Ethical Issues and Management of Fetal Hemolytic Anemia Caused by Anti-Rh17 in a Multipara with Rare –D– Phenotype

Background: The development of allo-anti-Rh17 (anti-Hr0) in a –D– phenotype whose red blood cells (RBCs) lack CcEe antigens is most likely triggered by transfusion, transplantation, or pregnancy. Gene conversion is the predominating factor in generating RHD-CE-D and RHCE-D-CE hybrids like –D–. Methods: We report here immunohematological and obstetrical data from 2 of the 5 pregnancies of a 24-year-old woman presenting with the –D– phenotype with anti-Rh17. Blood group typing, antibody screening, antibody differentiation, direct antiglobulin test (DAT), and antibody titers were performed by routine gel technology and tube testing. Additionally, molecular genetic analysis was performed. Fetal surveillance was done by sonographic evaluation of the fetal middle cerebral artery peak systolic velocity (MCA-PSV). Results: Blood group typing showed O, C-c-D+E-e- and the DAT was negative. DNA sequencing revealed homozygosity for an RHCE-D(3–9)-CE null allele. Anti-Rh17 titers in the fourth pregnancy remained between 1:8 and 1:128, and no signs for a fetal anemia were observed. However, in the fifth pregnancy, the antibody titers increased up to 1:4,096. Signs of moderate fetal anemia were detected and cesarean section was performed at 34 + 6 weeks of gestation. The newborn presented with hemolytic anemia (cord blood hemoglobin [Hb] = 8.5 mg/dL). She received 2 compatible (small) packed RBC concentrates, phototherapy, and intravenous immunoglobulins. Conclusion: Our case shows that the risk for hemolytic complications increases with the number of pregnancies of sensitized women. Only people who also lack CcEe antigens are compatible as donors. The role of such rare donors as lifesavers, their freedom, and voluntariness conflict with the urgent need for compatible blood.

[1]  T. Pieber,et al.  The Effect of Parenteral or Oral Iron Supplementation on Fatigue, Sleep, Quality of Life and Restless Legs Syndrome in Iron-Deficient Blood Donors: A Secondary Analysis of the IronWoMan RCT , 2020, Nutrients.

[2]  T. Pieber,et al.  High-dose intravenous versus oral iron in blood donors with iron deficiency: The IronWoMan randomized, controlled clinical trial. , 2020, Clinical nutrition.

[3]  V. Stefanovic,et al.  The Outcome of Hemolytic Disease of the Fetus and Newborn Caused by Anti-Rh17 Antibody: Analysis of Three Cases and Review of the Literature , 2019, Transfusion Medicine and Hemotherapy.

[4]  Y. Tomiyama,et al.  Successful management of fetal hemolytic disease due to strong anti-Rh17 with plasma exchange and intrauterine transfusion in a woman with the D−− phenotype , 2019, International Journal of Hematology.

[5]  H. Polin,et al.  RHD del28Phe (DMW) encoded by a novel in‐frame deletion resulting in reduced D antigen expression , 2019, Transfusion.

[6]  E. Shahverdi,et al.  First report of the rare RhCE‐depleted D‐‐phenotype in sixteen people of Iranian origin , 2019, Vox Sanguinis.

[7]  K. Magnussen,et al.  Ethical Aspects of Blood Donors and the Recipients of Their Blood , 2011, Journal of blood transfusion.

[8]  Yuan-jun Jiang,et al.  Exchange transfusion of least incompatible blood for severe hemolytic disease of the newborn due to anti‐Rh17 , 2010, Transfusion medicine.

[9]  R. Strauss,et al.  Management of a full‐term infant with hemolytic disease of the newborn due to an anti‐Rh17 antibody in a mother with D‐‐ phenotype , 2005, American journal of hematology.

[10]  E. Kelly,et al.  Maternal ABO‐mismatched blood for intrauterine transfusion of severe hemolytic disease of the newborn due to anti‐Rh17 , 2004, Transfusion.

[11]  Ziaullah,et al.  Anti-Rh17 (anti-Hr0): a rare diagnostic and management problem. , 2004, JPMA. The Journal of the Pakistan Medical Association.

[12]  Y. Noda,et al.  Fetal Hemolytic Disease due to Anti-Rh17 Alloimmunization , 2004, Fetal Diagnosis and Therapy.

[13]  W. Flegel,et al.  The RHCE allele ceRT: D epitope 6 expression does not require D‐specific amino acids , 2003, Transfusion.

[14]  L. Brion,et al.  Successful Perinatal Management of Hydrops Fetalis Due to Hemolytic Disease Associated with D−− Maternal Phenotype , 2002, Journal of Perinatology.

[15]  D. Whang,et al.  A successful delivery of a baby from a D––/D–– mother with strong anti-Hr0 , 2000, Immunohematology.

[16]  B. Tutschek,et al.  Successful management of pregnancy and hemolytic disease of the newborn due to anti‐HrO in a woman of the D‐ ‐ phenotype , 1999, Transfusion.

[17]  M. Somerville Ethical issues and challenges in implementing a new blood system. , 1998, Transfusion medicine reviews.

[18]  F. Stratton,et al.  Human Blood Groups , 1951, Nature.

[19]  K. Amrein,et al.  Adverse events and safety issues in blood donation--a comprehensive review. , 2012, Blood reviews.