Abstract
Metabolic alkalosis secondary to citrate toxicity from plasma exchange is very uncommon in patients with normal renal function. In patients with advanced renal disease this can be a fatal event. We describe a case of middle-aged woman with Goodpasture's syndrome treated with plasma exchange who developed severe metabolic alkalosis. High citrate load in plasma exchange fluid is the underlying etiology. Citrate metabolism generates bicarbonate and once its level exceeds the excretory capacity of kidneys, the severe metabolic alkalosis ensues. Our patient presented with generalized weakness, fever, and oliguria and developed rapidly progressive renal failure. Patient had positive serology for antineutrophilic cytoplasmic antibodies myeloperoxidase (ANCA-MPO) and anti-glomerular basement membrane antibodies (anti-GBM). Renal biopsy showed diffuse necrotizing and crescentic glomerulonephritis with linear glomerular basement membrane staining. Patient did not respond to intravenous steroids. Plasma exchange was started with fresh frozen plasma but patient developed severe metabolic alkalosis. This metabolic alkalosis normalized with cessation of plasma exchange and initiation of low bicarbonate hemodialysis. ANCA-MPO and anti-GBM antibodies levels normalized within 2 weeks and remained undetectable at 3 months. Patient still required maintenance hemodialysis.
Highlights
Anti-glomerular basement membrane antibody disease is a rare but well-recognized cause of glomerulonephritis
Citrate is used as an anticoagulant for plasma exchange fluid and its in vivo conversion into bicarbonate leads to the metabolic alkalosis and its attendant complications
Aggressive treatment strategies in the form of immunosuppressive medications and plasmapheresis are the mainstay of treatment [3]
Summary
Anti-glomerular basement membrane antibody disease is a rare but well-recognized cause of glomerulonephritis. About 60–70% of the affected patients present with pulmonary involvement in the form of alveolar hemorrhage [2]. In the setting of advanced renal failure, metabolic alkalosis (MA) is an uncommon phenomenon. Citrate is used as an anticoagulant for plasma exchange fluid and its in vivo conversion into bicarbonate leads to the metabolic alkalosis and its attendant complications. Double positive (serum positive for anti-GBM and ANCAMPO) Goodpasture’s disease is associated with worse renal outcomes and tobacco smoking increases chances of relapse of disease [2]. Aggressive treatment strategies in the form of immunosuppressive medications and plasmapheresis are the mainstay of treatment [3]. Failure to respond to conservative management can lead to the need for hemodialysis (HD)
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