Trials / Completed

CompletedNCT03154359

Atomoxetine PBPK-PD Clinical Study

An Open-Label, Single- and Multi-Dose Study to Evaluate the Relationship Between the Pharmacokinetics, Pharmacodynamics, and Clinical Outcomes of Atomoxetine in CYP2D6 Extensive, Intermediate and Poor Metabolizers in Children With Attention Deficit/Hyperactivity Disorder

Summary

The primary aims of this study focus on characterizing the relationship between atomoxetine exposure and clinical outcomes, as assessed by standardized measures. We will also simultaneously monitor side effect of atomoxetine, another measure of clinical outcomes, and categorize study participants on their ability to tolerate atomoxetine.

Detailed description

Atomoxetine (ATX), Strattera®, is a norepinephrine re-uptake transporter inhibitor that is approved by the Food and Drug Administration (FDA) for the treatment of attention deficit/hyperactivity disorder (ADHD). The drug is often considered a second- or third-line agent, due to the perception that the drug does not work very well. In fact, in a review of studies submitted to the FDA, it reported that there appeared to be discrete classes of response to atomoxetine. After 6-9 weeks of treatment, 47% of the patients were considered "responders" based on changes in the rating scales used to measure ADHD symptoms whereas 40% of patients were considered non-responders. Statistically significant (p\<0.001) differences in scores between responders and non-responders were apparent after the first week of treatment. At the relatively low starting doses of the titration scheme, this suggests that there may be a subgroup of patents who are particularly responsive to ATX. We hypothesize that there could be two reasons for this: 1) variability in drug pharmacokinetics (i.e., inadequate drug concentrations in the blood over time could lead to poor response) and 2) variability in drug pharmacodynamics (i.e. differences at the level of the target of drug action that limit the response to a drug, regardless of concentration of drug present in the blood). The CYP2D6 gene, which encodes for the drug metabolizing enzyme CYP2D6, is responsible for the clearance of ATX from the body, is highly polymorphic. ATX metabolism by CYP2D6 protein is one of the major routes of clearance (i.e., removal) of this drug. Genetic variability in the CYP2D6 gene leads to wide inter-individual variability in the activity of the enzyme, ultimately resulting in differing amount of drug in the body (also referred to as "exposure," and is a component of drug pharmacokinetics). Secondly, the SLC6A2 gene which encodes for the norepinephrine reuptake transporter, the drug target for ATX, is also subject to genetic variation. Reported genetic variants of SLC6A2 have been associated with decreased abundance of the transporter. The consequences of SLC6A2 genetic variation with regards to ATX clinical response are currently unknown. In the context of distinct "responder" and "non-responder" groups with a population of atomoxetine-treated patients, non-response could be due to definable differences at the level of the drug target (patients unlikely to respond regardless of the ATX concentrations achieved), or simply a consequence of inadequate exposure in a substantial proportion of population. The goal of this study is to address this issue.

Conditions

• ADHD

Interventions

Timeline

Start date

2017-12-12

Primary completion

2022-06-01

Completion

2022-06-16

First posted

2017-05-16

Last updated

2023-08-08

Results posted

2023-08-08

Locations

1 site across 1 country: United States

Regulatory

• FDA-regulated drug study

Source: ClinicalTrials.gov record NCT03154359. Inclusion in this directory is not an endorsement.