Chronic Kidney Disease Clinical Trial
Official title:
Effect of Dietary Protein Source on Phosphaturia, PTH and FGF23 in Patients With CKD 3 and 4
Phosphorus is a substance in the blood that comes from food and is normally cleared from the body by the kidneys. In patients with kidney disease, excess phosphorus may build up in the body as you eat. This leads to problems with bones and blood vessels over time. In this study, we will compare the blood and urine before and after eating one week of a diet with a protein from plants (soy and grains) and before and after another one week of diet with protein from animals (meat and dairy products). The amount of phosphorus that the kidney puts out in the urine, and the changes in blood hormones in response to the diet will be measured at the beginning and end of each week on the two diets.
Chronic Kidney Disease-Mineral Bone disorder (CKD-MBD) is a constellation of problems
related to alterations in mineral and bone homeostasis that occur in CKD stage 3-5D
(estimated GFR 60-15 ml/min). The damaged kidney is unable to fully excrete a phosphorus
load, leading to a compensatory secondary hyperparathyroidism to attempt to increase urinary
phosphorus excretion in order to maintain serum phosphorus in the normal range. Eventually
this compensation of elevated PTH becomes pathologic and leads to abnormalities in
biochemistries, bone and vascular disease, all of which are associated with morbidity and
mortality in patients with CKD. Prevention of these complications is key to improved patient
outcomes. Unfortunately, this normal or high normal phosphorus does not reflect the "behind
the scenes" appropriate and inappropriate compensation. The use of medication to bind
phosphorus from food (phosphate binders) may prevent absorption of phosphorus across the
intestine and prevent or change the elevations in PTH and other hormones like FGF23. Thus,
either urinary excretion of phosphorus, or changes in hormone may be more appropriate end
points to evaluate efficacy of phosphate binders than is serum phosphorus.
In healthy individuals, there is variation throughout the day (diurnal) in serum phosphorus
and urine phosphorus excretion, but in dialysis patients, this variability appears to be
lost. No data exists for patients with stage 3 and 4 (pre-dialysis) CKD. Intestinal
phosphorus absorption is also dependent on bioavailability (amount of free phosphorus
available to be absorbed), which differs depending on the protein source, as the phosphorus
in grain/soy diets is less bioavailable than that from protein from animal/casein protein
source. In our animal model of CKD, these differences in bioavailability impact urinary
phosphorus excretion and serum levels of FGF-23, but not PTH. As phosphaturia, PTH, and
FGF23 may become important end points for future clinical trials, understanding diurnal
variability and the relationship to diet in patients with CKD 3 and 4 with normal serum
phosphorus levels is critical. We hypothesize that dietary protein source will affect the
hormonal response and diurnal phosphorus homeostasis in advanced CKD. To test this
hypothesis, we will examine the following specific aims in a population of CKD stage 3 and 4
subjects from the Indiana University Affiliated Nephrology Clinics and determine
1. if the dietary protein source affects fasting serum and urinary phosphorus excretion
2. if the protein source affects post prandial changes in serum and urinary phosphorus in
patients
3. if changes in plasma FGF23 and PTH correlate with urinary phosphorus excretion in
response to different protein sources.
We will conduct a cross over study to assess blood and urine after one week of a diet that
differs only in the source of the protein (and thus the bioavailability of phosphorus).
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Crossover Assignment, Masking: Open Label, Primary Purpose: Basic Science
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