Archives of pathology & laboratory medicine
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Arch. Pathol. Lab. Med. · Jan 1996
Review Case ReportsCoexistence of Hodgkin's disease and giant lymph node hyperplasia of the plasma-cell type (Castleman's disease).
Coexistence of Hodgkin's disease and giant lymph node hyperplasia (Castleman's disease) is well documented in the literature. We present a unique case in which the original lymph node biopsy revealed interfollicular Hodgkin's disease (CD15+, CD30+, CD45-, Reed-Sternberg cells) with coexistent histologic features of the plasma-cell variant of Castleman's disease. The patient experienced a long-term remission following combined chemotherapy and radiation therapy. ⋯ This unique case report further strengthens the association of Castleman's disease and Hodgkin's lymphoma. Two pathogenetic mechanisms for this association have been suggested: (1) secretion of interleukin-6 by Hodgkin's Reed-Sternberg cells and histiocytes, and (2) manifestation of an abnormal immune state associated with Hodgkin's disease. These two mechanisms may, indeed, be related.
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Arch. Pathol. Lab. Med. · Apr 1994
ReviewEffects of transfusion on immune function. Cancer recurrence and infection.
The paradigm related to the immunologic consequences of allogeneic blood transfusions has been extended from humoral allosensitization to the effects of transfusion on cellular immune function. This includes downregulation of effector cells, activation of latent viral infection, and the prolonged circulation of donor immunocompetent cells, as seen in graft-vs-host disease. There are now extensive data showing conclusively that allogeneic transfusions are associated with increases in cancer recurrence rates (80% in colorectal cancer) and postoperative bacterial infections (as much as 200% to 1000% in some studies). ⋯ This favors presentation of antigen by "nonprofessional" antigen-presenting cells, a situation that usually leads to anergy or tolerance rather than immune activation. Two additional hypothetical mechanisms proposed for immune dysregulation after allogeneic transfusion are (1) prolonged circulation of donor cells causing subclinical graft-vs-host disease, and (2) reactivation of immunosuppressive viruses latently present in recipient white blood cells. Results of some initial interventional studies, employing autologous transfusions or removing white blood cells from allogenic donor blood suggest that relatively simple, cost-effective strategies to ameliorate these complications may be at hand.