A study of C4AQ0 and MHC haplotypes in Icelandic multicase families with systemic lupus erythematosus

To access publisher full text version of this article. Please click on the hyperlink in Additional Links fieldOBJECTIVE: To study MHC haplotypes and C4AQ0 in Caucasian multicase systemic lupus erythematosus (SLE) families from Iceland. METHODS: Eight families with 26 SLE patients, 98 non-SLE first-degree relatives, and a control group were studied. For statistical analysis one SLE patient and one first-degree relative were randomly chosen from each family. C4 allotyping was performed by protein electrophoresis, HLA typing of class I by the lymphocytotoxicity test, and typing of class II alleles with polymerase chain reaction with sequence specific primers. RESULTS: Six of the 8 families showed a high background of C4A protein deficiency (C4AQ0) and a significant increase was seen in C4AQ0 in the randomly chosen group of patients. A similar tendency that was statistically nonsignificant was seen in first-degree relatives. In the SLE patients C4AQ0 was found on several MHC haplotypes. Half the patients with C4A protein deficiency carry C4AQ0 on the classical C4A deletion haplotype B8-C4AQ0-C4B1-DR3 or variants of it, and the remaining C4A deficient patients on other non-DR3 carrying haplotypes. The transmission of C4AQ0 from parents to patients was in most cases through the family line, although in some instances it originates from outside the multicase SLE family through spouses married into the family. CONCLUSION: In these Caucasian multicase SLE families from Iceland, C4AQ0 shows weaker linkage disequilibrium with DR3 than reported in studies on other white populations, emphasizing the role of ethnicity. The common factor in the MHC haplotypes studied is C4AQ0, supporting a hypothesis that C4AQ0 may be an independent risk factor for SLE

A prospective, active haemovigilance study with combined cohort analysis of 19 175 transfusions of platelet components prepared with amotosalen-UVA photochemical treatment

Background and Objectives A photochemical treatment process (PCT) utilizing amotosalen and UVA light (INTERCEPT (TM) Blood System) has been developed for inactivation of viruses, bacteria, parasites and leucocytes that can contaminate blood components intended for transfusion. The objective of this study was to further characterize the safety profile of INTERCEPT-treated platelet components (PCT-PLT) administered across a broad patient population. Materials and Methods This open-label, observational haemovigilance programme of PCT-PLT transfusions was conducted in 21 centres in 11 countries. All transfusions were monitored for adverse events within 24 h post-transfusion and for serious adverse events (SAEs) up to 7 days post-transfusion. All adverse events were assessed for severity (Grade 0-4), and causal relationship to PCT-PLT transfusion. Results Over the course of 7 years in the study centres, 4067 patients received 19 175 PCT-PLT transfusions. Adverse events were infrequent, and most were of Grade 1 severity. On a per-transfusion basis, 123 (0.6%) were classified an acute transfusion reaction (ATR) defined as an adverse event related to the transfusion. Among these ATRs, the most common were chills (77, 0.4%) and urticaria (41, 0.2%). Fourteen SAEs were reported, of which 2 were attributed to platelet transfusion (<0.1%). No case of transfusion-related acute lung injury, transfusion-associated graft-versus-host disease, transfusion-transmitted infection or death was attributed to the transfusion of PCT-PLT. Conclusion This longitudinal haemovigilance safety programme to monitor PCT-PLT transfusions demonstrated a low rate of ATRs, and a safety profile consistent with that previously reported for conventional platelet components