Other Conditions That May Be A Focus of Clinical Attention Clinical Trial
Official title:
Effect of Age on the Renal Clearance of Adefovir
Healthy African American subjects with normal hepatic and renal function will be administered 10mg adefovir dipivoxil in a fasting state. Subjects will have blood and urine collections over the following 24 hours for the measurement of adefovir renal clearance. To investigate the role of age in renal adefovir elimination, 8 subjects will be enrolled from each of the following age groups: 18-25 years and 48-55 years.
There are two major routes of elimination for drugs - hepatic metabolism and renal
elimination. For small, hydrophilic molecules, the renal route predominates. The renal
function of patients taking these medications therefore determines the pharmacokinetics of
(and by extension the clinical response to) these medications. One of the most common causes
of reduced renal function is a decline with age.
Renal drug elimination is comprised of passive drug filtration, active secretion, and
reabsorption (which can occur by both active and passive processes). The filtration function
of the kidney, approximated by the glomerular filtration rate (GFR) falls by 25-50% between
the ages of 20 and 90 [Turnheim 2003]. The decline in renal function with age has been
identified as a major cause of adverse drug reactions in the elderly population [Lindeman
1995; Mühlberg 1999]. To avoid overdosing and exaggerated responses from these medications,
algorithms have been established for dosing in patients with reduced renal function due to
changes in glomerular filtration.
However, in a previous study looking at the pharmacokinetics of a drug cleared only by the
renal route, we made an observation that appeared to contradict the "renal clearance
declines with age" dogma. In this study, Effect of Genetic Variation in the Renal
Transporter, OAT1, on the Renal Secretion of Adefovir), we identified individuals with
genetic variants in OAT1, a transporter that was believed to be involved in the active
secretion of Adefovir. All OAT1 non-synonymous genetic variants we identified were in the
African American population. We administered 10mg Adefovir dipivoxil to 10 African American
subjects between the ages of 19 and 49 (4 who had a genetic variant in OAT1, and six without
one). These subjects were identified from a parent study, called "SOPHIE" (NCT00187668).
SOPHIE (Studies Of Pharmacogenetics In Ethnically Diverse Individuals) is a study where DNA
was collected from Bay Area adults (18-40 years of age) for the testing of drug response
genes. In addition to DNA donation, subjects consent to be contacted for future studies.
We collected blood and urine over 24 hours to calculate the total renal clearance and net
secretory clearance of adefovir. Although we saw no difference in the renal elimination of
adefovir in the subjects attributable to OAT1 variants, we found a correlation between the
age and renal clearance. Filtration (calculated from the measured creatinine clearance)
remained constant in this population (112 ml/min + 18 (SD)), and the clearance of Adefovir
increased with age. Both the total renal clearance and net secretory clearance increased
with age (p=0.017 and p=0.010, respectively).
This incidental finding is interesting, as it may indicate an age-dependence of active drug
elimination mechanisms. However, the sample size in this previous study is small, and the
observation may not be accurate. We therefore have planned this confirmatory study, to
expand the study population. As the initial finding was made in African American subjects,
we plan to enroll an additional 16 African American subjects (8 each from the following age
groups: 18-25 and 48-55). We will also genotype these individuals for variants in
transporters and other proteins that may play a role in adefovir renal elimination. If the
unexpected finding of an age-related increase of adefovir renal clearance is observed in
this study, additional follow-up studies will be planned to examine whether the same holds
true for other ethnic groups.
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Allocation: Non-Randomized, Endpoint Classification: Pharmacokinetics Study, Intervention Model: Parallel Assignment, Masking: Open Label
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