Reduction of plasma urate levels following treatment with multiple doses of pegloticase (polyethylene glycol–conjugated uricase) in patients with treatment‐failure gout: Results of a phase II randomized study (original) (raw)
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Sherman et al., PEG-Uricase in Gout Management ADDR 60 59-68, 2008
2013
Hyperuricemia results from an imbalance between the rates of production and excretion of uric acid. Longstanding hyperuricemia can lead to gout, which is characterized by the deposition of monosodium urate monohydrate crystals in the joints and periarticular structures. Because such deposits are resolved very slowly by lowering plasma urate with available drugs or other measures, the symptoms of gout may become chronic. Persistent hyperuricemia may also increase the risk of renal and cardiovascular diseases. Unlike most mammals, humans lack the enzyme uricase (urate oxidase) that catalyzes the oxidation of uric acid to a more soluble product. This review describes the development of a poly(ethylene glycol) (PEG) conjugate of recombinant porcine-like uricase with which a substantial and persistent reduction of plasma urate concentrations has been demonstrated in a Phase 2 clinical trial. Two ongoing Phase 3 clinical trials include systematic assessments of gout symptoms, tophus resolution and quality of life, in addition to the primary endpoint of reduced plasma urate concentration.
Cochrane Database of Systematic Reviews, 2010
Background Pegloticase is a potential new treatment option for patients with chronic gout intolerant to other urate-lowering therapies. Objectives To assess safety (adverse events, death) and e icacy (pain, function, frequency of flares, quality of life, uric acid level, radiographic damage) of pegloticase in various doses or as compared to placebo or other interventions for treatment of hyperuricemia in patients with chronic gout. Search methods We searched six databases: The Cochrane Central Register of Controlled Trials (CENTRAL), via The Cochrane Library, OVID MEDLINE, CINAHL (via EBSCOHost), OVID SPORTdiscus, EMBASE and the Science Citation Index (Web of Science). Selection criteria All published randomized controlled trials (RCTs) or controlled clinical trials that compared various doses of pegloticase alone or pegloticase alone or in combination with other urate-lowering or anti-inflammatory medications to placebo alone or placebo in combination with these medications, in patients with gout. Data collection and analysis Two review authors (AA, JS) independently extracted data from the included trials, including trial and population characteristics, primary and secondary outcomes. For dichotomous and continuous outcomes, we calculated the risk ratio and mean di erence, respectively with 95% confidence interval. Major outcomes were: (a) E icacy: frequency of gout flares and change in serum uric acid; and (b) safety: adverse events, serious adverse events, withdrawals and death. Minor/secondary outcomes were pain, patient/physician global assessment, tophus burden, health related quality of life, function and radiographic progression. Main results Only one open-label, phase-II RCT (n=41) met the selection criteria that compared various doses of pegloticase without comparison to placebo or another treatment. Patients were randomized to one of the four doses of pegloticase for 12 to 14 weeks-4mg every 2 weeks, 8mg every 2 weeks, 8mg every 4 weeks and 12mg every 4 weeks. Percent responders (uric acid below 6 mg/dl 80% or more time) in the four dose groups were 56%, 88%, 52% and 62%. Percent time without hyperuricemia (uric acid below 6 mg/dl) was 78%, 92%, 76% and 76% respectively. No between dose di erences were noted. Most common adverse events (10% or more patients) included nephrolithiasis, arthralgia, anemia, dyspnea, headache, muscle spasms, nausea and pyrexia. 89% reported one or more gout flares during the study. Pain, patient/physician global, function, quality of life, tophus size/regression and radiographic progression were not reported in this study.
PEG-uricase in the management of treatment-resistant gout and hyperuricemia
Advanced Drug Delivery Reviews, 2008
Hyperuricemia results from an imbalance between the rates of production and excretion of uric acid. Longstanding hyperuricemia can lead to gout, which is characterized by the deposition of monosodium urate monohydrate crystals in the joints and periarticular structures. Because such deposits are resolved very slowly by lowering plasma urate with available drugs or other measures, the symptoms of gout may become chronic. Persistent hyperuricemia may also increase the risk of renal and cardiovascular diseases. Unlike most mammals, humans lack the enzyme uricase (urate oxidase) that catalyzes the oxidation of uric acid to a more soluble product. This review describes the development of a poly(ethylene glycol) (PEG) conjugate of recombinant porcine-like uricase with which a substantial and persistent reduction of plasma urate concentrations has been demonstrated in a Phase 2 clinical trial. Two ongoing Phase 3 clinical trials include systematic assessments of gout symptoms, tophus resolution and quality of life, in addition to the primary endpoint of reduced plasma urate concentration.
Arthritis research & therapy, 2024
Background/Purpose Little is known about long-term clinical outcomes or urate-lowering (ULT) therapy use following pegloticase discontinuation. We examined ULT use, serum urate (SU), inflammatory biomarkers, and renal function following pegloticase discontinuation. Methods We conducted a retrospective analysis of gout patients who discontinued pegloticase using the Rheumatology Informatics System for Effectiveness (RISE) registry from 1/2016 to 6/2022. We defined discontinuation as a gap ≥ 12 weeks after last infusion. We examined outcomes beginning two weeks after last dose and identified ULT therapy following pegloticase discontinuation. We evaluated changes in lab values (SU, eGFR, CRP and ESR), comparing on-treatment (≤ 15 days of the second pegloticase dose) to post-treatment. Results Of the 375 gout patients discontinuing pegloticase, median (IQR) laboratory changes following discontinuation were: SU: +2.4 mg/dL (0.0,6.3); eGFR:-1.9 mL/min (− 8.7,3.7); CRP:-0.8 mg/L (-12.8,0.0); and ESR:-4.0 mm/hr (-13.0,0.0). Therapy post-discontinuation included oral ULTs (86.0%), restarting pegloticase (4.5%), and no documentation of ULT (9.5%), excluding patients with multiple same-day prescriptions (n = 17). Oral ULTs following pegloticase were: 62.7% allopurinol, 34.1% febuxostat. The median (IQR) time to starting/restarting ULT was 92.0 days (55.0,173.0). Following ULT prescribing (≥ 30 days), only 51.0% of patients had SU < 6 mg/dL. Patients restarting pegloticase achieved a median SU of 0.9 mg/dL (IQR:0.2,9.7) and 58.3% had an SU < 6 mg/dL. Conclusion Pegloticase treats uncontrolled gout in patients with failed response to xanthine oxidase inhibitors, but among patients who discontinue, optimal treatment is unclear. Based on this analysis, only half of those starting another ULT achieved target SU. Close follow-up is needed to optimize outcomes after pegloticase discontinuation. Rheumatology key messages • Information about gout treatment following pegloticase discontinuation is limited. We found that after discontinuing pegloticase, patients frequently used oral ULTs (86% of those discontinuing pegloticase).
Arthritis Research & Therapy, 2014
Introduction: The efficacy of pegloticase, a polyethylene glycol (PEG)-conjugated mammalian recombinant uricase, approved for chronic refractory gout, can be limited by the development of antibodies (Ab). Analyses from 2 replicate, 6-month, randomized controlled trials were performed to characterize Ab responses to pegloticase. Methods: Anti-pegloticase, anti-PEG, and anti-uricase Ab were determined by validated enzyme-linked immunosorbent assays. Ab titers were analyzed for possible relationships with serum pegloticase concentrations, serum uric acid (sUA) lowering, and risk of infusion reactions (IRs). Results: Sixty-nine (41%) of 169 patients receiving pegloticase developed high titer anti-pegloticase Ab (> 1:2430) and 40% (67/169) developed anti-PEG Ab; 1 patient receiving placebo developed high titer anti-pegloticase Ab. Only 14% (24/169) of patients developed anti-uricase Ab, usually at low titer. In responders, patients showing sustained UA lowering, mean anti-pegloticase titers at week 25
Current Rheumatology Reports, 2022
Purpose of Review Gout is a systemic disease from which some patients develop numerous painful tophi that adversely affect quality of life and functionality. Some patients treated with oral urate-lowering therapy are unable to maintain serum urate levels below 6 mg/dL, and these patients, thus classified as having refractory or uncontrolled gout, often require therapy with pegloticase to reduce symptoms and tophaceous burden. The objective of this expert opinion review is to summarize the available evidence supporting the use of concomitant immunomodulators with pegloticase to prevent development of anti-drug antibodies (ADAs) when treating patients with uncontrolled gout. Recent Findings Emerging evidence suggests that adding an immunomodulator to pegloticase therapy can substantially increase response rates to double those observed in phase 3 randomized controlled trials. Summary The combination of immunomodulation with pegloticase should be considered in routine clinical practice...
Rheumatology and Therapy
Introduction: Gout is a painful inflammatory condition caused by chronically elevated serum uric acid levels (sUA). When standard uratelowering therapies fail/are not tolerated, uncontrolled gout (elevated sUA, subcutaneous tophi, chronic gouty arthritis, frequent flares) can occur. Pegloticase, a recombinant uricase, converts uric acid to allantoin, a readily excreted molecule. Responder rate in trials was 42%, limited by anti-drug antibody (ADA) development. Immunomodulators attenuate ADA formation and case reports suggest immunomodulation increases pegloticase responder rates. The current study retrospectively examined responder rate in patients undergoing methotrexate/pegloticase co-therapy. Methods: Patients who underwent methotrexate/pegloticase co-treatment at a single rheumatology practice were included. Demographics, clinical, treatment, and safety Digital Features To view digital features for this article go to
Retreatment with Pegloticase after a Gap in Therapy in Patients with Gout: A Report of Four Cases
Rheumatology and therapy, 2018
Pegloticase, a potent uricolytic biologic enzyme, has been shown to be an effective therapeutic option in patients with uncontrolled gout. However, there are limited data on clinical response after a gap in therapy and retreatment with pegloticase. This report describes four patients with chronic gout who were successfully managed with pegloticase and were retreated following a gap in therapy. Patient charts from a practice-based rheumatology clinic were retrospectively analyzed; four male patients, aged 70-75 years, with chronic gout and a more than 4-week gap in pegloticase therapy were reviewed. Before pegloticase treatment, patients had received allopurinol or febuxostat, but they continued exhibiting symptoms, including visible tophi and serum uric acid (SUA) levels of 5.2-10.2 mg/dL (309-607 μmol/L), despite oral urate-lowering therapy. The first pegloticase treatment (8-mg infusion every 2 weeks) lasted 22-124 weeks. Pegloticase resolved tophi and improved SUA to below 1.5 mg...
The Journal of Rheumatology, 2020
ObjectiveTo examine the efficacy and safety of pegloticase in combination with methotrexate (MTX) in patients with uncontrolled gout in an exploratory, open-label clinical trial (ClinicalTrials.gov: NCT03635957) prior to a randomized, controlled trial.MethodsA multicenter, open-label efficacy and safety study of pegloticase with MTX co-treatment was conducted in patients with uncontrolled gout. Patients were administered oral MTX (15 mg/week) and folic acid (1 mg/day) 4 weeks prior to and throughout pegloticase treatment. The primary study outcome was the proportion of responders, defined as serum uric acid (sUA) < 6 mg/dL for ≥ 80% of the time during Month 6 (Weeks 20, 22, and 24). All analyses were performed on a modified intent-to-treat population, defined as patients who received ≥ 1 pegloticase infusion.ResultsSeventeen patients were screened and 14 patients (all men, average age 49.3 ± 8.7 years) were enrolled. On Day 1, mean sUA was 9.2 ± 2.5 mg/dL, and 12 of the 14 patien...
The Journal of Rheumatology, 2012
Objective.To assess the efficacy of pegloticase on pain, physical function, and health-related quality of life (HRQOL) in patients with refractory chronic gout.Methods.Subjects in 2 replicate, 6-month, randomized controlled phase III trials received intravenous infusions of pegloticase 8 mg twice monthly (biweekly group), pegloticase alternating with placebo (8-mg monthly group), or placebo. Medical Outcomes Study Short Form-36 (SF-36), Health Assessment Questionnaire-Disability Index (HAQ-DI), patient global assessment of disease activity (PtGA), and pain by visual analog scale were completed at weeks 1 (baseline), 13, 19, and 25. Prespecified pooled analyses of patient-reported outcomes were performed by combining values for each treatment group (biweekly treatment, monthly treatment, and placebo) at Week 25.Results.Of 212 patients enrolled, 157 (74.1%) completed treatment. At entry, mean age was 55.4 years (range 23–89 yrs) and mean plasma uric acid was 9.7 mg/dl; most were male ...