Use of the Novel Monoclonal Assay for the Measurement of Circulating Free Light Chain in the Diagnosis, Prognostication of Survival and Assessment of Response to Therapy in AL Amyloidosis

Abstract 3913 The possibility of measuring the circulating free light chains (FLC) improved our ability to detect the amyloidogenic clone, allowed refined risk stratification in combination with cardiac biomarkers, and provided a formidable tool for assessing response to treatment in AL amyloidosis....

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Published in:Blood 2012-11, Vol.120 (21), p.3913-3913
Main Authors: Palladini, Giovanni, Bosoni, Tiziana, Milani, Paolo, Pirolini, Laura, Foli, Andrea, Bergolis, Filomena Li, Lavatelli, Francesca, Roggeri, Leda, Cigalini, Elena, Repetti, Ilaria, Valentini, Veronica, Casarini, Simona, Albertini, Riccardo, Merlini, Giampaolo
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Language:English
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Summary:Abstract 3913 The possibility of measuring the circulating free light chains (FLC) improved our ability to detect the amyloidogenic clone, allowed refined risk stratification in combination with cardiac biomarkers, and provided a formidable tool for assessing response to treatment in AL amyloidosis. Recently, a novel method for FLC quantitation based on monoclonal antibodies has been developed. We evaluated its performance in the diagnosis, prognostication of survival, and response assessment in 353 consecutive newly diagnosed patients with AL amyloidosis enrolled between 2007 and 2011. Serum and urine immunofixation electrophoresis (IFE) was performed with a Hydragel 2IF/BJ(HR) kit on a Hydrasis apparatus (Sebia). Serum FLC concentration was measured in duplicate on frozen sera by a polyclonal (Binding Site) and a monoclonal (Siemens) immunoassay on a Behring BNII nephelometer. Reference ranges are k-FLC 3.3–19.4 mg/L, l-FLC 5.7–26.3 mg/L, k/l ratio 0.26–1.65 for the Binding Site (BS) assay, and k-FLC 6.7–22.4 mg/L, l-FLC 8.3–27.0 mg/L, k/l ratio 0.31–1.56 for the Siemens (S) assay. Response was evaluated 3 months after treatment initiation. The deposited amyloidogenic light chain identified by immuno electron microscopy was k in 69 patients (19%) and l in 284 (81%). Fifteen patients (4%) were excluded from the calculation of the diagnostic sensitivity because a biclonal gammapathy was detected by IFE. The two FLC assays had similar diagnostic sensitivity (Table 1). We calculated the concordance correlation coefficient to evaluate the agreement between the two assays, which was better for k (0.92, 95%CI 0.87–0.91) than for l (0.78, 95%CI 0.73–0.82) FLC. A total of 161 patients (46%) died. Median survival was 31 months. We evaluated the prognostic relevance of the difference between involved (amyloidogenic) and uninvolved FLC concentration (dFLC). Median values of dFLC measured with the two methods were 180 mg/L by BS and 165 mg/L by S. Patients with dFLC greater than the median value had a worse outcome (2 year survival 43% vs. 65%, P=0.001, by BS; 42% vs. 66%, P=0.001, by S). These thresholds were incorporated into a staging system modeled on the revised Mayo Clinic system (Figure 1). The S assay provided better discrimination between stages III and IV. We evaluated the use of the S assay in the response criteria of the International Society of Amyloidosis (ISA). A serum sample collected 3 months after treatment initiation was available in 226 patients.
ISSN:0006-4971
1528-0020
DOI:10.1182/blood.V120.21.3913.3913