A new form of myeloma "kidney": shortened hemofilter survival and implications for membrane filtration plasmapheresis.

BACKGROUND: Despite rigorous focus on extracorporeal CRRT parameters such as access, blood flow, hemoconcentration, and anticoagulation, some patients have unexpected repetitive hemofilter clotting. We instead explored patient or disease-related factors that could be responsible, and present a case of plasma cell dyscrasia in which paraproteins caused hollow fiber failure. METHODS: A patient with IgG kappa chain multiple myeloma complicated by sepsis and acute renal failure was started on CVVH with a regional citrate anticoagulation protocol that typically yields filter life of >50 h. Polysulfone hemofilters repetitively clotted every 2-4 h, even after excluding circuit-related problems. Failed filters were examined by light, electron (EM), and immunofluorescence (IF) microscopy. RESULTS: Imaging of the hemofilters revealed several ultrastructural features typical for myeloma-associated alterations in native human tissue. Red cell rouleaux formation occurred within the hollow fibers. There was extensive protein layering on the luminal surface of the fibers with some extension into their walls: these deposits were IF+ for IgG kappa, and had a fibrillary substructure on EM. CONCLUSION: Extracorporeal hollow fiber phenomena recapitulate many intra-corporeal paraprotein effects such as those described in the kidney with plasma cell dyscrasias. Rapid protein layering suggests fouling of the membrane, decreased solute clearance before total device failure, and raises the theoretical concern that this might also occur during filtration plasmapheresis: we thus suggest serial serum free light chain levels to confirm their removal when using that technique. These findings emphasize the importance of disease rather than circuit-related factors that are under-appreciated causes of premature hemofilter failure.

Membranous glomerulonephritis associated with follicular B-cell lymphoma and subepithelial deposition of IgG1-kappa paraprotein.

A case is described of B-cell lymphoma/chronic lymphocytic leukaemia associated with membranous glomerulonephritis in which the subepithelial deposits of immunoglobulin showed kappa light chain restriction by immunofluorescence. Surface IgG-kappa immunoglobulin was demonstrated on the malignant B cells, and a monoclonal protein of the same type was eluted from kidney. The mechanism of membranous glomerulonephritis in this type of lymphoid malignancy is clearly different from that in epithelial malignancies.

Bone marrow extracellular large geometric crystals in IgG/lambda MGUS.

We describe the peculiar histopathology of the bone marrow in a case of IgG/lambda MGUS. Striking eosinophilic crystals with a rectangular, rhomboid or square shape lay in the interstitium, sometimes in optically empty spaces, but failed to elicit a foreign body giant cell reaction. Their histochemical properties, immunoreactivity for anti-lambda light chain antiserum, and ultrastructural features strongly supported their relationship with the paraprotein synthesized by the monoclonal plasma cells. The crystals were not observed on bone marrow aspirate smear, suggesting that they had formed during trephine biopsy processing or, alternatively, that they had been removed during the smear preparation. We feel that pathologists should be aware of the existence of this type of crystals, which differ from both the amyloid deposits and the proteinaceous material sometimes observed in plasma cell proliferations. Their presence in the bone marrow should alert the clinician to investigate the involvement of other organs with immunoglobulin deposits.

Monomeric complement-activating IgG paraproteins.

Three patients presented a unique syndrome of recurrent panniculitis with an IgGkappa paraprotein and depletion of the early components of the classical pathway of complement. The IgGkappa paraproteins were monomers with a normal structure, and with no evidence for aggregation, as assessed by electron microscopy and ultracentrifugation. Both heavy and light chains were of normal molecular size (SDS-PAGE), and the paraproteins were not heavily glycosylated. However, the paraproteins from all three patients had unusual features that included abnormal behavior on gel filtration chromatography and a heavy chain of high pI. When analyzed by fast protein liquid chromatography (Superdex 200), elution of the paraproteins was retarded, particularly when the ionic strength was increased. This retardation was partially reversed in 20% alcohol, and fully reversed in 6 M guanidine-HCl. Neither anti-C1 inhibitor nor anti-C1q autoantibodies were found in any of the patients' sera. However, the paraproteins bound to the globular heads of C1q at normal ionic strength. They activated C4 in normal human serum, but not in C1q-deficient serum. Activation led to the formation of C1s-C1 inhibitor complexes. Taken together, the data suggest that the unusual paraproteins have the capacity to bind C1q, which then leads to activation of C1. The ability of these paraproteins to activate C1, in spite of their being soluble monomers, is likely to be related to their unique physicochemical features.