Background: After acute parvovirus B19 (B19V) infection of immunocompetent individuals, viral genomes persist lifelong in various tissues. In immunocompromized patients, acute B19V infection may be associated with severe anaemia. It is unclear whether reactivation of latent B19V DNA may contribute to persistent viraemia and anaemia in transplant recipients.
Objective and study design: We retrospectively analysed the impact of B19V infection in 371 adult transplant recipients (kidney, liver, heart, bone marrow). The patients' pre-transplantation serostatus was determined. 1431 sera or plasmas obtained in monthly intervals during six months following transplantation were analysed for the presence of B19V DNA by quantitative PCR which allows discrimination between B19V genotypes 1-3.
Results: Overall, 82% of the patients were seropositive. B19V DNA (<600-1100 geq/ml) was detected in 4.0% of patients and classified as genotype 1 in 12, genotype 2 in one and genotype 3 in two patients. Whereas 5.5%, 6.7% and 5.7% of liver, heart and bone marrow recipients displayed DNAemia, viral genomes were detected only in 1.4% of kidney recipients. Haemoglobin levels and reticulocyte counts showed no differences between DNAemic and non-DNAemic patients. In a control group of 120 healthy subjects, 78% were seropositive and 2.5% displayed DNAemia.
Conclusions: Prevalence and level of B19V DNAemia in adult transplant recipients was comparable to that observed in healthy individuals, but with a distinct accumulation within the first weeks post-transplantation. The presence of low-level DNAemia in transplant recipients was not associated with anaemia.
Keywords: B19V; DNA; Genotype; Hb; IVIG; IgG; IgM; Parvovirus B19; Quantitative PCR; SD; Seroprevalence; Transplantation; deoxyribonucleic acid; f; female; genome equivalents; genotype; geq; gt; haemoglobin; immunoglobulin G; immunoglobulin M; intravenous immunoglobulins; m; male, mean; qPCR; quantitative polymerase chain reaction; reti; reticulocytes; standard deviation; transplantation; tx; y; years.
Copyright © 2013 Elsevier B.V. All rights reserved.