Canavan Disease is a congenital white matter disorder caused by mutations to the gene encoding for aspartoacylase (ASPA). Expression of ASPA is restricted to oligodendrocytes, the sole white matter producing lineage in the brain. ASPA supports myelination in the capacity of its sole known function, namely, the catabolism of N-acetylaspartate (NAA). Inherited mutations that result in loss of ASPA catabolic activity result in a typically severe phenotype of Canavan Disease, characterized by chronically elevated brain NAA, gross motor abnormalities, hypomyelination, progressive spongiform degeneration of the brain, epilepsy, blindness, and a short life expectancy. Disease severity is correlated with residual levels of enzyme activity. Reconstitution of ASPA function in oligodendrocytes of the brains of Canavan patients is expected to rescue NAA metabolism in its natural cellular compartment and support myelination/remyelination by resident white matter producing cells. This protocol directly targets oligodendrocytes in the brain, which are intimately involved with disease initiation and progression. Targeting oligodendrocytes offers the safest and most direct therapy for affected individuals. The latest generation AAV viral vector (rAAV-Olig001-ASPA) will be administered to patients using neurosurgical procedure which involves direct administration of gene therapy to affected regions of the brain. Outcome measures for the open label clinical trial include longitudinal clinical assessments and brain imaging. Currently, there is no effective treatment for Canavan Disease. The purpose of this study is to validate a new technology targeted to the cells most affected by Canavan Disease in the safest way possible. The study investigators are committed to supporting the Rare Disease \& Canavan Disease Communities. For more information, please contact Jordana Holovach, Head of Communications and Community at PatientAdvocacy@myrtellegtx.com.
rAAV-Olig001-ASPA is the first gene therapy designed to target the oligodendrocytes, which are critical for myelination and brain development. This study is a Phase 1/2 First-In-Human protocol designed to obtain safety, pharmacodynamics, and efficacy data following neurosurgical administration of a single dose of rAAV-Olig001-ASPA delivered intracerebroventricularly in up to 24 children with Canavan Disease. Patients with a diagnosis of typical Canavan Disease who meet all eligibility criteria may be enrolled in this open-label, sequential cohort study of a single dose of rAAV-Olig001-ASPA.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
24
Intracerebroventricular administration of a single dose
Keppra daily dose (20-50 mg/kg/day divided twice daily administered orally or per G-tube) in the post-operative period and continued for 3 months per standard of care to prevent seizure activity.
Post-operatively, a 3-month steroid taper is planned to prevent or reduce possible delayed immunological responses. This tapering regimen will consist of 0.5 mg/kg/day prednisone during weeks 1-4; followed by 0.3 mg/kg/day prednisone during weeks 5-8; and 0.1mg prednisone during weeks 9-12, then off. If there is evidence of new inflammation on MRI at 3-months on T2 FLAIR, the steroid taper will be extended for an additional 3 months or we will transition to steroid-sparing immunosuppression.
Dayton Children's Hospital
Dayton, Ohio, United States
Safety evaluation
Number, severity, and causal relationship of any adverse event (to either the gene therapy and/or surgical trial procedures required for vector administration) using the Common Terminology Criteria for Adverse Events (CTCAE) v5.0.
Time frame: 12 Months Post Dose
Myelination
Change from baseline measured by cerebral Synthetic Magnetic Resonance Imaging (SyMRI)
Time frame: 12 Months Post Dose
N-Acetyl-Aspartate (NAA) concentrations in the Brain
N-Acetyl-Aspartate concentrations will be assessed with nuclear Magnetic Resonance Spectroscopy (nMRS) between pre- and post-treatment and as compared to historical controls.
Time frame: 12 Months Post Dose
Neurological Evaluation - Motor Function
Motor Function will be analyzed using the Gross Motor Function Measure (GMFM)-88 scale for motor function assessment before and after vector administration and compared to historical controls. The GMFM consists of 5 scales: Lying and Rolling, Sitting, Crawling and Kneeling, Standing and Walking, Running and Jumping. The total scores range from 0 to 264. The lower the score on GMFM, the weaker the ability; the higher the score, the greater the ability.
Time frame: 12 Months Post Dose
Neurological Evaluation - Neurocognitive Function
Neurocognitive function will be assessed using the Mullen Scales of Early Learning (MSEL) before and after vector administration and compared to historical controls. The MSEL is a cognitive test to measure cognitive ability and language development. The MSEL test has five scales: Gross motor, Visual reception, Fine motor, Receptive language, and Expressive language. The total scores range from 0 to 197. The lower the score on MSEL, the weaker the ability; the higher the score, the greater the ability.
Time frame: 12 Months Post Dose
Neurological Evaluation - Spasticity
Will be assessed using the Canavan Neurological Evaluation before and after vector administration and compared to historical controls.
Time frame: 12 Months Post Dose
Seizure Assessment
Will be assessed based on reported seizure activity and Electroencephalograms alpha, beta, delta, and theta wave frequencies (Hz).
Time frame: 12 Months Post Dose
NAA concentration measured in Cerebrospinal Fluid (CSF)
CSF will be collected via lumbar puncture and analyzed to assess concentrations of N-Acetyl-Aspartate.
Time frame: 6 months
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