, ABO, Kell, MNS, Duffy, Kidd, among others — addressing the clinical importance of each one, prevalence in different countries, and recommended management when detecting such antibodies during pregnancy.