Urowitz M, Georgiou ME, Su J, MacKinnon A, Green Y, Gairy K, Levy RA, Juliao PC. Long-term renal survival of patients with LN by renal response status in the Toronto lupus cohort. Poster presented at the American College of Rheumatology (ACR) Annual Meeting; November 14, 2022. Philadelphia, PA. [abstract] Arthritis Rheumatol. 2022; 74(Suppl 9).


BACKGROUND/PURPOSE: Approximately 40% of adult patients with SLE develop LN, which can lead to end-stage kidney disease (ESKD).1 Renal response is used in clinical trials as a measure of treatment efficacy in patients with LN; however, there are various definitions of renal response and limited evidence to support whether it accurately predicts long-term renal outcomes. A study using data from the Hopkins Lupus Cohort showed that a real-world modified version of the primary efficacy renal response (mPERR; without requirement of tapering of oral steroid therapy) endpoint of the BLISS-LN study (NCT01639339) accurately predicted long-term renal outcomes.2 This study primarily assessed the association between mPERR status at 2 years (2Y) post-biopsy-proven LN and long-term renal survival (no ESKD or death) among patients with LN from the University of Toronto Lupus Cohort (TLC) database, a prospective, longitudinal cohort of patients with SLE.

METHODS: This retrospective observational study (GSK Study 212866) used data from eligible adult patients with biopsy-proven class III, IV, V, III/V, or IV/V LN within the TLC. Patients were followed up from 2Y post-biopsy until censoring. Primary and secondary endpoints included the associations of mPERR status with long-term renal survival, and survival without moderate/severe chronic kidney disease (CKD; defined as absence of ≥2 new, consecutive eGFR < 60 ml/min/1.73 m2 occurrences recorded ≥3 months apart). Patients were classified as mPERR or no mPERR at 2Y post-biopsy. mPERR was defined as proteinuria ≤0.7 g/24 h and an estimated glomerular filtration rate (eGFR) ≤20% below biopsy value or ≥60 ml/min/1.73 m2. Long-term renal survival was defined as the absence of ESKD (defined as eGFR < 30 ml/min/1.73 m2, dialysis, or transplant) or death, assessed during the follow-up period. Kaplan-Meier plots and log-rank tests were used to compare survival outcomes by mPERR status.

RESULTS: In total, 179 patients were included in the ESKD analysis, with a mean (standard deviation) age of 34.2 (11.3) years at biopsy; class IV LN was the most frequent (n=66, 36.9%). At 2Y post-biopsy, 128 (71.5%) patients achieved mPERR, while 51 (28.5%) did not. Achieving mPERR was associated with an increased likelihood of long-term renal survival versus not achieving mPERR (p=0.0130; Figure 1). For long-term survival without moderate/severe CKD analysis, 154/179 patients were included; 25 had moderate/severe CKD prior to 2Y post-biopsy and were excluded. At 2Y post-biopsy, 110 (71.4%) patients achieved mPERR, while 44 (28.6%) did not. Achieving mPERR was associated with an increased likelihood of long-term survival without moderate/severe CKD versus not achieving mPERR (p< 0.0001; Figure 2).

CONCLUSION: Achieving mPERR at 2Y post-biopsy was associated with improved long-term renal survival and survival without moderate/severe CKD. This adds to the existing body of evidence that mPERR status is a suitable predictor of long-term renal outcomes within different patient populations and validates the need for sustained response to therapy.

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