Pulmonary Arterial Hypertension Clinical Trial
Official title:
Olaparib for Pulmonary Arterial Hypertension: a Pilot Clinical Study
The main OBJECTIVE of this proposal is to extend our preclinical findings on the role of DNA
damage and poly(ADP-ribose) polymerases (PARP) inhibition as a therapy for a devastating
disease, pulmonary arterial hypertension (PAH), to early-phase clinical trials. We, and
others, have published strong evidence that DNA damage accounts for disease progression in
PAH and showed that PARP1 inhibition can reverse PAH in several animal models1.
Interestingly, PARP1 inhibition is also cardioprotective. Olaparib, an orally available PARP1
inhibitor, can reverse cancer growth in animals and humans with a good safety profile, and is
now approved for the treatment of ovarian cancer in Canada, Europe and the USA. The time is
thus right to translate our findings in human PAH. The industry-sponsored clinical research
on PARP1 inhibitor is currently entirely cancer-oriented. Nonetheless, AstraZeneca Canada
accepted to support an early phase clinical trial through in-kind contribution, but the
support from foundations and federal agencies is critical to catalyze early-stage development
of PARP1 inhibitors for other indications, especially for orphan diseases. A CIHR Project
Scheme grant will thus be submitted on September 15 2017, proposing a Phase 1, followed by a
Phase 2 trial that will be conducted in recognized PAH programs throughout Canada. At this
stage, however, we propose a pilot study to assess the feasibility of the proposed trials in
the PAH population. The overall HYPOTHESIS is that PARP1 inhibition with olaparib is a safe
and effective therapy for PAH.
The primary objective of the study is to confirm feasibility, to support the safety of using
olaparib in PAH patients, and precise the sample size of the coming Phase 1B trial. The
feasibility of the comprehensive patient phenotyping that will be proposed within the phase
1B trial will thus be assessed, in addition to adverse events and efficacy signals.
***OPTION pilot trial was merged with the new OPTION multicenter trial (NCT03782818)***
BACKGROUND PAH is a progressive and multifactorial condition characterized by the chronic
elevation of pulmonary artery (PA) pressure leading to RV failure. In spite of currently
approved therapies, patients with PAH have poor quality of life and the 3-year survival of
idiopathic PAH remains ~55%. The identification and characterization of new therapeutic
targets is thus an urgent need.
In recent years, it has become increasingly appreciated that, as in cancer cells, PAH-PA
smooth muscle cells (PASMCs) are exposed to stressful conditions, jeopardizing their
survival. To deal with these insults, these cells have developed complementary pathways,
allowing them to survive and proliferate and leading to intense remodelling of distal PA.
Central to these strategies are the activation of the DNA repair machinery. Survival of these
cells is associated with an over-efficient activation of PAPR1, a predominant mechanism
involved in DNA repair, and pharmacological inhibition of PARP1 reverses PAH in human cells
and clinically relevant animal models.
Recently, Olaparib, an orally available PARP1 inhibitor, was shown to be safe, well tolerated
and effective in treating cancers and was approved for the treatment of ovarian cancer.
OLAPARIB IN PAH: A PILOT STUDY The study population will include 6 well-characterized PAH
patients that have been stable for >4 months on standard PAH-therapies, as per guidelines.
The primary objective of the study is to confirm the feasibility for a future early stage
clinical trial and provide early evidence that Olaparib may be effective in PAH.
Exploratory efficacy end-point: The exploratory efficacy endpoint will be the change in
pulmonary vascular resistance (PVR) at week 16. Other exploratory efficacy end-points will
include changes in: 1) additional haemodynamic data by catheterization; 2) 6-min walk
distance (6MWD); 3) RV volumes and mass (cardiac MRI) in eligible patients; 4) WHO functional
class; 5) NT-proBNP levels; 6) Quality of life assessed using the CAMPHOR questionnaire.
Study design: This is a standard-design, dose-escalating pilot study. In line with most pilot
and safety studies, the design is open-label. A 4-week pre-treatment phase will allow
ensuring that patients are on stable doses of medication. Patients will be given progressive
doses of olaparib up to 400mg BID for 16 weeks. Patients will be regularly followed. At
baseline and week 16, a cardiac catheterization and MRI will assess changes in pulmonary
hemodynamics and RV function.
Toxicity monitoring/withdrawal: Based on experience to date with olaparib, doses up to 400mg
BID should be tolerated. Subjects may experience mild side effects or other events that the
investigator may consider related to study drug but not of sufficient clinical significance
to warrant withdrawal from treatment. At the investigators' discretion, olaparib may be
managed by dose reduction. If the lower dose is not tolerated, the patient will be withdrawn
from the study. Subjects who require a dose reduction should be maintained at the reduced
dose level through to the end of the 16-week treatment period. Adverse events will be
submitted to our ethics committees.
Analysis: This pilot study is not meant to prove efficacy. As a result, power calculations
were not determined. The safety and exploratory endpoint analysis will be only descriptive.
Nonetheless, it is hoped that olaparib will be associated with hemodynamic improvements,
giving precision about the dose to be tested and sample size calculation for subsequent
studies. Thus, there is a need for assessment of the exploratory efficacy endpoints. These
analyses will be based on the per protocol set (all treated patients who did not violate the
protocol in a way that might influence the evaluation of the effect of the study drug on the
primary endpoint).
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