Abstract
Reactivation of latent herpesviruses results in outcomes ranging from asymptomatic shedding of viruses to severe disease, depending on the immunological competence of the host. Severe and prolonged suppression of cellular arid humoral immunity alter hematopoietic stem cell transplantation is accompanied by a high incidence of symptomatic recurrent herpesvirus infections. Subclinical activation also occurs more herpesvirus than previously expected in transplant recipients. An increasing viral load in the blood detected by an antinomian assay or PCR and viral shedding in regional fluids have a predictive value for subsequent diseases. Monitoring of viral DNA in the peripheral blood after allgencic bone marrow transplantation (allo-BMT) reveals unique temporal profiles of detection hr each herpesvirus. Recent studies demonstrate that recovery of CD4+ T cells is enhanced within one month after allogeneic peripheral blood stem cell transplantation (allo-PBSCT) compared to allo-BMT. To clarify whether this immunological advantage could affect the reactivation of human herpesvirus (HHV). we monitored the emergence of viral DNA by a nested-double polymerase chain reaction in peripheral blood leukocytes. Detection rates of HHV-6 DNAs which peak at 3-4 weeks post-transplant, were significantly reduced after allo-PBSCT compared to allo-BMT, while those of other herpesviruses, which tend 1.0 be reactivated late than this period (Epstein-Barr vii-virus and cytomegalovirus) were similar between the two types of transplants. Detection of HHV-6 DNA within the first month after the transplant was associated with delayed platelet engraftment. These results underscore the important role of CD4+ T reconstitution in inhibiting virus reactivation post-transplant.