End Stage Renal Disease Clinical Trial
Official title:
Phosphate Kinetic Modeling
Cardiovascular disease is a major cause of death in hemodialysis (HD) patients and is associated with widespread vascular calcification. There is a consensus that the chronic overload of calcium and phosphorus is a major factor in vascular calcification. Hyperphosphatemia, deleterious in dialysis patients, is aggressively monitored and treated. Phosphate binders - designed to bind dietary phosphate and thus prevent its absorption, are ubiquitous in the dialysis patient population, and calcium-based phosphate binders are often first line therapy because they are tolerated well by the patients and low in cost. Phosphate Kinetic Modeling (PKM) is a tool to help physicians manage a hemodialysis patient's phosphate level. Once a subject consents to participate in the study, the subject's dietary phosphate intake will be estimated and the appropriate dose of the phosphate binder calcium acetate (PhosLo) will be recommended accordingly. If necessary, the Ca++ concentration of the dialysate will be changed to remove any excess calcium absorbed as the result of an increase in the PhosLo prescription to control phosphorus.Ongoing recommendations regarding oral phosphate binders dialysate calcium will be made using a computer generated algorithm.
PKM consists of a set of validated and computerized algorithms to perform the following
steps:
1. Calculate calcium (Ca) and phosphorus (P) intake and absorption in individual patients
as a function of the prescribed doses of Vitamin D analogues, protein catabolic rate
(PCR) and dietary and binder Ca intakes.
2. Calculate P removal between dialyses by P binders and P and Ca removal during dialysis
from kinetic analysis of total P and Ca transport during dialysis based on dialyzer P
and Ca transport coefficients and the levels of dialysate Ca and serum Ca and P.
3. Thus from analysis of intake, absorption and removal the program can calculate net Ca
and P balance in modeled patients.
4. Calculate the dose of phosphate binder required to reduce the serum P to normal in
patients with hyperphosphatemia.
5. Calculate the dialysate Ca required to achieve zero calcium balance over complete
dialysis cycles - the interdialytic interval and immediately succeeding dialytic
interval.
6. The program also computes a Phosphorus-Protein index (PPI, the total P removed divided
by PCR, mg/gm/day) which provides a quantitative index of compliance with prescribed
dietary P restriction and/or the prescribed dose of binders. If the PPI exceeds 18, the
report indicates it is likely the patient is not in compliance with respect to
prescribed diet and/or binder. It is hoped that this information will be valuable to
guide semiquantitative evaluations of diet P and binder intakes in patients difficult
to manage.
Patients will be modeled on a monthly basis from pre- and post-dialytic Ca, P, PCR and other
routine data readily available such as blood and dialysate flow rates, fluid removal etc. A
monthly report will be generated for the physician and staff by Norma Ofsthun, PhD
containing the analyses and recommendations for any changes in therapy.
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Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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