Nephrogenic systemic fibrosis--a rapidly progressive disabling disease with limited therapeutic options.

BACKGROUND: Nephrogenic systemic fibrosis (NSF) affects some patients on dialysis after gadolinium contrast agent-enhanced magnetic resonance imaging. It is characterized by progressive skin fibrosis of the extremities, sometimes including the trunk and internal organs. METHODS: The clinical course of 10 patients with biopsy-proven NSF was analyzed retrospectively with regard to gadolinium exposition, disease onset, and progression of NSF with special emphasis on physical mobility and impact of different therapeutic approaches. RESULTS: Despite physiotherapy and different additional therapeutic approaches (eg, immunosuppression, ultraviolet A-1 phototherapy, or extracorporal photopheresis) all patients developed progressive skin fibrosis of the lower extremities, sometimes including the trunk and arms. Kidney transplantation led to a slow improvement of skin lesions in one patient. Nine patients developed progressive joint contractures, and 8 patients became wheelchair bound within 12 months after disease onset and became dependent on the support of family members or a nursing service. LIMITATIONS: Retrospective analysis in a relatively small number of patients is a limitation. CONCLUSION: NSF appears to be a rapidly progressive disabling disease with limited therapeutic options.

Polyclonal cytomegalovirus-specific antibodies not only prevent virus dissemination from the portal of entry but also inhibit focal virus spread within target tissues.

Therapy of cytomegalovirus (CMV) infection in recipients of hematopoietic stem cell transplantation (HSCT) by immune serum transfer did not fulfill the high clinical expectations, although immune sera or immunoglobulin-enriched preparations pooled from many CMV-immune donors are likely to contain virus neutralizing antibodies covering a broad range of virus variants. Likewise, the highest risk of CMV disease in HSCT recipients results from the reactivation of the latently infected recipient's own virus despite pre-transplantation humoral immunity. These findings suggest the conclusion that antiviral antibodies are inefficient in controlling CMV. Rather than B cells and antibodies, T cells, in particular CD8 T cells, are thought to play a major role in resolving established organ infection. In theory, antibodies, though being capable of neutralizing free virions, could fail to prevent cell-bound virus dissemination from the portal of entry to distant target tissues and also could fail in preventing cell-to-cell spread within tissue. Here we have used murine model systems, including B cell deficient C57BL/6 micro(- ) micro(-) (microMT) mutants, to revisit the role of antiviral antibodies in the control of CMV infection and to reevaluate the prospects of an antibody-based immunotherapy from a basic science point of view.