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, today announced that preliminary topline results for its
single-dose, pharmacokinetic (PK) bridging study to evaluate the
relative bioavailability of GTX-101 compared to the reference
listed drug in the U.S., bupivacaine subcutaneous injectable, met
all primary outcome measures for the study. The final clinical
study report is anticipated to be received by the Company in the
first half of 2023. This PK study was the next step in the proposed
505(b)(2) regulatory pathway for GTX-101 and provides important
information on the dose and dosing frequency in humans for future
planned clinical studies.
GTX-101 is a novel formulation of bupivacaine
hydrochloride (HCl) for topical administration via a bio-adhesive,
film-forming polymer, for relief of pain associated with
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. The
potential benefits of GTX-101 could include faster onset of action
and a longer duration of pain relief as compared to the lidocaine
patch. GTX-101 can be conveniently sprayed on the skin wherever the
pain is located, and based on the PK profile of bupivacaine, the
Company believes that GTX-101 may only need to be applied once or
twice a day to the affected area for 24/7 pain relief, although
this dosing schedule will need to be confirmed in future clinical
studies. Based on this product profile, and assuming a successful
development program, the Company believes GTX-101 has the potential
to be a game-changer as a non-opioid alternative to the lidocaine
patch for PHN patients who suffer from this debilitating pain.
Jan D’Alvise, Chief Executive Officer of Acasti,
stated, “We are very pleased to report that GTX-101 met all primary
outcome measures in this study, and it moves us one step closer to
bringing this exciting new treatment alternative to patients who
suffer from PHN. The completion of this PK study for GTX-101 is yet
another major accomplishment achieved by the Acasti team in 2022,
and based on these successful results, the next step for this
program is a multiple ascending dose study in healthy subjects to
potentially be followed by an efficacy assessment study (Phase 2)
in PHN patients.”
D’Alvise continued, “We now have multiple drugs
in the clinic that are progressing on schedule towards important
key milestones. We continue to expect to report topline results for
our PK bridging study for GTX-102, our novel formulation of
betamethasone for children with Ataxia Telangiectasia (A-T) before
the end of December 2022. Also, the FDA has now granted Acasti a
Type C meeting in late January to confirm our proposed Phase 3
safety study design for GTX-104 and clarify their requirements to
submit our NDA under section 505(b)(2). We look forward to updating
you on these important milestones as they are achieved.”
The Single Dose PK study for GTX-101 was a Phase
1, Randomized, Single-Dose, 4-Cohort, Parallel study to evaluate
the pharmacokinetics, dose proportionality, safety and tolerability
of GTX-101 (bupivacaine hydrochloride metered dose spray) and
subcutaneous injectable bupivacaine in 48 healthy subjects. The
primary objective was to assess the pharmacokinetics of 3 dose
levels of GTX-101 (50, 100, and 200 mg) given as a single-dose
topical application (metered spray). Details of the study design
can be found on ClinicalTrials.gov, Identifier: NCT05517486.
The study enrolled 48 healthy adult subjects (24
males/24 females, mean age = 36 years), in 12 subjects per cohort.
Subjects in Cohorts 1, 2, and 3 received GTX-101 as either 5, 10,
or 20 sprays (50, 100, or 200 mg, respectively). Subjects in
Cohort 4 received a single 10 mg subcutaneous injection of the
active control. It is important to note that one of the secondary
objectives of this study was to compare the bioavailability of
these two very different modes of administration. The first subject
/ first dose was administered on July 26th and the dosing phase of
the study was completed on August 21st, 2022.
Following GTX-101 topical administration,
bupivacaine is expected to diffuse into the skin and act locally,
while a limited fraction of bupivacaine is expected to diffuse into
the systemic circulation as measured in the blood. This circulating
level of bupivacaine in the blood stream is not anticipated to
contribute significantly to the analgesic effect but should be
monitored to avoid any risk of toxicity.
GTX-101 PK Study Outcome Definitions and
Preliminary Topline Findings Are as Follows:
-
Primary outcome measures and their definitions include:
-
Cmax is the maximum concentration occurring at Tmax between 0 hour
to 240 hours after study drug administration.
-
Tmax is the time of maximum concentration between 0 hour to 240
hours after study drug administration.
-
AUC last is the area under the concentration time curve from the
time of last dosing to the time of last quantifiable
concentration.
-
AUC∞ is the area under the concentration time curve extrapolated to
infinity.
-
Thalf is the time required for the plasma concentration to decrease
by 50%.
-
The median time to reach the maximum concentration of bupivacaine
in plasma (Tmax) following GTX-101 single-dose topical applications
of 50, 100 and 200 mg ranged between 18 to 24 hours depending on
dose, while the median Tmax following the subcutaneous injection of
10 mg of bupivacaine was only 23 minutes. This finding suggests
that the bupivacaine delivered by GTX-101 remains in the skin for a
long period of time, potentially inducing prolonged analgesic
effect in the sprayed area.
-
The exposure to bupivacaine based on Cmax and AUC∞ following
GTX-101 topical application as a single-dose of 50, 100 and 200 mg,
increased with increasing dose. This was predictable and
expected.
-
The systemic exposure to bupivacaine following a 200mg dose of
GTX-101 was:
-
Approximately 29-fold less than a single subcutaneous dose of 10mg
of bupivacaine based on Cmax and,
-
Approximately 6-fold less than a single subcutaneous dose of 10mg
of bupivacaine based on AUC∞.
-
These results are predicted to correspond to an increased safety
margin for GTX-101 with regards to toxicity risk.
-
The mean half-life (Thalf) following GTX-101 single-dose topical
application of 50, 100 and 200 mg ranged between 24 to 37 hours
depending on dose, suggesting a slow elimination and potentially
long duration of effect, while the mean Thalf following the
subcutaneous injection of 10 mg of bupivacaine was only 8
hours.
-
Adverse events judged as related to the study drug by the
investigator were (1 case each):
-
Following GTX-101 topical application: headache (3%) and numbness
(3%) at the sprayed area, and
-
Following bupivacaine subcutaneous injection: dizziness (8%) and
nausea (8%).
In conclusion, this Single Dose PK study was
conducted successfully, and it achieved all its primary outcome
measures. The data provides Acasti with key information to help
characterize the PK parameters, and safety and tolerability of
GTX-101, and supports additional future clinical development. The
full clinical study report will be received in the first half of
calendar 2023, and the company intends to eventually publish this
data.
Based on market research with more than 250
physicians, the Company believes that a significant unmet need
exists for treating these patients with PHN. Approximately 40% of
patients that are prescribed the standard of care, which includes
oral gabapentin and lidocaine patches, experience insufficient pain
relief. Gabapentin does not work well for this indication, it can
cause unpleasant side effects, and was recently added to the
controlled substance list in several states due to a tendency for
abuse. The lidocaine patches are difficult to use as they fall off
and can cause skin sensitivity and irritation, especially in older
individuals, and depending on their placement, are inconvenient,
uncomfortable, and unattractive. Given these issues with the oral
and patch alternatives, many PHN patients end up being prescribed
opioids, which given the abuse potential, physicians want to avoid
at all costs.
About PHN
Postherpetic neuralgia (PHN) is neuropathic pain
caused due to damage by the varicella zoster virus. After a primary
varicella infection (chickenpox), the varicella zoster virus can
remain persistent but clinically latent in the sensory nerve
ganglia for many years before being reactivated and becoming
manifest clinically as herpes zoster (shingles). Despite healing
for herpes zoster, the pain may persist for months or even years
and this PHN is the most common and debilitating complication of
herpes zoster.
Postherpetic neuralgia is associated with
significant loss of function and reduced quality of life,
particularly in the elderly, and is highly resistant to treatment.
Since PHN is often resistant to pharmacologic treatments, a
multimodal analgesic treatment strategy is often used to balance
the efficacy and tolerability of the medication regimen, the side
effects of which can be limiting and can themselves compromise
quality of life and patient compliance. Postherpetic neuralgia
occurs most commonly in the elderly, in whom a large number of
drugs are often prescribed, and so the use of a long-acting topical
analgesic with minimal risk of systemic toxicity, would be
advantageous.
Current treatment of PHN most often consists of
oral gabapentin (first line) and prescription lidocaine patches
(second line), and refractory cases may be prescribed opioids to
address persistent pain. Gabapentin and opioid abuse have continued
to proliferate, and lidocaine patches are suboptimal for many
reasons. Prescription lidocaine patches are only approved for PHN,
and the market is currently made up of both branded and generic
offerings. It is estimated that PHN affects approximately 120,000
patients per year in the United States. According to the
third-party report commissioned by Acasti, the total addressable
market for GTX-101 could be as large as $2.5 billion, consisting of
approximately $200 million for PHN pain and $2.3 billion for
non-PHN pain.
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 PHN.
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 final results of the PK bridging study for GTX-101; (ii)
regulatory requirements or developments; (iii) changes to clinical
trial designs and regulatory pathways; (iv) legislative,
regulatory, political and economic developments, and (v) 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.com www.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