Steven Kleinman1, Adonis Stassinopoulos2. 1. Clinical Pathology, University of British Columbia, School of Medicine, Vancouver, British Columbia, Canada. 2. Cerus Corporation, Concord, California.
Abstract
BACKGROUND: Transfusion-associated graft-versus-host disease (TA-GVHD) is a rare, often fatal complication of blood transfusion that can occur in immunocompromised or immunocompetent recipients and is the result of viable T cells present in the blood components transfused. STUDY DESIGN AND METHODS: We examined the TA-GVHD clinical case literature including numerous original clinical case reports and several comprehensive case series. We also evaluated recent in vitro experimental data on the inhibition of T cell proliferation, comparing the effect of a specific pathogen inactivation (PI) technology to that of the Food and Drug Administration-recommended gamma irradiation dose of 2500 cGy. RESULTS: We identified 12 published TA-GVHD cases with atypical/milder or delayed symptom presentations and/or an atypical clinical course; these included cases attributed to leukoreduced or suboptimally irradiated units. We summarize recent in vitro data using a sensitive limiting dilution assay that establish that, compared to irradiation at the recommended 2500 cGy dose, PI using amotosalen/ultraviolet A, or amustaline/glutathione achieves a greater degree of inhibition of T cell proliferation. CONCLUSION: We propose that TA-GVHD has a spectrum of disease severity indicating that additional mild cases may still occur but be undiagnosed and/or underreported, opening up the possibility, supported by in vitro experimental data, that irradiation at the currently established dose may not be fully protective. Furthermore, since many US institutions use component irradiation selectively only for immunocompromised patients, immunocompetent recipients are not fully protected. PI technologies appear to be at least equal to, if not better than, gamma irradiation in abrogating the ability of T cells to proliferate, and if applied to all blood components, protection against TA-GVHD would be an additional benefit that would allow for the elimination of component irradiation.
BACKGROUND: Transfusion-associated graft-versus-host disease (TA-GVHD) is a rare, often fatal complication of blood transfusion that can occur in immunocompromised or immunocompetent recipients and is the result of viable T cells present in the blood components transfused. STUDY DESIGN AND METHODS: We examined the TA-GVHD clinical case literature including numerous original clinical case reports and several comprehensive case series. We also evaluated recent in vitro experimental data on the inhibition of T cell proliferation, comparing the effect of a specific pathogen inactivation (PI) technology to that of the Food and Drug Administration-recommended gamma irradiation dose of 2500 cGy. RESULTS: We identified 12 published TA-GVHD cases with atypical/milder or delayed symptom presentations and/or an atypical clinical course; these included cases attributed to leukoreduced or suboptimally irradiated units. We summarize recent in vitro data using a sensitive limiting dilution assay that establish that, compared to irradiation at the recommended 2500 cGy dose, PI using amotosalen/ultraviolet A, or amustaline/glutathione achieves a greater degree of inhibition of T cell proliferation. CONCLUSION: We propose that TA-GVHD has a spectrum of disease severity indicating that additional mild cases may still occur but be undiagnosed and/or underreported, opening up the possibility, supported by in vitro experimental data, that irradiation at the currently established dose may not be fully protective. Furthermore, since many US institutions use component irradiation selectively only for immunocompromised patients, immunocompetent recipients are not fully protected. PI technologies appear to be at least equal to, if not better than, gamma irradiation in abrogating the ability of T cells to proliferate, and if applied to all blood components, protection against TA-GVHD would be an additional benefit that would allow for the elimination of component irradiation.
Authors: Christopher A Lazarski; Keri Toner; Michael D Keller; Naomi Luban; Pampee P Young; Catherine M Bollard; Stephen J Wagner; Patrick J Hanley Journal: Blood Transfus Date: 2021-06-14 Impact factor: 3.443
Authors: Marion C Lanteri; Felicia Santa-Maria; Andrew Laughhunn; Yvette A Girard; Marcus Picard-Maureau; Jean-Marc Payrat; Johannes Irsch; Adonis Stassinopoulos; Peter Bringmann Journal: Transfusion Date: 2020-04-24 Impact factor: 3.157