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Pharmacokinetic Boosting of Olaparib to Improve Exposure, Tolerance and Cost-effectiveness

NCT05078671 · Status: RECRUITING · Phase: PHASE4 · Type: INTERVENTIONAL · Enrollment: 160

Last updated 2024-06-12

No results posted yet for this study

Summary

Olaparib is a poly-adenosine diphosphate ribose polymerase (PARP) inhibitor, originally used for the maintenance treatment of women with platinum-sensitive relapsed breast cancer gene (BRCA)-mutated high grade serious epithelial ovarian, fallopian tube, or peritoneal cancer, who are in response to platinum-based chemotherapy. Over the last two years, several therapeutic indications have been added to the drug label, such as first-line platinum-sensitive BRCA-mutated high grade serious epithelial ovarian, fallopian tube, or peritoneal cancer, germline BRCA1/2-mutated, human epidermal growth factor 2 (HER2-)negative, locally advanced or metastatic breast cancer and BRCA1/2-mutated metastatic castration-resistant prostate cancer, who have progressed following prior therapy. Since olaparib is very expensive, this increase of treatment population will have a significant impact on health care expenditures.

To keep healthcare affordable and accessible for all patients, innovative strategies are warranted to reduce the dose of expensive drugs, without reduction of efficacy. For olaparib, pharmacokinetic (PK) boosting can be applied. PK boosting is the lay term for administering a non-therapeutic active strong inhibitor of a metabolic enzyme, for example the cytochrome p450 enzyme 3A (CYP3A), together with a therapeutic drug that is metabolized by the same enzyme. Boosting thus increases the concentration of the therapeutic drug and allows lower doses to be administered to patients. Hence, coadministration of a reduced dose of olaparib with cobicistat, a non-therapeutic, strong inhibitor of the CYP3A can lead to equivalent exposure to olaparib. Furthermore, inhibition of CYP3A could lead to less PK variability since metabolic capacity is a prominent cause for (intra- and inter-individual) variability in systemic exposure. Predictable olaparib exposure will reduce the number of patients who are unintentionally under- or overtreated. Lastly, tumor tissue itself may express CYP3A as a detoxification or resistance mechanism. Theoretically, PK boosting may also overcome CYP3A-mediated drug resistance.

The purpose of this study is to establish the efficacy, safety and feasibility of co-administering olaparib with the PK booster cobicistat with the aim to implement boosting approach for olaparib in routine practice. The study is subdivided in two parts. In part A of the study the equivalent exposure of boosted low dose olaparib is determined compared to the normal dose. In part B of the study, non-inferiority of the boosted olaparib regimen will be confirmed.

Conditions

Interventions

DRUG

Olaparib

olaparib treatment

DRUG

Cobicistat

Pharmacokinetic booster

Sponsors & Collaborators

  • Radboud University Medical Center

    lead OTHER

Principal Investigators

  • Nielka van Erp, prof. PharmD PhD · Radboud University Medical Center

Study Design

Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Model
PARALLEL

Eligibility

Min Age
18 Years
Sex
ALL
Healthy Volunteers
No

Timeline & Regulatory

Start
2021-12-15
Primary Completion
2025-12-31
Completion
2025-12-31

Countries

  • Netherlands

Study Locations

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Entities

Drugs
Diseases

Read the full study record

This page highlights key information. For complete eligibility criteria, study locations, investigator contacts, and the full protocol, visit the original record on ClinicalTrials.gov.

View NCT05078671 on ClinicalTrials.gov