L Durcan1, M Petri2. 1. Beaumont Hospital and Royal College of Surgeons of Ireland, Ireland. Electronic address: lauradurcan@beaumont.ie. 2. Johns Hopkins University School of Medicine, Baltimore, USA.
Abstract
BACKGROUND: In SLE, low complement is an important serological manifestation. Recent classification criteria include hypocomplementemia and one gives additional weight if both C3 and C4 are low. We evaluated patients with a history of, and those with persistently, low complement. As complement activation occurs in the antiphospholipid antibody syndrome, an analysis was also performed on those with positive antiphospholipid antibodies to evaluate thrombotic outcomes. METHODS: In a longitudinal SLE cohort, organ manifestations, damage, C3, C4 and antiphospholipid antibodies were assessed quarterly. Using univariate and multivariate methods we compared those with and without a history of low C3, low C4 and both. We evaluated those who had a history of low complement at any time point, and those who had persistent hypocomplementemia. Further analysis considered thrombotic outcomes in patients with positive antiphospholipid antibodies and a history of low complement. RESULTS: 2399 patients were evaluated. Fifty-five percent had a history of low C3 and 47% low C4; 83 (4%) had persistently low C3 and 65 (3.2%) had persistently low C4. Hematological, renal and serological abnormalities associated with a history of low C3 but not low C4. With anticardiolipin antibodies, a history of hypocomplementemia (both C3 and C4 low) associated with stroke and deep venous thrombosis. CONCLUSION: Low C4 was a weak marker in terms of the associated clinical and serological manifestations. Low C3 associated with renal involvement and poor renal outcomes. A history of both low C3 and C4 associated with stroke in the presence of lupus anticoagulant or anticardiolipin antibodies, and low C4 with digital gangrene (with lupus anticoagulant).
BACKGROUND: In SLE, low complement is an important serological manifestation. Recent classification criteria include hypocomplementemia and one gives additional weight if both C3 and C4 are low. We evaluated patients with a history of, and those with persistently, low complement. As complement activation occurs in the antiphospholipid antibody syndrome, an analysis was also performed on those with positive antiphospholipid antibodies to evaluate thrombotic outcomes. METHODS: In a longitudinal SLE cohort, organ manifestations, damage, C3, C4 and antiphospholipid antibodies were assessed quarterly. Using univariate and multivariate methods we compared those with and without a history of low C3, low C4 and both. We evaluated those who had a history of low complement at any time point, and those who had persistent hypocomplementemia. Further analysis considered thrombotic outcomes in patients with positive antiphospholipid antibodies and a history of low complement. RESULTS: 2399 patients were evaluated. Fifty-five percent had a history of low C3 and 47% low C4; 83 (4%) had persistently low C3 and 65 (3.2%) had persistently low C4. Hematological, renal and serological abnormalities associated with a history of low C3 but not low C4. With anticardiolipin antibodies, a history of hypocomplementemia (both C3 and C4 low) associated with stroke and deep venous thrombosis. CONCLUSION: Low C4 was a weak marker in terms of the associated clinical and serological manifestations. Low C3 associated with renal involvement and poor renal outcomes. A history of both low C3 and C4 associated with stroke in the presence of lupus anticoagulant or anticardiolipin antibodies, and low C4 with digital gangrene (with lupus anticoagulant).