Abstract WP275: Longitudinal Biomarker Analysis in Patients With Ischemic Stroke: Exploratory Targeted and Omics Assessments From a Phase 2a Clinical Trial

Abstract

Introduction: Elezanumab (EZB), a monoclonal antibody specific to repulsive guidance molecule A (RGMa), is under investigation to treat acute ischemic stroke. Biomarker evidence in ischemic stroke and for the RGMa pathway is limited. Methods: This blinded, in-study analysis from a 52-week phase 2a, multicenter, randomized (1:1; EZB:placebo) clinical trial (NCT04309474) included patients aged 30-90 years with an acute ischemic stroke (onset ≤ 24 hours before baseline), and a NIHSS score of 7-21. Blinded analyses did not distinguish between treatment arms. Healthy adult controls were procured outside this trial. Blood samples were taken post-stroke across 52 weeks, or 1 time (baseline) for healthy adults. Plasma concentrations of neurodegenerative markers neurofilament light chain protein (NfL) and glial fibrillary acidic protein (GFAP) were measured (validated Simoa Human Neurology 4-Plex A assay; Quanterix). Protein, mRNA, and miRNA were assessed with omics approaches. Results: This preliminary analysis included 34 patients with stroke (mean [SD] age 67.1 [12.3] years, 58.8% male) and 31 healthy adults (61.8 [8.0] years, 71.0% male). The mean (SD) baseline NIHSS total score was 10.9 (4.3). NfL and GFAP concentrations were elevated on day 1 in patients with stroke vs healthy adults (healthy adults are included for reference only). Mean concentrations of NfL were 48.7 pg/mL vs 13.9 pg/mL, respectively; mean concentrations of GFAP were 746.0 pg/mL vs 137.2 pg/mL, respectively. In patients with stroke, agnostic to treatment, peak NfL and GFAP elevations occurred at day 28 and days 2-4, respectively; NfL and GFAP concentrations were lower at week 52 than day 1. Conclusions: Preliminary blinded analysis of plasma markers of neurodegeneration confirm increased NfL and GFAP levels during acute stroke, which diminish over time with different temporal patterns. Final unblinded results will provide a robust natural time course of specific biomarkers of neurodegeneration including GAP43. Forthcoming analyses evaluate broad panels of proteins, mRNA, and miRNA markers. Identifying relevant post stroke biomarkers with directed and exploratory omics may allow development of validated assays to assess efficacy and support decision making in clinical trials.