Histopathological evidence for macrophage activation driving post-transfusion hyperhaemolysis syndrome

Nay Win; Sebastian Lucas; Sangam Hebballi; Angela McKernan; Rosie Hamilton; Ivan Robinson; Frederick Chen

doi:10.1111/bjh.15925

Histopathological evidence for macrophage activation driving post-transfusion hyperhaemolysis syndrome

Nay Win^*, Sebastian Lucas, Sangam Hebballi, Angela McKernan, Rosie Hamilton, Ivan Robinson, Frederick Chen

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

Post-transfusion hyperhaemolysis syndrome (PTHS) is a rare life-threatening transfusion complication reported mainly in sickle cell patients. Its pathogenesis is poorly understood. Antibody-mediated haemolysis and bystander effect have been proposed as putative mechanisms, but in half of cases, red cell antibodies are undetectable, and PTHS develops despite transfusion of cross-matched compatible RBC. An alternate hypothesis proposes activated macrophages as the main drivers of red cell destruction through direct phagocytosis. We report the histopathological findings of two patients with PTHS showing extensive macrophage expansion and erythrophagocytosis, supportive of macrophage activation driving PTHS. This supports a possible role for novel therapies that target macrophage activation.

Original language	English
Pages (from-to)	499-502
Number of pages	4
Journal	British Journal of Haematology
Volume	186
Issue number	3
DOIs	https://doi.org/10.1111/bjh.15925
Publication status	Published - 1 Aug 2019

Keywords

ferritin
hyperhaemolysis
macrophage activation
post-transfusion
sickle cell disease

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title = "Histopathological evidence for macrophage activation driving post-transfusion hyperhaemolysis syndrome",

abstract = "Post-transfusion hyperhaemolysis syndrome (PTHS) is a rare life-threatening transfusion complication reported mainly in sickle cell patients. Its pathogenesis is poorly understood. Antibody-mediated haemolysis and bystander effect have been proposed as putative mechanisms, but in half of cases, red cell antibodies are undetectable, and PTHS develops despite transfusion of cross-matched compatible RBC. An alternate hypothesis proposes activated macrophages as the main drivers of red cell destruction through direct phagocytosis. We report the histopathological findings of two patients with PTHS showing extensive macrophage expansion and erythrophagocytosis, supportive of macrophage activation driving PTHS. This supports a possible role for novel therapies that target macrophage activation.",

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AU - Win, Nay

AU - Lucas, Sebastian

AU - Hebballi, Sangam

AU - McKernan, Angela

AU - Hamilton, Rosie

AU - Robinson, Ivan

AU - Chen, Frederick

PY - 2019/8/1

Y1 - 2019/8/1

N2 - Post-transfusion hyperhaemolysis syndrome (PTHS) is a rare life-threatening transfusion complication reported mainly in sickle cell patients. Its pathogenesis is poorly understood. Antibody-mediated haemolysis and bystander effect have been proposed as putative mechanisms, but in half of cases, red cell antibodies are undetectable, and PTHS develops despite transfusion of cross-matched compatible RBC. An alternate hypothesis proposes activated macrophages as the main drivers of red cell destruction through direct phagocytosis. We report the histopathological findings of two patients with PTHS showing extensive macrophage expansion and erythrophagocytosis, supportive of macrophage activation driving PTHS. This supports a possible role for novel therapies that target macrophage activation.

AB - Post-transfusion hyperhaemolysis syndrome (PTHS) is a rare life-threatening transfusion complication reported mainly in sickle cell patients. Its pathogenesis is poorly understood. Antibody-mediated haemolysis and bystander effect have been proposed as putative mechanisms, but in half of cases, red cell antibodies are undetectable, and PTHS develops despite transfusion of cross-matched compatible RBC. An alternate hypothesis proposes activated macrophages as the main drivers of red cell destruction through direct phagocytosis. We report the histopathological findings of two patients with PTHS showing extensive macrophage expansion and erythrophagocytosis, supportive of macrophage activation driving PTHS. This supports a possible role for novel therapies that target macrophage activation.

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Histopathological evidence for macrophage activation driving post-transfusion hyperhaemolysis syndrome

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