Impact of a confirmatory RhD test on the correct serologic typing of blood donors

Schmidt, Luciana Cayres; Castilho, Lilian; Vieira, Otavio Vinicius Neves; Sippert, Emília; Gaspardi, Ane Caroline; Martins, Marina Lobato; Malta, Maria Clara Fernandes da Silva

doi:10.1016/j.bjhh.2015.06.001

Cited by 4 publications

(4 citation statements)

References 18 publications

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“…When the number of genotyped weak D type 1, 2 or 3 types is calculated over all genotyped weak D, frequencies range from 87% in Croatia to 100% in Albania . Several reasons can be invoked to explain such discrepancies: (1) anti‐D serology tests used traditionally for donors in the blood banks, resulting in weak D type 1, 2 or 3 samples being mistyped as positive for the first‐level screening (therefore, no second‐level confirmation is performed); (2) different monoclonal anti‐D are used among different studies; (3) some studies calculate frequency percentages using the serological weak D samples as total number of samples, while others use the genotyped weak D samples as total number of samples; (4) studies have different sample sizes and origins; (5) inclusion of samples because of anti‐D production ; and (6) DEL samples .…”

Section: Discussionmentioning

confidence: 99%

Performance evaluation study of ID RHD XT, a new genotyping assay for the detection of high‐prevalence RhD negative and weak D types

et al. 2018

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Section: Discussionmentioning

confidence: 99%

Performance evaluation study of ID RHD XT, a new genotyping assay for the detection of high‐prevalence RhD negative and weak D types

et al. 2018

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“…Donors who are identified as D− on both anti‐D reagents are subjected to weak D testing utilizing the antihuman globulin phase. Donors should be labelled as D− only if the weak D test is negative .…”

Section: Rh Systemmentioning

confidence: 99%

How do we approach dilemmas in red cell testing?

Nadarajan

2016

ISBT Science Series

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Despite the large number of serologically identified red cell antigens to date, it is reassuring to note that in the common clinical scenario, the transfusion laboratory would only likely deal with a narrow range of clinically significant antibodies to specific antigens of blood group systems. Accurate ABO and RhD typing still remains the most crucial step in pretransfusion testing followed by the antibody screen. The correct identification of single antibodies or multiple antibodies and whether they are alloantibodies or autoantibodies is necessary so that corresponding antigen‐negative red cells can be supplied. Clinically insignificant antibodies or what some would denote as ‘nuisance’ antibodies would need to be differentiated from clinically significant antibodies. When discrepancies occur between forward and reverse ABO typing, it is crucial that laboratories resolve the discrepancy before a specific ABO blood group is assigned. The inclusion of O cells in reverse grouping, anti‐H and anti‐A1 lectins in the forward, performing the typing on a range of temperatures using washed red cells and careful interpretation of agglutination patterns, would usually provide an answer. On occasions, a saliva test may be necessary and rarely molecular typing. With regard to RhD typing, test systems should identify RhD‐negative and D‐variant individuals so that D‐negative units can be issued to them. Testing with antisera from different clones, the use of adsorption–elution techniques and RhD.CcEe typing aids in coming to a conclusion, before molecular testing becomes necessary. Extended red cell phenotyping is indicated if the patient is at risk for developing a red cell antibody.

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“…It is consensus that molecular techniques allowed the start of a new stage of blood donor typing, including several strategies to identify RhD variants that are potentially immunogenic in apparently RhD-negative donors, as shown in several studies. 11 , 12 , 13 , 14 , 15 , 16 , 17 Furthermore, in some of these studies, these variants were also found to be associated with the C and E antigens of the Rh system, 11 , 12 , 14 , 15 although some RhD subtypes were found in ccee individuals. 13 Techniques have now identified more than 200 variants of the D antigen, including weak D, D partial and DEL types.…”

mentioning

confidence: 90%

“…A study by Schmidt et al 14 showed positive results for the RhD antigen in 5.9% of 152 blood donors – who had been previously identified as RhD negative in routine examinations – when using anti-D IgG monoclonal antibodies (clones ESD1, MS-26 and TH-28) in gel cards. In the same study, the authors evaluated another population of 4897 donors from different regions of Minas Gerais state, Brazil, who had all been previously phenotyped as D negative in the indirect antiglobulin test (IAT), with clones MS-26 and TH-28, and 70 (1.43%) individuals showed weak reactivity with ESD1 anti-D antibodies.…”

mentioning

confidence: 99%

Impact on patient of the detection of weakly expressed RhD antigens in blood donors

Moraes‐Souza

Alves

2015

Revista Brasileira de Hematologia e Hemoterapia

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Impact of a confirmatory RhD test on the correct serologic typing of blood donors

Cited by 4 publications

References 18 publications

Performance evaluation study of ID RHD XT, a new genotyping assay for the detection of high‐prevalence RhD negative and weak D types

Performance evaluation study of ID RHD XT, a new genotyping assay for the detection of high‐prevalence RhD negative and weak D types

How do we approach dilemmas in red cell testing?

Impact on patient of the detection of weakly expressed RhD antigens in blood donors

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