Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT00690014 |
| Other study ID # |
H-26129 |
| Secondary ID |
1R15GM072526-01 |
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
August 2006 |
| Est. completion date |
June 2007 |
Study information
| Verified date |
May 2021 |
| Source |
University of Maryland, Baltimore |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The process of drug elimination that occurs within the kidneys is complex, and involves
filtration, secretion and absorptive mechanisms. Many drugs, metabolites and toxins,
including organic anions and cations, rely on renal mechanisms for elimination from the body.
Failure to recognize the contribution of renal mechanisms involved in drug elimination during
the drug development process can result in drug interactions or toxicity in clinical trials.
This is increasingly important due to the use of OAT1 inhibitors such as probenecid that are
being used in adjuvant treatment regimens. Thus, in order to more fully understand the
effects renal disease, drugs and nephrotoxins on the renal transport pathways of tubular
secretion in humans, novel approaches that incorporate both in vitro (experimental) as well
as clinical observations (clinical trial), also called in-vitro/in-vivo correlations (IVIVC)
need to be developed. These methods can then be used to identify and evaluate specific kidney
"probe" drugs that undergo extensive tubular secretion. Such approaches are needed to
characterize drug clearance by tubular mechanisms and to identify potentially significant
drug-drug interactions prior to exposure to patients in Phase 2 and 3 clinical trials. This
investigator-initiated pilot project aims to determine the pharmacokinetics of selected
FDA-approved compounds (PAH, iothalamate) for use in IVIVC model development. The proposed
research is innovative, because it involves a translational approach to development of an
IVIVC model applied to renal drug clearance. It is our expectation that the resultant
approach will further our understanding of pharmacogenomics, inter-subject variability and
renal drug clearance. This approach will generate important new information regarding in
vitro drug-drug interactions in light of many new and potent OAT1 blocking agents being
introduced for the treatment of human diseases. In future studies, we hope to fully
characterize the effects of diseases such as diabetes, hypertension, and nephropathy on renal
drug transport mechanisms using IVIVC models. We expect that results from this NIH-funded
study will provide needed preliminary data to design future pharmacogenomic and drug
interaction studies in humans.
Description:
The purpose of this study is to measure GFR (using iothalamate clearance) and renal tubular
function (using PAH clearance) in healthy subjects. The protocol will be approved by the
University of Maryland IRB and the General Clinical Research Center (GCRC) advisory committee
(GAC). Following the informed consent process, each subject will be evaluated for past
medical history, undergo a physical examination and routine laboratory tests (including
urinary protein:creatinine ratio) conducted within 1 month prior to the study visit.
Day 1: Vital signs (heart rate, blood pressure, respiratory rate) will be recorded hourly
throughout each study visit. Subjects will have intravenous catheters inserted into forearm
veins of each arm for blood collection and intravenous infusion iothalamate and PAH. From 30
minutes before marker administration until the end of each evaluation period, subjects will
remain in a semireclined position except during urine collections. A constant-rate infusion
will then be initiated at 1 mL/min for a total of 3 hours, with the concentration in the
infusate determined based on the patient's estimated renal clearance and target plasma
concentration of 10 mg/L and 15 mg/L for iothalamate, and PAH, respectively. Day 2: Washout
Day 3: Subject will begin taking probenecid. Day 4 (Study visit #2): Subject will be admitted
to the GCRC at 8AM. The final dose of probenecid will be administered. The renal function
test will then be conducted as described for study visit #1 above. Day 11: Subject will be
contacted for monitoring of adverse events according to GCRC procedures.
