ABSTRACT
【Objective】 To investigate the gene frequency and polymorphism of RBC blood group systems in RhD negtive population in Hunan, so as to lay a foundation for clinical blood transfusion and construction of multiple rare blood group database. 【Methods】 Blood samples were taken from 300 RhD negative blood donors, confirmed by serological method, from June 2019 to June 2020,. RHD genotyping was performed by SSP-PCR. For blood donors with typing results as RhD negative plus RHD gene deletion, antigens genotyping of MNS, Duffy, Kell, Domrock, Diego, Kidd, Sciawnna, Colton, Lutheran and Yt RBC blood group systems were performed by SSP-PCR and analyzed by the chi square test of SPSS 20 statistical software. 【Results】 RHD gene deletions accounted for 58.67% (176 / 300) of serological D negative blood donors. The gene frequencies were as follows: MNS: GYPB*S=0.045 5(8/176), GYPB*s=0.954 5(168/176), GYP*Dane=0.039 8(7/176); Duffy: FY*A =0.965 6(170/176), FY*B=0.034 1(6/176); Dombrock: DO*A=0.082 4(14.5/176), DO*B=0.917 6(161.5/176); Diego: DI*A=0.025 6(4.5/176), DI*B =0.974 4(171.5/176); Kidd: JK*A=0.485 8(85.5/176), JK*B=0.514 2(90.5/176); Kell: KP*A=0.005 7(1/176), KP*B=0.994 3(175/176); Lutheran: LU*A=0.005 7(1/176), LU*B=0.994 3(175/176); Yt: YT*A=0.002 8(0.5/176), YT*B=0.997 2(175.5/176). The genotypes of Kell(K+ /k+ ), Scianna and Colton blood groups were KEL*02 /KEL*02, SC*01 /SC*01 and CO*A /CO*B, respectively. The expected frequencies of the combination of type O, RhD negative and other blood group systems were between 1/100 000 to 1/10 000. 【Conclusion】 Among RhD negative blood donors in Hunan, the gene profiles of MNS, Duffy, Domrock, Diego, Kidd, Kell and Lutheran blood group system were polymorphic, and Kell (K+ /k+ ), Colton and Scianna were homozygous. The data of other RBC blood group systems from RhD negative blood donors is of great significance to establish local database of rare blood groups.
ABSTRACT
【Objective】 To investigate the effect of serological methods for eliminating the interference of warm autoantibodies with the compatibility test before blood transfusion. 【Methods】 The blood samples (whole blood and serum, 3 mL/each) of 10 cases of warm autoantibodies interfering with antibody screening and identification were collected. Autogenous or allogeneic red blood cells(RBCs) were treated with microthermal(45 ℃), chloroquine, or ZZAP (dithiothreitol and papain) reagents, and then were used to absorb the autoantibodies in patients′ plasma. The plasma after absorption and RBC elution were used for antibody identification by anti-human globulin method or Polybrene method to determine the specificity of the autoantibody/alloantibody. Blood transfusion with ABO/Rh homotypic RBCs without corresponding antigens was performed in patients with alloantibodies or specific autoantibodies, and the efficacy of blood transfusion was evaluated. 【Results】 The interferenc of warm autoantibodies with antibody screening and identification due to primary or secondary autoimmune diseases were eliminated after absorption, and IgG isospecific antibodies (anti-E, anti-Jka, anti-Wra) in 3 cases and specific autoantibodies (anti-Ce) in 1 case were yielded. 6 of the 10 patients received blood transfusion, and 4 with specific antibodies avoided exposure to corresponding antigens. After transfusion of 2U suspended RBCs, the increase of hemoglobin at 24h in all 6 patients was greater than 10 g/L, and no hemolytic transfusion reaction occurred. Anemia symptoms were improved after transfusion. 【Conclusion】 Appropriate elution methods and autologous/allogeneic absorption methods can eliminate the interference of warm autoantibodies with the identification of alloantibodies, therefore can accurately identify the types and properties of antibodies, thus providing targeted and effective blood transfusion.