To the editor:

In their impressive report in a previous issue of Blood, Higgins and Sloan examined large patient databases and developed a model of alloimmunization to red blood cell antigens as a stochastic process.1  They identified a subgroup of recipients that had a substantially increased risk of alloimmunization that was independent of common disease states, age, or number of alloantibodies previously formed. Their model suggests that approximately 13% of the transfusion recipient population are responders and at risk of forming red blood cell alloantibodies.

The authors mention that there are reports that have identified a higher proportion of red blood cell alloantibodies in patients with sickle cell disease (SCD). They also state that they have excluded “any antibodies for these patients” from their report. Indeed, there are numerous studies that have found rates of alloimmunization in patients with SCD between 18% and 36%.2,,,,,,,10  For example, Rosse et al reported an alloimmunization rate of 18.6% in 1814 patients with SCD who had been transfused. (Unlike Higgins and Sloan, they also noted a strong correlation between the prevalence of alloimmunization and the number of transfusions received.)9  Garratty summarized 12 reports, encompassing 2818 transfused SCD patients, that collectively found a mean and median alloimmunization rate of 25%.5 

It would be interesting for Higgins and Sloan to comment on how their stochastic modeling aligns with the widely reported higher rate of alloimmunization in patients with SCD. Do they feel that the well-known disparities in antigen frequencies between SCD patients and the blood donor population, as well as the immunocompetence of SCD patients, fully account for the difference between these reports and their findings?

Conflict-of-interest disclosure: The author is a member of the Board of Directors and chair of the Scientific Advisory Board of Immucor Corporation.

Correspondence: Paul D. Mintz, MD, University of Virginia Health System, PO Box 800286, Charlottesville, VA 22908-0286; email: mintz@virginia.edu.

1
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J
Sloan
 
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Stochastic modeling of human RBC alloimmunization: evidence for a distinct population of immunologic responders.
Blood
2008
112
6
2546
2553
2
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Padmanabhan
 
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Paley
 
C
Chandrasekaran
 
V
Clinical significance of RBC alloantibodies and autoantibodies in sickle cell patients who received transfusions.
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2002
42
1
37
43
3
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O
Sandler
 
S
Houston-Yu
 
P
Rana
 
S
Predicting the effect of transfusion only phenotype-matched RBCs to patients with sickle cell disease: theoretical and practical implications.
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2002
42
6
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4
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E
Risk of alloimmunization and delayed hemolytic transfusion reactions in patients with sickle cell disease.
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11
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5
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G
Severe reactions associated with transfusion of patients with sickle cell disease.
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6
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V
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L
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L
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E
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A
Alloimmunization to red cell antigens in thalassemia: comparative study of usual versus better-match transfusion programmes.
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1987
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7
Orlina
 
A
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S
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M
Problems of chronic transfusion in sickle cell disease.
J Clin Apheresis
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6
4
234
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8
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A
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P
Koshy
 
M
Post-transfusion alloimmunization in patients with sickle cell disease.
Am J Hematol
1978
5
2
101
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9
Rosse
 
W
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D
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T
et al
Transfusion and alloimmunization in sickle-cell disease. The Cooperative Study of Sickle Cell Disease.
Blood
1990
76
7
1431
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10
Vichinsky
 
E
Earles
 
A
Johnson
 
R
et al
Alloimmunization in sickle cell-anemia and transfusion of racially unmatched blood.
N Engl J Med
1990
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23
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