1.
Intravenous immunoglobulin and the risk of hepatic veno-occlusive disease after bone marrow transplantation
Sullivan KM, Kansu E, Storer B, Jocom J, Emerson G, Reagan T, Emerson V, Siadak MF, Davis C, Appelbaum FR, et al
Biology of Blood & Marrow Transplantation. 1998;4((1):):20-6.
Abstract
Recent reports using historical controls or registry cohorts suggest, respectively, either an increase in the mortality or a decrease in the incidence of hepatic veno-occlusive disease (VOD) with the administration of intravenous immunoglobulin (i.v.Ig) after bone marrow transplantation. These divergent results prompted us to conduct a retrospective analysis of two randomized clinical trials conducted at our center to determine the effect of i.v.Ig infusions on the development and severity of VOD. Patients were randomized to receive (n=318) or not to receive (n=315) i.v.Ig prophylaxis after human leukocyte antigen-identical sibling (n=414), mismatched or unrelated (n=178), or autologous or syngeneic (n=41) marrow transplantation. To determine the relationship of i.v.Ig to the development and severity of VOD, a single observer reviewed data displays created for each patient for grading VOD without knowledge of patient i.v.Ig use. In this analysis, VOD was defined as hyperbilirubinemia > or =2.0 mg/dL before day 20 and abrupt weight gain > or =2% before day 14 posttransplant in the absence of other causes of liver disease. Hepatic VOD developed in 235 (37%) of the 633 randomized patients. No evidence for VOD was found in 230 (36%) patients. The remaining 168 (27%) patients were classified as having liver disease of uncertain etiology. Hepatic VOD was judged to be severe in 63 (10%) and mild or moderate in 172 (27%) patients. The number of patients developing any VOD or severe VOD was similar between those randomized to i.v.Ig prophylaxis and untreated controls (115 vs. 120 and 32 vs. 31, respectively). Logistic regression models identified several covariates as significant (p < 0.01) factors associated with the development of severe VOD. Increased risk occurred with elevated pretransplant serum aspartate aminotransferase (odds ratio [OR] = 2.64) and earlier year of transplant (OR = 3.73); decreased risk occurred with autologous or twin donors (OR = 0.09) and acute myeloid leukemia (OR = 0.39). The development of any VOD was associated with an elevated pretransplant alkaline phosphatase (OR = 4.1), pretransplant use of vancomycin (OR = 1.6) or amphotericin (OR = 3.0), posttransplant use of cyclosporine (OR = 2.5), older patient age (OR = 1.03), and obesity (OR = 0.78). We concluded from the controlled trials of 633 patients that the administration of i.v.Ig did not influence the development or severity of VOD after bone marrow transplantation.
2.
A controlled trial of long-term administration of intravenous immunoglobulin to prevent late infection and chronic graft-vs.-host disease after marrow transplantation: clinical outcome and effect on subsequent immune recovery
Sullivan KM, Storek J, Kopecky KJ, Jocom J, Longton G, Flowers M, Siadak M, Nims J, Witherspoon RP, Anasetti C, et al
Biology of Blood & Marrow Transplantation. 1996;2((1):):44-53.
Abstract
To determine whether intravenous immunoglobulin (IVIg) given monthly from day 90 to day 360 posttransplantation decreased the incidence of late infection, chronic graft-vs.-host disease (GVHD), and obliterative bronchiolitis after marrow transplantation, patients were assigned randomly to receive either IVIg (500 mg/kg/month) or no IVIg prophylaxis. Participants were registered before transplantation, and 250 patients (123 IVIg and 127 control) were evaluable for events after day 100. The two groups were balanced for age, marrow source, cytomegalovirus (CMV) seropositivity, pretransplantation conditioning, and prophylaxis for infection and GVHD. Between days 100 and 365 posttransplantation, the incidence of bacteremia or septicemia per 100 patient-days of risk was 0.10 in the IVIg group and 0.12 in the controls (p = not significant). During the same period, the incidence of localized infection was marginally higher in control patients than in IVIg recipients (0.44 vs. 0.24, respectively; relative risk [RR] 1.46, p < 0.07). Administration of IVIg prophylaxis had no effect on survival, the incidence of obliterative bronchiolitis, severity of airflow obstruction, or the incidence or mortality of chronic GVHD. After discontinuing IVIg prophylaxis at day 360, subsequent recovery of endogeneous humoral immunity was impaired (serum IgG1 and IgA levels were significantly lower than controls at day 730), and total infections were less common in the second year in control patients than in former IVIg recipients (0.12 vs 0.19, respectively; RR 0.61, p = 0.03). We conclude that in the absence of hypogammaglobulinemia, monthly administration of IVIg given from day 90 to 360 does not reduce late complications and may impair long-term humoral immune recovery after marrow transplantation.