Stoke Therapeutics Announces Positive Interim Safety, PK and CSF Exposure Data from the Phase 1/2a MONARCH Study of STK-001 in Children and Adolescents with Dravet Syndrome
– Results show that single doses of STK-001 up to 30mg and multiple doses of 20mg were well-tolerated with no safety concerns related to the study drug –
– A trend toward a reduction in convulsive seizure frequency was observed among patients treated with single doses of STK-001 –
– >95% of patients anticipated to achieve pharmacologically active levels of STK-001 with three monthly doses of 30mg –
– Complementary Phase 1/2a studies ongoing; First patients dosed in the 30mg multiple ascending dose (MAD) cohorts of MONARCH in the
– FDA will allow the evaluation of an additional higher dose level (45mg) in the MONARCH study –
– Management will host a webinar and conference call for analysts and investors at
Dravet syndrome is a severe and progressive genetic epilepsy characterized by frequent, prolonged and refractory seizures, beginning within the first year of life. Complications of the disease often contribute to poor quality of life for patients and their caregivers. Stoke believes that STK-001, a proprietary antisense oligonucleotide (ASO), has the potential to be the first disease-modifying therapy to address the genetic cause of Dravet syndrome.
“Dravet syndrome is a devastating disease that is difficult to treat. Despite available anti-seizure medicines, seizures are not adequately controlled for more than 90% of patients, contributing to poor quality of life,” said
The MONARCH study is a
The interim analysis is based on data from 21 patients who were treated in the single 10mg (n=5), 20mg (n=4), or 30mg (n=6) dose cohorts of STK-001 and who were followed for at least three months after their last dose. Also included in this analysis were six patients from the 20mg MAD dose cohort, most of whom had received three monthly doses of STK-001.
Despite concomitant use of multiple anti-seizure medicines, patients enrolled in MONARCH had a high seizure burden. Patients had a median of 17 convulsive seizures during the 4-week screening period leading up to their first dose of STK-001. More than 85% (18/21) of patients were taking three or more concomitant anti-seizure medicines as maintenance therapy and 67% (14/21) were taking four or more concomitant medicines. The most commonly used anti-seizure medicines were clobazam (13/21, 62%) and fenfluramine (10/21, 48%).
Key findings from the MONARCH study interim analysis include:
- Single doses of STK-001 up to 30mg and multiple doses of STK-001 at 20mg were found to be well-tolerated with no safety concerns related to the study drug.
- The most common treatment-emergent adverse events (TEAE) were headache, irritability, vomiting, seizure, and back pain.
- 3/21 (14%) of patients experienced a TEAE that was related to study drug. None of these patients were in the two higher dose groups (30mg single dose or 20mg multiple dose).
- 4/21 (19%) of patients had a treatment-emergent serious adverse event (SAE). There were no SAEs related to study drug.
- A dose proportional increase in study drug exposure was observed in plasma PK.
- CSF exposure was measurable up to six months following a single intrathecal (IT) dose, indicating sustained exposure of STK-001 in the brain. A dose-proportional increase in CSF concentration was observed from 20mg to 30mg.
- Preliminary analyses of daily seizure diaries suggested a trend toward a reduction in median percent change from baseline in convulsive seizure frequency among patients treated with single doses of STK-001. This trend was more evident in the 2 to 12 year-old age group.
- Based on data available from 11 patients in the SAD cohorts (10mg, 20mg, 30mg), 8 out of 11 patients demonstrated a reduction in convulsive seizure frequency.
No patients discontinued study treatment and, at the time of the analysis, all patients who completed dosing in the SAD portion of MONARCH continued treatment in SWALLOWTAIL, an open-label extension study designed to evaluate the long-term safety and tolerability of repeat doses of STK-001.
PK Model Findings
- A population pharmacokinetic model for intrathecal STK-001 was developed using non-human primate data and was scaled and adjusted using clinical data to predict STK-001 concentrations in plasma, CSF and brain in pediatric patients with Dravet syndrome.
- Data from the MONARCH study showed that STK-001 levels in plasma and CSF in patients treated with STK-001 correlated very well with model predictions, indicating that plasma and CSF levels observed in patients are good predictors of STK-001 brain levels in patients.
- Estimated pharmacologically active levels of STK-001 in the brain are conservatively defined as those that could result in a 2-fold increase in Nav1.1, which is anticipated to restore normal physiologic levels in a patient’s brain cells.
- Modeling of early clinical data suggests that 95% of patients are predicted to have pharmacologically active STK-001 brain levels following three doses of 30mg administered one month apart. Half of all patients are anticipated to remain at therapeutic levels for approximately three months after the last dose.
Clinical Progress Updates
- In September, the first patient was dosed in the 30mg MAD portion of the ongoing Phase 1/2a MONARCH study.
- In September, the first patient was dosed with STK-001 (30mg) in the Phase 1/2a ADMIRAL study of STK-001 for the treatment of children and adolescents with Dravet syndrome in the
United Kingdom. This study complements the Company’s ongoing MONARCH study by evaluating multiple doses of STK-001 up to 70mg.
- Following recent interactions with the
U.S. Food and Drug Administration(FDA) related to the partial clinical hold on higher dose levels in the MONARCH study, the FDA will allow the Company to add an additional higher dose level (45mg) to the SAD and MAD portions of the MONARCH study.
- The Company expects to provide greater detail on data from the MONARCH study at the
American Epilepsy Societyannual meeting December 3-7, 2021in Chicago.
- The Company expects to share clinical data from multiple doses of 30mg in the second half of 2022.
Stoke Webinar and Conference Call for Analysts and Investors
Stoke will host a webinar and conference call for analysts and investors at
About Dravet Syndrome
Dravet syndrome is a severe and progressive genetic epilepsy characterized by frequent, prolonged and refractory seizures, beginning within the first year of life. Dravet syndrome is difficult to treat and has a poor long-term prognosis. Complications of the disease often contribute to a poor quality of life for patients and their caregivers. The effects of the disease go beyond seizures and often include intellectual disability, developmental delays, movement and balance issues, language and speech disturbances, growth defects, sleep abnormalities, disruptions of the autonomic nervous system and mood disorders. The disease is classified as a developmental and epileptic encephalopathy due to the developmental delays and cognitive impairment associated with the disease. Compared with the general epilepsy population, people living with Dravet syndrome have a higher risk of sudden unexpected death in epilepsy, or SUDEP. There are no approved disease modifying therapies for people living with Dravet syndrome. One out of 16,000 babies are born with Dravet syndrome, which is not concentrated in a particular geographic area or ethnic group.
STK-001 is an investigational new medicine for the treatment of Dravet syndrome that is currently being evaluated in ongoing clinical trials. Stoke believes that STK-001, a proprietary antisense oligonucleotide (ASO), has the potential to be the first disease-modifying therapy to address the genetic cause of Dravet syndrome. STK-001 is designed to upregulate NaV1.1 protein expression by leveraging the non-mutant (wild-type) copy of the SCN1A gene to restore physiological NaV1.1 levels, thereby reducing both occurrence of seizures and significant non-seizure comorbidities. Stoke has generated preclinical data demonstrating proof-of-mechanism and proof-of-concept for STK-001. STK-001 has been granted orphan drug designation by the FDA as a potential new treatment for Dravet syndrome.
About Phase 1/2a MONARCH Study (
The MONARCH study is a Phase 1/2a open-label study of children and adolescents ages 2 to 18 who have an established diagnosis of Dravet syndrome and have evidence of a pathogenic genetic mutation in the SCN1A gene. The primary objectives for the study are to assess the safety and tolerability of STK-001, as well as to characterize blood pharmacokinetics. A secondary objective is to assess the efficacy as an adjunctive antiepileptic treatment with respect to the percentage change from baseline in convulsive seizure frequency over a 12-week treatment period. Stoke also intends to measure non-seizure aspects of the disease, such as quality of life, as secondary endpoints. Stoke plans to enroll approximately 48 patients in the study across 20 sites in
Patients who participated in the MONARCH study are eligible to continue treatment in SWALLOWTAIL, an open label extension (OLE) study designed to evaluate the long-term safety and tolerability of repeat doses of STK-001. Enrollment and dosing in SWALLOWTAIL are underway.
About Phase 1/2a ADMIRAL Study (
The ADMIRAL study is a Phase 1/2a open-label study of children and adolescents ages 2 to <18 who have an established diagnosis of Dravet syndrome and have evidence of a genetic mutation in the SCN1A gene. The primary objectives for the study are to assess the safety and tolerability of multiple doses of STK-001, as well as to characterize blood pharmacokinetics. A secondary objective is to assess the effect of multiple doses of STK-001 as an adjunctive antiepileptic treatment with respect to the percentage change from baseline in convulsive seizure frequency over a 24-week treatment period. Stoke also intends to measure non-seizure aspects of the disease, such as overall clinical status and quality of life, as secondary endpoints. Stoke plans to enroll approximately 22 patients in the study across multiple sites in the
TANGO (Targeted Augmentation of Nuclear Gene Output) is Stoke’s proprietary research platform. Stoke’s initial application for this technology are diseases in which one copy of a gene functions normally and the other is mutated, also called haploinsufficiencies. In these cases, the mutated gene does not produce its share of protein, so the body does not function normally. Using the TANGO approach and a deep understanding of RNA science, Stoke researchers design antisense oligonucleotides (ASOs) that bind to pre-mRNA and help the target genes produce more protein. TANGO aims to restore missing proteins by increasing – or stoking – protein output from healthy genes, thus compensating for the non-functioning copy of the gene.
Cautionary Note Regarding Forward-Looking Statements
This press release contains forward-looking statements within the meaning of the "safe harbor" provisions of the Private Securities Litigation Reform Act of 1995, including, but not limited to: the ability of STK-001 to treat Dravet syndrome and reduce seizures, the timing and expected progress of clinical trials, data readouts and presentations, and the timing or receipt of regulatory approval. Statements including words such as “plan,” “will,” “continue,” “expect,” or “ongoing” and statements in the future tense are forward-looking statements. These forward-looking statements involve risks and uncertainties, as well as assumptions, which, if they do not fully materialize or prove incorrect, could cause our results to differ materially from those expressed or implied by such forward-looking statements. Forward-looking statements are subject to risks and uncertainties that may cause the company’s actual activities or results to differ significantly from those expressed in any forward-looking statement, including risks and uncertainties related to the Company’s ability to advance its product candidates, obtain regulatory approval of and ultimately commercialize its product candidates, the timing and results of preclinical and clinical trials, the company’s ability to fund development activities and achieve development goals, the company’s ability to protect intellectual property and other risks and uncertainties described under the heading “Risk Factors” in documents the company files from time to time with the
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