Aim: To determine the diagnostic efficiency of assays routinely used in the investigation of hereditary angiooedema. Methods: Over a four year period, 1144 samples were received for analysis from 907 patients suspected of C1 inhibitor deficiency. Analyses were performed for C4 and C1 inhibitor (functional and immunochemical). Notes were reviewed retrospectively on patients with low serological indicators to determine diagnosis. Results: These are the first data to indicate the sensitivity, specificity, and predictive values of the assays most frequently used to screen for C1 inhibitor deficiency. A combination of low C4 and low C1 inhibitor function has 98% specificity for C1 inhibitor deficiency in this population and a 96% negative predictive value, and is thus a very effective screen. All patients with untreated C1 inhibitor deficiency had a low C4 value. Conclusions: All patients considered for a diagnosis of C1 inhibitor deficiency should have serum examined to measure both C4 and functional C1 inhibitor. If either is normal at presentation this essentially excludes a diagnosis of C1 inhibitor deficiency. These tests can be performed sequentially. If C4 is normal it is not necessary to proceed to C1 inhibitor analysis. If C1 inhibitor function and C4 are both low then a repeat sample should be obtained to confirm the findings. C 1 inhibitor is a serine protease inhibitor that is involved in the regulation of several enzymes including C1r, C1s, plasmin, kallikrein, factor XIa, factor XIIa, and factor XIIf. 1 Deficiency results in recurrent oedema affecting primarily the extremities, face, larynx, and gastrointestinal mucosa. Insufficient normal C1 inhibitor leads to uncontrolled activation of the classical complement pathway, with subsequent reduction of serum C4 and C2 concentrations. 1 C1 inhibitor deficiency may be either hereditary (hereditary angio-oedema; HAE) or acquired. 1 2 HAE has two major variants. In type 1, the classic form, found in 85% of patients, concentrations of C1 inhibitor are low at presentation. The remaining 15% have type 2 HAE, where a dysfunctional C1 inhibitor is produced in normal or increased amounts. 3 The disorder is rare, with HAE affecting around 1 in 10 000-50 000 of the population, 4 and the acquired form affecting a 10th of that number. The diagnosis is important because there is a high associated morbidity and mortality. There are potent and effective treatments available, particularly the androgenic drugs. These may result in serum concentrations of C1 inhibitor and C4 reaching normal values, 5 but the side effects are potentially serious and include hepatocellular adenoma. 6 To our knowledge, there are no data in the literature to indicate the sensitivity, specificity, and predictive values of the assays most frequently used to screen for C1 inhibitor deficiency (C1inhD); namely, serum C4, C1 inhibitor protein, and C1 inhibitor function. We reviewed the data from two laboratories over four years on samples referred from three centres for C1 inhibitor values and reviewe...
