Clinical Research Directory

Intranasal Insulin for Autism Spectrum Disorder in Children and Young Adults Aged 4 to 21 Years

This observational study evaluates the real-world use of intranasal insulin in children and young adults with autism spectrum disorder (ASD) utilizing the ViaNase™ device developed by Kurve Therapeutics. Intranasal insulin represents an off label use of an FDA approved medication and is prescribed by participants' treating healthcare providers as part of routine clinical care. Insulin is a hormone involved in cerebral energy metabolism and may play a role in cognitive processes such as learning, memory, and behavior. Emerging research suggests that intranasal delivery using specialized delivery systems such as ViaNase™ may facilitate transport along olfactory and trigeminal pathways, potentially allowing insulin to reach central nervous system targets. This delivery approach has been associated in early studies with changes in social communication and functional outcomes in individuals with neurodevelopmental conditions. This study will follow approximately 12 participants between the ages of 4 and 21 years who are already receiving, or planning to receive, intranasal insulin as part of their standard clinical care using the ViaNase™ device. This is a non-interventional observational study; no treatment is assigned or provided by the study team. Participants will be monitored over an approximate 6-month period for changes in autism-related symptoms, including social interaction, communication, repetitive behaviors, and overall functional development. In addition, safety data will be collected, including tolerability and any reported adverse events. The primary objective of this study is to generate real-world evidence to better characterize the safety profile and potential functional effects of intranasal insulin delivered via ViaNase™ in individuals with ASD, and to inform the design of future controlled clinical investigations.

Intensive Multimodal Neurorehabilitation Targeting Neuroplasticity in Pediatric Neurodevelopmental and Chromosomal Disorders

This observational study evaluates functional and developmental outcomes in pediatric participants undergoing a two week intensive multimodal neurorehabilitation program. The program is designed for children with neurodevelopmental disorders, including but not limited to cerebral palsy, autism spectrum disorder, developmental delay, hypoxic ischemic encephalopathy (HIE), and chromosomal or genetic abnormalities. Participants receive individualized therapy sessions for approximately 2.5 hours per day over a two week period. The intervention is not standardized but is tailored to each child's specific needs and may include components such as sensory integration, motor planning, reflex integration, oculomotor training, executive functioning activities, communication support, and other brain based therapeutic approaches. The purpose of this study is to observe changes in functional abilities, including attention, motor coordination, emotional regulation, communication, and activities of daily living. Outcomes are assessed using clinician observation and parent reported changes before and after the intensive program, with limited follow-up when available. This study does not assign participants to a specific treatment as part of a research protocol. Instead, it collects real world data from children already participating in a clinical therapy program to better understand potential benefits of intensive, individualized neurorehabilitation approaches.

Characterization of the Natural History of Microduplication Syndrome 7q11.23

7q11.23 duplication syndrome (7q duplication syndrome/7DUP) is caused by a microduplication of the 7q11.23 chromosomal region, encompassing 26-28 genes, including the GTF2I gene. This syndrome, often considered as a "mirror" phenotype of Williams-Beuren syndrome (WBS), is characterized by a wide range of neurodevelopmental impairments, including a neurodevelopmental disorder (NDD), autism spectrum disorders (ASD), selective mutism, mild dysmorphic features, and aortic dilation. Notably, one of the core clinical features of 7DUP is socialization impairment, which varies in severity across individuals. The GTF2I gene, identified as critical in the pathogenesis of both WBS and 7DUP, exhibits opposite expression patterns in the two syndromes, with reduced expression in WBS and overexpression in 7DUP. The gene's dysregulation in 7DUP plays a pivotal role in the pathogenesis of the associated NDD and social deficits. Despite progress in characterizing the genetic underpinnings of 7DUP, there remains a critical gap in understanding the developmental trajectory of socialization impairments in affected individuals, especially during their transition through different developmental stages, from early childhood to adulthood. Recent advancements in the study of neuronal models derived from induced pluripotent stem cells (iPSCs) and brain organoids have shed light on the molecular mechanisms driving 7DUP-related NDDs. Histone deacetylase inhibitors (HDAC inhibitors), which have been widely used in oncology, have shown promising preliminary results in reducing abnormal GTF2I expression in glutamatergic neurons differentiated from 7DUP patient-derived iPSCs. Preclinical studies in mouse models further demonstrated that these drugs can ameliorate socialization deficits, highlighting their therapeutic potential in addressing the core neurodevelopmental challenges in 7DUP. However, despite these advancements, no longitudinal clinical studies have characterized the developmental trajectory of socialization impairments in 7DUP patients. Understanding this trajectory is critical, as it can inform the timing and potential impact of therapeutic interventions, such as HDAC inhibitors. Given the complexity and variability of the 7DUP phenotype, a comprehensive clinical characterization of socialization impairments across the lifespan is essential to improve diagnostic accuracy, optimize intervention strategies, and ultimately improve patient outcomes. The aim of this research is to characterize the developmental trajectory of socialization impairments in patients with 7DUP, from early childhood through adulthood. By identifying patterns of socialization difficulties, this innovative study will allow to efficiently prepare future therapeutic trials, by specifying the phenotype of the patients, and by determining the most relevant outcome measures, taking into account, on one hand, their neurodevelopmental involvement and, on the other hand, the type of experimental design to be used in the context of rare diseases.