Hyperoxaluria Clinical Trial
Official title:
Efficacy of Betaine for Reduction of Urine Oxalate in Patients With Type 1 Primary Hyperoxaluria
The aim of this study is to assess the efficacy and safety of betaine in reducing urine
oxalate excretion of Type 1 Primary Hyperoxaluria (PHI) patients.
Hypothesis:
Betaine will effectively reduce urine oxalate excretion in Primary Hyperoxaluria Type I
patients.
Our prior genotyping results have shown an association between the G170R allele and the
clinical response to VB6. Patients homozygous for this change show a complete response and
heterozygous patients a partial response. Since VB6 is a safe and completely effective
treatment for patients homozygous for G170R, we will not study betaine in this group.
Instead, 20 participants older than 6 years of age who are G170R compound heterozygous,
non-G170R missense or truncating sequence change homozygous or heterozygous, will be
selected for enrollment. Participants in whom VB6 provides a partial reduction in urine
oxalate excretion (compound heterozygotes for the G170R mutation) will be maintained on a
stable dose of VB6 (8 mg/kg/d) for two months before and throughout betaine treatment. Those
who have demonstrated no response to VB6 will receive betaine alone.
Participants will be randomized to receive either betaine or placebo for the first 2 month
arm of the study. Following 2 months of treatment and 2 months of washout, each participant
will cross over to the other arm of the study. The other arm will consist of the participant
being on 2 months of treatment of whatever they were not taking in the first arm (betaine
vs. placebo). Neither the study staff nor the participant will know whether the participant
is taking betaine for the first or second arm of the study, or the placebo for the first or
second arm of the study. Only the pharmacy will know this.
Prior to the study, a complete history and physical examination, and baseline laboratory
studies pertinent to the routine care of primary hyperoxaluria patients will be performed
(Complete Blood Count (CBC) with differential, chemistry group, electrolytes, plasma oxalate
and creatinine clearance, urinary supersaturation). All women capable of reproduction will
receive a pregnancy test prior to enrollment.
Participant will complete two 24-hour urine collections for calcium oxalate super-saturation
(includes 24-hour urine oxalate excretion) at baseline, inclusive of creatinine
determination for assessment of completeness. They will then begin Cystadane anhydrous
solution (12 grams/day in subjects younger than 10 years of age, and 20 grams/day in
subjects 10 years of age and older, in two divided doses). These doses of betaine have been
shown to effectively treat pediatric patients with VB6-resistant homocystinuria and reverse
Nonalcoholic Steatohepatitis (NASH) in adult patients, so we expect they will achieve
sufficient intra-hepatocyte levels to have an effect in PHI.
A sample of each 24-hour urine will be stored frozen (-80ºC) to allow determination of
indicators of oxidant stress, should urinary oxalate fall.
If effective, betaine could represent a new and safe treatment option for a subset of PHI
patients, particularly those with either partially VB6 responsive or VB6 refractory
hyperoxaluria, or those with adverse effects such as peripheral neuropathy from large doses
of VB6. We do not anticipate any adverse medication effects specific to primary
hyperoxaluria. However, as an extra safeguard for children with PHI, ten subjects older than
15 years of age will be tested first and if the agent is well tolerated in PHI patients,
pediatric subjects older than 6 years of age will then be recruited for participation.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Crossover Assignment, Masking: Double Blind (Subject, Caregiver, Investigator), Primary Purpose: Treatment
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