Acasti Pharma Inc. (“Acasti” or the “Company”) (Nasdaq: ACST and
TSX-V: ACST), a late-stage, specialty pharma company advancing
three clinical stage drug candidates addressing rare and orphan
diseases, announces that the preliminary topline results of the
pharmacokinetic (PK) bridging study for GTX-102 met all outcome
measures. The objectives of the study were to evaluate the
bioavailability, pharmacokinetics, and safety of GTX-102, a novel,
concentrated oral-mucosal metered spray of betamethasone in healthy
volunteers. This new formulation is intended to improve the
neurological symptoms of Ataxia Telangiectasia (A-T) in a pediatric
population for which there are currently no FDA-approved therapies.
GTX-102 can be sprayed conveniently over the tongue of A-T
patients, who often have difficulties swallowing. This PK study was
the next step in the proposed 505(b)(2) regulatory pathway for
GTX-102.
Jan D’Alvise, Chief Executive Officer of Acasti,
stated, “The completion of this PK bridging study is an important
milestone in the advancement of our GTX-102 program designed to
provide a new and convenient therapy for treating the chronic
symptoms of A-T in children with this rare genetic disorder. We are
very pleased to report the results of this study, which we expect
will now support the advancement of the program directly into Phase
3. Currently there are no drugs approved for A-T, and we are
pleased to report the topline findings of this pivotal study as we
remain committed to bring this exciting and proprietary treatment
to children who suffer from A-T.”
This PK bridging study is a Phase 1, randomized,
open-label, crossover study in healthy adult subjects to evaluate
the comparative bioavailability, PK, and safety of GTX-102
administered as an oral spray compared to intramuscular (IM)
betamethasone (which is expected to be the reference product for
bridging purposes), and to an oral solution (OS) of betamethasone,
which is available in Europe but not approved in the US. The
betamethasone OS was shown to reduce neurological symptoms in
children with A-T in a published multicenter, double-blind,
randomized, placebo-controlled crossover trial conducted in Italy
(Zannolli et al, 2012).
The primary objective of this PK bridging study
was to evaluate and characterize the PK profile of GTX-102 as an
oral spray. Details of the study design can be found on
ClinicalTrials.gov (Identifier: NCT05531890).
A total of 48 healthy adult subjects (27 males
and 21 females) were enrolled in this single center, 5-treatment,
8-sequence, 2-period cross-over study. The 5 treatments assessed in
the study were:
-
GTX-102: low dose at 0.0125 mg/kg, medium dose at 0.05 mg/kg, and
high dose at 0.1 mg/kg
-
OS betamethasone at 0.1 mg/kg
-
IM betamethasone at 0.1 mg/kg
Each subject received a single dose of 2
treatments in a cross-over fashion, in a randomized sequence over 2
treatment periods separated by 15 days. The dosing started on
September 13, 2022 and ended on November 24, 2022. Betamethasone
blood levels were compared between all treatment groups.
GTX-102 PK study outcome measures
definitions and preliminary topline findings are as
follows:
-
Primary outcome measures and their definitions include:
-
AUC0-72 is the area under the concentration time curve up to 72
hours post-dose
-
AUC∞ is the area under the concentration time curve extrapolated to
infinity
-
Cmax is the maximum concentration occurring between 0 hour to 72
hours after study drug administration.
- GTX-102 given at
doses of 0.0125 (low), 0.5 (medium) or 0.1 (high) mg/kg, showed
betamethasone blood concentrations that were highly predictable and
consistent based on AUC and Cmax, indicating good linearity and
dose-proportionality.
- Following the
high dose of GTX-102 (0.1 mg/kg), betamethasone blood
concentrations were within the same range of exposure as IM
betamethasone (0.1 mg/kg), based on AUC. The IM formulation of
betamethasone will serve as a bridge for GTX-102 in the context of
the proposed 505(b)(2) regulatory pathway.
- In addition,
Betamethasone blood concentrations following the high dose of
GTX-102 (0.1 mg/kg) were within the same range of exposure as OS
betamethasone (0.1 mg/kg), based on AUC. This OS formulation was
the same one that was used by Zannolli et al and may serve as a
clinical comparator for further clinical development of
GTX-102.
- There was
statistically no significant difference (p>0.05) between GTX-102
(0.05 mg/kg) when comparing a fast rate of administration (each
spray immediately following the preceding one) to a slow rate (1
spray/minute), as indicated by Cmax and AUC. This is important
because being able to use the fast or the slow rate of
administration may provide greater flexibility for patients and
caregivers.
- The Cmax of
GTX-102 was within the same range of exposure as the OS, but the
Cmax for the IM formulation was lower than both GTX-102 and the OS,
as well as what has been reported previously for the IM in the
literature. It is important to note that achieving bioequivalence
with the IM was not an objective of this study, nor was it
expected.
- No serious
adverse events (AE) were reported during the study. AEs leading to
study discontinuation consisted of cough/fever/body pain/stuffy
nose (1 case), Covid-19 (1 case) and elevated creatinine kinase (1
case), and all events occurred prior to receiving the second
treatment. None were judged as being related to the study drugs by
the investigator. The most frequent drug-related AE was mild
headache (4 cases).
- Based on this
data, Acasti will work with our clinical experts and FDA to
determine the best final dosing regimen for GTX-102 to incorporate
into our Phase 3 study design.
D’Alvise concluded, “With the completion of this
important comparative PK bridging study, we are confident that the
expected final development step for GTX-102 will be to conduct a
Phase 3 safety and efficacy trial in A-T patients using a treatment
regimen similar to the one already proved effective by Zannolli, et
al. We plan to request a Type B meeting with the FDA following the
receipt of the full PK study dataset sometime in calendar H1 2023
to confirm the proposed Phase 3 study design. If all proceeds as
planned, the Phase 3 study is expected to be initiated in the
second half of calendar 2023. If the Phase 3 program meets the
primary endpoints, an NDA filing for GTX-102 under Section
505(b)(2) is expected to follow.”
About A-T
A-T is a progressive, genetic, neurodegenerative
disorder that primarily effects young children, causing severe
disability, impairment of the immune system and an increasing
susceptibility to infections and cancer. The hallmark symptoms of
A-T are cerebellar ataxia and other motor dysfunction, and dilated
blood vessels (telangiectasia) that occur in the sclera of the eyes
and on the skin. Children begin to experience balance and
coordination problems when they begin to walk (toddler age), and
ultimately become wheelchair bound in their second decade of life.
In pre-adolescence (age 5-8 years), patients experience oculomotor
apraxia, dysarthria, and dysphagia. They often develop compromised
immune systems and are at increased risk of developing respiratory
tract infections and cancer (typically lymphomas and leukemia).
Patients typically die by age 25 years from complications of lung
disease or cancer.
A-T is diagnosed through a combination of
clinical assessments, laboratory analysis, and genetic testing.
There is no known treatment to slow disease progression, and
treatments that are used are strictly aimed at symptoms (e.g.,
physical, occupational or speech therapy for neurologic issues), or
conditions secondary to the disease (e.g., antibiotics for lung
infections, chemotherapy for cancer, etc.).
A market research study commissioned by Acasti
found that A-T affects approximately 4,300 patients per year in the
United States and has a potential total addressable market of $150
million, based on the number of treatable patients (as disclosed in
Acasti’s most recently filed quarterly report on Form 10-Q).
About Acasti
Acasti is a late-stage specialty pharma company
with drug delivery technologies and drug candidates addressing rare
and orphan diseases. Acasti’s novel drug delivery technologies have
the potential to improve the performance of currently marketed
drugs by achieving faster onset of action, enhanced efficacy,
reduced side effects, and more convenient drug delivery—all which
could help to increase treatment compliance and improve patient
outcomes. Acasti’s three lead clinical assets have each been
granted Orphan Drug Designation by the FDA, which provide the
assets with seven years of marketing exclusivity post-launch in the
United States, and additional intellectual property protection with
over 40 granted and pending patents. Acasti’s lead clinical assets
target underserved orphan diseases: (i) GTX-104, an intravenous
infusion targeting Subarachnoid Hemorrhage (SAH), a rare and life
threatening medical emergency in which bleeding occurs over the
surface of the brain in the subarachnoid space between the brain
and skull; (ii) GTX-102, an oral mucosal spray targeting
Ataxia-telangiectasia (A-T), a progressive, neurodegenerative
genetic disease that primarily affects children, causing severe
disability, and for which no treatment currently exists; and (iii)
GTX-101, a topical spray targeting Postherpetic Neuralgia (PHN), a
persistent and often debilitating neuropathic pain caused by nerve
damage from the varicella zoster virus (shingles), which may
persist for months and even years.
For more information, please visit:
https://www.acasti.com/en.
Forward-Looking Statements
Statements in this press release that are not
statements of historical or current fact constitute
“forward-looking information” within the meaning of Canadian
securities laws and “forward-looking statements” within the meaning
of the U.S. Private Securities Litigation Reform Act of 1995, as
amended, Section 27A of the Securities Act of 1933, as amended, and
Section 21E of the Securities Exchange Act of 1934, as amended
(collectively, “forward looking statements”). Such forward looking
statements involve known and unknown risks, uncertainties, and
other unknown factors that could cause the actual results of Acasti
to be materially different from historical results or from any
future results expressed or implied by such forward-looking
statements. In addition to statements which explicitly describe
such risks and uncertainties, readers are urged to consider
statements containing the terms “believes,” “belief,” “expects,”
“intends,” “anticipates,” “potential,” “should,” “may,” “will,”
“plans,” “continue”, “targeted” or other similar expressions to be
uncertain and forward looking. Readers are cautioned not to place
undue reliance on these forward-looking statements, which speak
only as of the date of this press release. The forward-looking
statements in this press release are based upon Acasti’s current
expectations and involve assumptions that may never materialize or
may prove to be incorrect. Actual results and the timing of events
could differ materially from those anticipated in such
forward-looking statements as a result of various risks and
uncertainties, including, without limitation: (i) the success and
timing of each of the planned Type B meeting with the FDA and the
anticipated Phase 3 safety and efficacy trial for GTX-102, (ii) the
success and timing of regulatory submissions of the PK bridging
study and Phase 3 safety study protocol for GTX-104, and Acasti’s
other pre-clinical and clinical trials; (iii) regulatory
requirements or developments; (iv) changes to clinical trial
designs and regulatory pathways; (v) legislative, regulatory,
political and economic developments, and (vi) the effects of
COVID-19 on clinical programs and business operations. The
foregoing list of important factors that could cause actual events
to differ from expectations should not be construed as exhaustive
and should be read in conjunction with statements that are included
herein and elsewhere, including the risk factors detailed in
documents that have been and may be filed by Acasti from time to
time with the Securities and Exchange Commission. All
forward-looking statements contained in this press release speak
only as of the date on which they were made. Acasti undertakes no
obligation to update such statements to reflect events that occur
or circumstances that exist after the date on which they were made,
except as required by applicable securities laws. Neither NASDAQ,
the TSXV nor its Regulation Services Provider (as that term is
defined in the policies of the TSXV) accepts responsibility for the
adequacy or accuracy of this release.
Acasti Contact:
Jan D’AlviseChief Executive OfficerTel:
450-686-4555Email:info@acasti.comwww.acasti.com
Investor Relations:Robert BlumLytham Partners,
LLC602-889-9700ACST@lythampartners.com
Acasti Pharma (TSXV:ACST)
Historical Stock Chart
From Nov 2024 to Dec 2024
Acasti Pharma (TSXV:ACST)
Historical Stock Chart
From Dec 2023 to Dec 2024