Affiliation:
1. Red Cross Transfusion Service of Upper Austria, Krankenhausstrasse 7, 4020 Linz, Austria
Abstract
Rapid and reliable Rhesus D typing is crucial for blood donation centers. In instances of massive blood transfusion or reduced antigen expression, DNA-based phenotype prediction becomes mandatory. Our molecular RHD typing approach involves an initial real-time PCR for the most common aberrant RHD types in our region, RHD*01W.1 (weak D type 1), RHD*01W.2 (weak D type 2), RHD*01W.3 (weak D type 3), and RHD*07.01 (DVII). For comprehensive coverage, Sanger sequencing of RHD coding regions is performed in the case of PCR target-negative results. We evaluated the specificity and accuracy of these methods using the recently launched LightCycler® PRO real-time platform. All findings demonstrated remarkable accuracy. Notably, the LightCycler® PRO instrument offers a distinct advantage in data interpretation and integration via the HL7 interface. This study underlines the importance of including advanced molecular techniques in blood typing protocols, especially in scenarios where conventional serological methods may be insufficient.
Reference39 articles.
1. Review: The molecular basis of the Rh blood group phenotypes;Wagner;Immunohematology,2004
2. Molecular genetics and clinical applications for RH;Flegel;Transfus. Apher. Sci.,2011
3. (2024, May 27). The RhesusBase. Available online: https://www.rhesusbase.info/.
4. (2024, May 27). International Society of Blood Transfusion (ISBT). Available online: https://www.isbtweb.org/resource/004rhd.html.
5. Serological weak D phenotypes: A review and guidance for interpreting the RhD blood type using the RHD genotype;Sandler;Br. J. Haematol.,2017