Pegylated Recombinant Mammalian Uricase (PEG-uricase) as Treatment for Refractory Gout
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|ClinicalTrials.gov Identifier: NCT00111657|
Recruitment Status : Completed
First Posted : May 25, 2005
Results First Posted : January 18, 2013
Last Update Posted : October 3, 2014
The purpose of this study is to determine whether PEG-uricase (a chemically modified recombinant mammalian enzyme that degrades uric acid) is effective in controlling hyperuricemia in patients with chronic gout, who cannot tolerate, or have not responded adequately, to conventional therapy for gout.
Funding Source - FDA OOPD
|Condition or disease||Intervention/treatment||Phase|
|Gout||Biological: Pegloticase||Phase 2|
Inflammatory arthritis in patients with gout is caused by crystals of monosodium urate (MSU) that form as a result of chronically elevated levels of uric acid in plasma and extracellular fluids. Recurrent attacks can usually be prevented by treatment with drugs that block urate synthesis by inhibiting xanthine oxidase, or that promote uric acid excretion. If for various reasons (noncompliance, drug intolerance, inadequate dosage, or inefficacy) therapy fails to maintain serum urate concentration below about 6 mg/dL, gout can progress to a chronic stage characterized by destructive arthropathy, deposition of urate crystals in soft tissues (tophi), and nephropathy. The management of chronic gout in such patients is often complicated by co-morbidities such as hypertension, heart disease, diabetes, and renal insufficiency, which may limit the use of anti-inflammatory agents to treat arthritis.
Urate levels are low and gout does not occur in species that express the enzyme urate oxidase (uricase), which converts urate to the more soluble and easily excreted compound allantoin. Humans do not express this enzyme owing to a mutation of the uricase gene during evolution. Parenteral uricase is thus a potential means of controlling hyperuricemia and depleting urate stores in patients with chronic, refractory gout. Infusion of recombinant fungal uricase is effective in preventing acute uric acid nephropathy due to tumor lysis in patients with malignancies. However, the short circulating life and potential immunogenicity of fungal uricase prevents its chronic use for treating gout.
PEG-uricase is a recombinant porcine urate oxidase to which multiple strands of polyethylene glycol (PEG) of average molecular weight 10,000 have been attached. "PEGylation" is intended to reduce the immunogenicity of uricase, and greatly prolong its circulating life. This "mammalian" PEG-uricase was non-immunogenic and effective in preventing uric acid nephropathy in a uricase-deficient strain of mice (Kelly et al, J Am Soc Nephrol 12:1001-09, 2001). It has been licensed to Savient Pharmaceuticals for clinical development, and has received Orphan Drug designation for the treatment of refractory gout by the FDA Office of Orphan Product Development.
In a Phase I trial sponsored by Savient Pharmaceuticals in 24 subjects with symptomatic gout, single intravenous (IV) infusions of 0.5 to 12 mg of PEG-uricase were well tolerated, and at doses of 4 mg to 12 mg, were effective in normalizing plasma and urinary uric acid levels over a 21-day period post-infusion. Some subjects in this trial developed antibodies to PEG-uricase, but the only serious adverse events observed were attacks of gout. The present Phase II clinical trial in subjects with refractory gout will evaluate the efficacy, safety, and immunogenicity of PEG-uricase when administered at a dose of 8 mg by IV infusion once every 3 weeks, for a total of 5 infusions. The primary measure of efficacy will be a reduction in plasma uric acid to less than 6 mg/dL, and reduction in the ratio of uric acid to creatinine in urine to <0.2. In addition, the ability of PEG-uricase to lower the total uric acid pool size will be evaluated in a subset of treatment subjects. Uric acid pool size will be measured by a method that involves an infusion of uric acid labeled with N15, a stable (non-radioactive) isotope of nitrogen.
|Study Type :||Interventional (Clinical Trial)|
|Actual Enrollment :||30 participants|
|Intervention Model:||Single Group Assignment|
|Masking:||None (Open Label)|
|Official Title:||A Phase II Multidose Study of Intravenous PEG-uricase in Patients With Refractory Gout|
|Study Start Date :||December 2004|
|Actual Primary Completion Date :||July 2009|
|Actual Study Completion Date :||July 2009|
All study participants received intravenous pegloticase at dose of 8 mg, administered every 21 days for a maximum of 5 doses.
There was no control group for this open label study.
8 mg of Pegloticase administered IV every 3 weeks; total number of infusions is 5
- Reduction in Plasma Uric Acid to Less Than 6 mg/dL. [ Time Frame: Baseline to Day 105 ]
- Clinical Response: Number of Swollen and Tender Joints [ Time Frame: Basline and day 134 ]Count of tenderness and swelling of 68 joints
- In a Subset of Subjects Who Volunteer Separately, Change in Uric Acid Pool Size Will be Assessed by a Method That Involves Infusion of Uric Acid Labeled With N15, a Stable (Nonradioactive) Isotope of Nitrogen. [ Time Frame: baseline and 7 weeks after last infusion ]
- Reduction of the Ratio of Uric Acid:Creatinine in Urine [ Time Frame: baseline then weekly ]
- Development of Antibodies to PEG-uricase [ Time Frame: baseline, then prior to infusions and 7 wks after last infusion ]Number of patients who developed antibodies to PEG-uricase
- Infusion 1: Maximum Concentration (Cmax) Value [ Time Frame: 2 hours ]The highest drug concentration in the blood after the first infusion of study drug.
- Infusion 1: Minimum Concentration (Cmin) [ Time Frame: 21 days after the infusion ]The lowest drug concentration in the blood after the first infusion of study drug.
To learn more about this study, you or your doctor may contact the study research staff using the contact information provided by the sponsor.
Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT00111657
|United States, North Carolina|
|Duke University Medical Center|
|Durham, North Carolina, United States, 27710|
|Principal Investigator:||John S. Sundy, MD, PhD||Duke University|