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Red blood cell storage and alloimmunization: a fact or a myth? DOI of original article: http://dx.doi.org/10.1016/j.bjhh.2015.07.003. See paper by Dinardo et al. in Rev Bras Hematol Hemoter. 2015;37(5):320-3.

Red blood cell (RBC) alloimmunization is a significant clinical complication of transfusion-dependent patients; it is related to delays in obtaining matched blood as well as potentially life-threatening delayed hemolytic transfusion reactions (DHTRs), autoantibody formation, and hyperhemolysis syndrome.11. Schonewille H, Haak HL, van Zijl AM. Alloimmunization after blood transfusion in patients with hematologic and oncologic diseases. Transfusion (Paris). 1999;39(7):763-71. Because of its critical significance, the phenomenon of RBC alloimmunization has been investigated in a variety of settings. With a better understanding of the factors that predispose to RBC alloimmunization, it is possible to devise strategies for blood transfusions that reduce the risk of alloimmunization and adverse reactions to transfusion.

Clinical and biological factors such as disease state, human leukocyte antigen (HLA) polymorphisms, underlying inflammation, immunogenicity of the antigens and patient age are independent variables involved in RBC alloimmunization.22. Kormoczi GF, Mayr WR. Responder individuality in red blood cell alloimmunization. Transf Med Hemother. 2014;41(6):446-51. In addition, stored leukocyte-reduced RBCs have been reported to produce higher rates of immunogenicity than fresh blood in murine models.33. Ryder AB, Zimring JC, Hendrickson JE. Factors influencing RBC alloimmunization: lessons learned from murine models. Transf Med Hemother 2014;41(6):406-19. These findings led to speculate that the transfusion of older RBCs might create a cytokine burst that predisposes a human recipient to RBC alloimmunization and thus raised the interest of some groups to perform studies in humans.

Some recent studies have suggested that RBC storage length is associated with adverse patient outcomes ranging from death to pneumonia to increased length of hospital and intensive care unit stays.44. Triulzi DJ, Yazer MH. Clinical studies of the effect of blood storage on patient outcomes. Transf Apher Sci. 2010;43(1):95-106. 55. Hod EA, Zhang N, Sokol SA, Wojczyk BS, Ansaldi D, Francis KP, et al. Transfusion of red blood cells after prolonged storage produces harmful effects that are mediated by iron and inflammation. Blood. 2010;115(21):4284-92. RBC alloimmunization was chosen as an outcome in these studies because it can be both medically and logistically problematic.66. Hendrickson JE, Hod EA, Hudson KE, Spitalnik SL, Zimring JC. Transfusion of fresh murine red blood cells reverse adverse effects of stored RBCs. Transfusion (Paris). 2011;51(12):2695-702. 77. Veale MF, Healey G, Sparrow RL. Longer storage of red blood cells is associated with increased in vitro erythrophagocytosis. Vox Sang. 2014;106(3):219-26. By identifying associations, it may be possible to support or not support changing in the current inventory management practice of issuing the oldest RBCs first in chronically transfused patients.

Although there are few and limited studies showing the effect of age of RBCs on alloimmunization in humans, some studies did not note any association between the duration of RBC storage and recipient alloimmune responses.88. Zalpuri S, Schonewille H, Middelburg R, van de Watering L, Vooght K, Zimring J, et al. Effect of storage of red blood cells on alloimmunization. Transfusion (Paris). 2013;53(11):2795-800. 99. Yazer MH, Triulzi DJ. Receipt of older RBCs does not predispose D-negative recipients to anti-D alloimmunization. Am J Clin Pathol. 2010;134(3):443-7. However, one recent study in patients with sickle cell disease (SCD) suggested that RBC antibody formation is significantly associated with an older age of RBCs at the time of transfusion but this study has limitations due to its retrospective design in which inflammatory markers were not assessed and because of the small number of patients with new antibody formation.1010. Desai PC, Deal AM, Pfaff ER, Qaqish B, Hebden LM, Park YA. Alloimmunization is associated with older age of transfused red blood cells in sickle cell disease. Am J Hematol. 2015;90(8):691-5. The differentiation of young versus old blood is another variable that influences studies; most often, a storage period of 14 days is used as a cutoff point to define older versus younger blood.

An important retrospective case-control study was per- formed of a group of alloimmunized patients and non-alloimmunized controls with solid cancer tumors that received non-phenotyped RBC transfusions when the trans- fusion of older RBC units was investigated as a risk factor for alloimmunization.1111. Dinardo CL, Fernandes FL, Sampaio L, Sabino E, Mendrone A Jr. Transfusion of older RBC units, cytokine burst and alloimmunization: a case-control study. Rev Bras Hematol Hemoter. 2015;37(5):320-3. This was the first human study that evaluated the risk of alloimmunization with the transfusion of older RBCs that assured a similar inflammatory background between the study groups. The authors assessed the association between the transfusion of older RBC units (storage time of 14 days) subjected to bedside leukodepletion and alloimmunization in order to confirm previous experimental results and concluded that the transfusion of older RBC units is not a key risk factor for alloimmunization in non-SCD patients. The findings of this study are very interesting and helpful clinically and logistically as they do not reinforce previous experimental data and therefore do not support strategies of providing fresher RBC units as a prophylaxis for alloimmunization.

Some factors known to influence RBC alloimmunization identified in murine models are in the process of being investigated in humans. Although the results obtained by Dinardo et al.1111. Dinardo CL, Fernandes FL, Sampaio L, Sabino E, Mendrone A Jr. Transfusion of older RBC units, cytokine burst and alloimmunization: a case-control study. Rev Bras Hematol Hemoter. 2015;37(5):320-3. are in agreement with other retrospective human studies88. Zalpuri S, Schonewille H, Middelburg R, van de Watering L, Vooght K, Zimring J, et al. Effect of storage of red blood cells on alloimmunization. Transfusion (Paris). 2013;53(11):2795-800. 99. Yazer MH, Triulzi DJ. Receipt of older RBCs does not predispose D-negative recipients to anti-D alloimmunization. Am J Clin Pathol. 2010;134(3):443-7. and strongly suggest that the transfusion of older RBC units is not a risk factor for alloimmunization, we should consider that most studies are retrospective and do not com- pare pre-transfusion samples to post-transfusion samples. Therefore, it is unclear as to whether the presence of an alloantibody is necessarily the result of a previous transfusion. Further controlled prospective studies are probably necessary. Another factor is that the underlying disease-associated immunosuppression in association with chemotherapy may suppress alloantibody production in patients with oncologic disorders.

REFERENCES

  • 1. Schonewille H, Haak HL, van Zijl AM. Alloimmunization after blood transfusion in patients with hematologic and oncologic diseases. Transfusion (Paris). 1999;39(7):763-71.
  • 2. Kormoczi GF, Mayr WR. Responder individuality in red blood cell alloimmunization. Transf Med Hemother. 2014;41(6):446-51.
  • 3. Ryder AB, Zimring JC, Hendrickson JE. Factors influencing RBC alloimmunization: lessons learned from murine models. Transf Med Hemother 2014;41(6):406-19.
  • 4. Triulzi DJ, Yazer MH. Clinical studies of the effect of blood storage on patient outcomes. Transf Apher Sci. 2010;43(1):95-106.
  • 5. Hod EA, Zhang N, Sokol SA, Wojczyk BS, Ansaldi D, Francis KP, et al. Transfusion of red blood cells after prolonged storage produces harmful effects that are mediated by iron and inflammation. Blood. 2010;115(21):4284-92.
  • 6. Hendrickson JE, Hod EA, Hudson KE, Spitalnik SL, Zimring JC. Transfusion of fresh murine red blood cells reverse adverse effects of stored RBCs. Transfusion (Paris). 2011;51(12):2695-702.
  • 7. Veale MF, Healey G, Sparrow RL. Longer storage of red blood cells is associated with increased in vitro erythrophagocytosis. Vox Sang. 2014;106(3):219-26.
  • 8. Zalpuri S, Schonewille H, Middelburg R, van de Watering L, Vooght K, Zimring J, et al. Effect of storage of red blood cells on alloimmunization. Transfusion (Paris). 2013;53(11):2795-800.
  • 9. Yazer MH, Triulzi DJ. Receipt of older RBCs does not predispose D-negative recipients to anti-D alloimmunization. Am J Clin Pathol. 2010;134(3):443-7.
  • 10. Desai PC, Deal AM, Pfaff ER, Qaqish B, Hebden LM, Park YA. Alloimmunization is associated with older age of transfused red blood cells in sickle cell disease. Am J Hematol. 2015;90(8):691-5.
  • 11. Dinardo CL, Fernandes FL, Sampaio L, Sabino E, Mendrone A Jr. Transfusion of older RBC units, cytokine burst and alloimmunization: a case-control study. Rev Bras Hematol Hemoter. 2015;37(5):320-3.

Publication Dates

  • Publication in this collection
    Nov-Dec 2015
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