View Clinical Trial (Medical Research Study)
Use of Symbiotics to Reduce Urinary Oxalate Excretion - NCT00587041-55905(Clinical Trial 197226)
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Rochester |
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State:
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MN |
| Zip Code: |
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55905 |
| Conditions: |
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Enteric Hyperoxaluria - Crohn's Disease - Gastric Bypass |
| Purpose: |
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Aim # 1: Determine the effect of two probiotic preparations (AKSB and Oxadrop) on urinary
oxalate excretion in two well-defined groups of patients with enteric hyperoxaluria.
Our hypothesis is that the probiotics will improve gastrointestinal barrier function, and
thereby decrease oxalate absorption from the gut (and hence its elimination in the urine).
An important component of this study is the use of a controlled diet ducting the urinary
oxalate determinations, in order to remove the potential confounding variable of dietary
oxalate intake and availability from food. fined groups of patients with enteric
hyperoxaluria.
Aim # 2: Determine the effect of two probiotic preparations (AKSB and Oxadrop®) on urinary
oxalate excretion in a well-defined group of patients with idiopathic calcium oxalate
urolithiasis and mild hyperoxaluria.
Our hypothesis is that the mild hyperoxaluria is due to overabsorption of oxalate from food
and that probiotics will improve gastrointestinal barrier function to decrease oxalate
absorption across the gut (and hence its elimination in the urine).
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| Study summary: |
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Renal manifestations of chronic hyperoxaluria include nephrolithiasis and, when extreme,
interstitial scarring and progressive loss of function. The clinical outcome can be dismal.
Although primary hyperoxaluria is relatively rare, hyperoxaluria secondary to
gastrointestinal malabsorption is not. Furthermore, the formation of calcium oxalate kidney
stones is extremely common, and evidence suggests that minimal, perhaps transient elevations
in urinary oxalate concentration may be an important factor in at least a subgroup of these
patients with "idiopathic" calcium oxalate urolithiasis. In the case of enteric
hyperoxaluria the pathogenic role of oxalate is clear, and renal scarring is commonly
observed as a consequence of oxalate exposure and calcium oxalate crystal deposition, in
addition to stones. Unfortunately, few satisfactory specific treatments for enteric
hyperoxaluria are available. Typical strategies include dietary restriction of oxalate to
limit its delivery to the colon; low fat diets to limit malabsorption and distal colonic
effects of fatty acids and bile acids; oral calcium to bind oxalate; and bile acid
sequestrants like cholestyramine. In its entirety, this regimen is quite rigorous for
patients, and even if compliance is achieved the therapy is not always effective. Previous
studies have shown that components of the endogenous digestive microflora can utilize
oxalate, potentially limiting its absorption from the intestinal lumen. A recent
preliminary study demonstrated that a preparation of lactic acid bacteria degraded oxalate
in vitro and reduced urinary oxalate excretion when given by mouth. We have recently
demonstrated that the same preparation of lactic acid bacilli (Oxadrop) can reduce urinary
oxalate excretion in patients with enteric hyperoxaluria. In the current proposal, in a
placebo-controlled trial we will determine the effectiveness of this and another probiotic
preparation (AKSB) for the treatment of hyperoxaluria in patients with mild hyperoxaluria,
as well as enteric hyperoxaluria. Specific Aims are: 1) Determine the effect of two
probiotic preparations (AKSB and Oxadrop on urinary oxalate excretion in a well-defined
group of patients with enteric hyperoxaluria; and 2) Determine the effect of two probiotic
preparations (AKSB and Oxadrop) on urinary oxalate excretion in a well-defined group of
patients with idiopathic calcium oxalate urolithiasis and mild hyperoxaluria. If results
are positive, treatment for calcium oxalate kidney stones could be revolutionized. |
| Criteria: |
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Inclusion Criteria:
- Enteric hyperoxaluria (>0.5 mM/day; > 45 mg/day) due to fat malabsorption from
inflammatory bowel disease (Crohn's Disease, CD) (n=30) (patients in remission
maintained on stable doses of Remecade/Imuran/Methotrexate every 8 weeks can be
recruited as long as the trial can be conducted between 5 and 8 weeks after the last
dose); OR
- Enteric hyperoxaluria (>0.5 mM/day; > 45 mg/day) from gastric bypass procedures
(gastric bypass for obesity, or other surgical causes of gastric dumping and fat
malabsorption (e.g., antrectomy, vagotomy and pyloroplasty for gastric ulcers)(n=30)
(patients with inflammatory bowel disease must be in clinical remission); OR
- Calcium oxalate nephrolithiasis and mild hyperoxaluria of unknown etiology (>0.35
mM/day) (n=60)
- Presence of radioopaque stones on x-ray, or a history consistent with passage of a
stone or stone surgery or ESWL in the last 5 years and if on stone medication, doses
have remained stable for at least 3 months
- Stone composition confirmed either by stone analysis demonstrating composition equal
to or more than 50% calcium oxalate, or by radiographic demonstration of a calcific
renal stone in the presence of hyperoxaluria
Exclusion Criteria:
- On immunosuppressive medications (excluding small stable doses of prednisone of 10 mg
or less)
- HIV infection, known enteric bacterial infection, or history of splenectomy
- Have a current malignancy, other than superficial skin cancers that have been
excised, unless they felt to be in complete remission (> 5 years)21
- Previous colectomy
- Have completed a course of oral or parenteral antibiotics less than 2 weeks before
initiation of the study (patients who require a course of antibiotics during the
period of preparation administration will be withdrawn from the study and excluded
from the final analysis)
- Patient pregnant or breast-feeding |
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| Study is available at: |
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Mayo Clinic
Rochester, MN 55905
United States
Primary Contact:
Ruth Kraft
Email: kraft.ruth@mayo.edu
Phone: 507-284-9262 |
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If you are interested in this clinical trial please use the contact information above. If you would like to get additional information about this clinical trial please visit ClinicalTrials.gov.
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| Data Source: |
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ClinicalTrials.gov |
| Date Processed: |
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March 22, 2011 |
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