Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT02514369 |
| Other study ID # |
ARVLB01 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
November 2012 |
| Est. completion date |
December 2016 |
Study information
| Verified date |
January 2024 |
| Source |
Cliniques universitaires Saint-Luc- Université Catholique de Louvain |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
Some genetic polymorphisms are known to interfere with ARV metabolism and are therefore
likely to explain some of the inter-individual variations (efficacy,toxicity,resistance)
observed during ART. The most common form of human DNA variations consists of a change of a
base in the nucleotide sequence of an individual at a given position, the single nucleotide
polymorphism (SNP). Therefore,the purpose of this research will be the identification and
characterization of the clinical impact of several SNPs in gene coding for transport proteins
(e.g.ABCB1,ABCC1) and biotransformation enzymes (e.g.CYP3A4,CYP2B6) known to be involved in
the pharmacokinetic pathway of selected ARV drugs for which the therapeutic response is
difficult to predict. Aside,the influence of these SNPs on the response to treatment
(CD4+cell,viral load) and on the toxicity will be evaluated. Plasma concentrations of ARV
drugs correlate with therapeutic efficacy but also with the risk of toxicity and of
virological failure, which is the basis of the therapeutic drug monitoring. However,given the
intracellular location of HIV, analyzing intracellular drug concentrations is fundamental and
the investigators will also focus of this new topic.
Description:
Some genetic polymorphisms are known to interfere with ARV metabolism and are therefore
likely to explain some of the inter-individual variations (efficacy,toxicity,resistance)
observed during ART. The most common form of human DNA variations consists of a change of a
base in the nucleotide sequence of an individual at a given position, the single nucleotide
polymorphism (SNP). Therefore,the purpose of this research will be the identification and
characterization of the clinical impact of several SNPs in gene coding for transport proteins
(e.g.ABCB1,ABCC1) and biotransformation enzymes (e.g.CYP3A4,CYP2B6) known to be involved in
the pharmacokinetic pathway of selected ARV drugs for which the therapeutic response is
difficult to predict. Considering that CYP3A5 may represent up to 50% of the total hepatic
CYP3A content in CYP3A5*1 allele carriers, the CYP3A5 genetic polymorphism may be therefore
the most important genetic contributor not only to interindividual but also to interracial
differences in CYP3A-dependent drug clearance.
Aside,the influence of these SNPs on the response to treatment (CD4+cell,viral load) and on
the toxicity will be evaluated.
Plasma concentrations of ARV drugs correlate with therapeutic efficacy but also with the risk
of toxicity and of virological failure, which is the basis of the therapeutic drug
monitoring. However,given the intracellular location of HIV, analyzing intracellular drug
concentrations is fundamental and the investigators will also focus of this new topic.
