Trials / Recruiting

RecruitingNCT07329257

Investigating Phenotypic, Epigenetic, and NeuroGenetic Traits in Rare and Ultra-rare Neurodevelopmental Disorders (Project PENGUIN)

Investigating Phenotypic, Epigenetic, and NeuroGenetic Traits in Rare and Ultra-rare Neurodevelopmental Disorders

Summary

Rare genetic neurodevelopmental disorders, such as Syt-1 or Baker Gordon Syndrome (BAGOS) arise from mutations in genes essential for brain development and function, often disrupting neurotransmission and neuronal connectivity. These conditions present with a wide range of symptoms including developmental delays, seizures, motor and behavioral challenges, and vary widely in severity. These disorders are complex, and they remain poorly understood and lack effective treatments. Natural history and clinical genetic studies are crucial for mapping how these disorders progress, improving diagnostic accuracy, and guiding therapy development. A major focus is identifying reliable biomarkers (genetic, imaging, and physiological) to track disease severity and support clinical trials. This study will securely collect and analyze data to better understand disease impact, develop patient-derived model systems, and build resources to support future treatments.

Detailed description

Rare genetic neurodevelopmental disorders are a diverse group of conditions caused by mutations in genes critical to brain development and function. These disorders often involve disruptions in key proteins responsible for processes like neurotransmitter release, synaptic signaling, and neuronal connectivity. For example, mutations in genes such as SYT1 (which encodes synaptotagmin-1, a calcium-sensing protein essential for regulated neurotransmission) can lead to severe conditions like SYT1-associated neurodevelopmental disorder, also known as Baker-Gordon Syndrome (BAGOS). Similar mutations in other genes may result in distinct but overlapping clinical syndromes. These rare disorders typically present with a wide range of symptoms, including developmental delays, intellectual disability, seizures, abnormal motor function, behavioral changes, visual impairments, and in some cases, self-injurious behaviors. The severity and progression of symptoms can vary significantly between individuals, even among those with the same genetic diagnosis. Due to their rarity and complexity, many of these conditions are poorly understood, and treatment options remain limited. Therefore, natural history studies and clinical genetic studies play a crucial role in advancing research. These studies systematically collect data over time to understand how symptoms evolve, how quickly the disease progresses, and what measurable changes occur in affected individuals. A key component of studies in rare genetic diseases is the identification and validation of biomarker quantifiable indicators such as genetic signatures, brain imaging findings, or physiological measurements-that can serve as reliable endpoints in clinical trials. By tracking these markers, researchers can better evaluate the efficacy of potential therapies and design more targeted treatments. In addition to guiding drug development, these studies help researchers recognize broader patterns across neurodevelopmental disorders. This can lead to the discovery of undiagnosed cases, improve diagnostic accuracy, and foster earlier intervention. Ultimately, building a comprehensive understanding of these rare genetic conditions is essential for improving quality of life for affected individuals and their families. The investigators will analyze this information to explore how rare neurodevelopmental disorders affect ongoing neurodevelopment and quality of life. This study aims to lay groundwork for future therapies and will improve our understanding of rare neurogenetic disorders.

Conditions

• Baker Gordon Syndrome
• Rare Neurodevelopmental Conditions
• Rare Neurogenetic Conditions
• Syt-1 Disorder
• Epilepsy
• Seizure
• Genetic Mutations
• Autism in Children
• Developmental Delay (Disorder)

Interventions

Timeline

Start date

2025-12-04

Primary completion

2028-12-01

Completion

2028-12-01

First posted

2026-01-09

Last updated

2026-01-09

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT07329257. Inclusion in this directory is not an endorsement.