Abstract
Abstract Background and Aims Primary hyperoxaluria type 1 (PH1) is a rare genetic disorder in which hepatic oxalate overproduction can lead to kidney failure and life-threatening systemic disease. Lumasiran, an RNA interference (RNAi) therapeutic indicated for treatment of PH1 to lower urinary oxalate (UOx) and plasma oxalate (POx) levels, reduces hepatic oxalate production by degrading the mRNA encoding glycolate oxidase. Patients with PH1 who completed a Phase 1/2 study were eligible to enroll in a Phase 2 open-label extension (OLE) study (NCT03350451) within 12 months of completing the Phase 1/2 study. Method Patients enrolled in the 54-month Phase 2 OLE had previously met eligibility criteria for the Phase 1/2 study, including: age 6 to 64 years, PH1 confirmed by genetic criteria, 24-hour (24 h) UOx excretion >0.7 mmol/1.73 m2/day, estimated glomerular filtration rate (eGFR) >45 mL/min/1.73 m2, and a stable pyridoxine (vitamin B6) regimen for patients taking vitamin B6. In the Phase 2 OLE, patients were to initiate subcutaneous lumasiran 1.0 mg/kg once monthly (qM), 3.0 mg/kg qM, or 3.0 mg/kg every 3 months (q3M) based on their dose/regimen in the Phase 1/2 study. The primary endpoint was the incidence of adverse events (AEs). Secondary endpoints were change in 24 h UOx corrected for body surface area (BSA) over time, change in 24 h UOx:creatinine ratio (UOx:Cr) over time, and change in estimated glomerular filtration rate (eGFR) over time. Change over time in POx and plasma glycolate, incidence of anti-drug antibodies (ADAs), and rates of kidney stone AEs were also assessed. Results All 20 patients (median age 11.5 years; 65% female) who completed the Phase 1/2 study entered the Phase 2 OLE (Table 1). Most patients (65%) were taking vitamin B6 at baseline. All patients transitioned to the 3.0 mg/kg q3M dose/regimen by month (M) 21, and all patients completed the study. Six patients transitioned to commercially available lumasiran prior to M54 but on or after M45. The most common treatment-related AEs were injection-site reactions (ISRs) with 13 events in 8 patients (40%); all ISRs were graded mild. Of all lumasiran doses administered during the OLE, 3% (13 of 427 total doses of lumasiran) were associated with ISRs. Other than ISRs, the only treatment-related AEs affecting >1 patient were increases in bilirubin (N=3 patients; 15%); all events resolved without lumasiran dosing changes. Severe AEs were reported by 2 patients (10%); serious AEs were reported by 7 patients (35%). No deaths occurred. No severe or serious AEs were related to treatment, and no patients discontinued lumasiran or withdrew due to AEs. Lumasiran treatment led to a substantial reduction in 24 h UOx relative to the Phase 1/2 study-derived baseline (Fig. 1A). At M54, the mean absolute change from baseline in 24 h UOx was −1.5 mmol/24 h/1.73 m2 and the mean percent change was −68%. From M42 through M54, 24 h UOx was ≤1.5×ULN in ≥89% of patients. At M54, the mean percent change from baseline in 24 h UOx:Cr was −77%. Mean eGFR was generally stable over time (Fig. 1B). Mean absolute change from baseline in eGFR at M54 was −1.6 mL/min/1.73 m2. Lumasiran treatment also led to reductions in POx from baseline, and mean post-baseline POx values remained within the normal range through M54. Mean plasma glycolate levels were elevated at the start of the Phase 2 OLE due to persistence of the treatment effect from the Phase 1/2 study. After treatment resumed, levels increased and then plateaued. One patient (5%) had an ADA positive result at M6 but no ADA-related AEs; subsequent tests were negative through M48. Overall, the kidney stone AE rate was low during the Phase 2 OLE (0.17/person-year (PY]); by comparison, the rate of symptomatic kidney stones was 0.45/PY during the 12 months prior to the Phase 1/2 study and the kidney stone AE rate was 0.90/PY during the Phase 1/2 study. Conclusion In the longest follow-up reported to date, lumasiran treatment was well tolerated in patients with PH1 in the Phase 2 OLE. The most common treatment-related AEs were mild, transient ISRs; no severe or serious AEs were treatment related. Mean 24 h UOx reductions were sustained over more than 4.5 years of treatment. Mean eGFR was stable over time.
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