Dr. Glessner’s current research focuses on childhood neuropsychiatric and neurodevelopmental disorders along with the genetic architecture associated with them, including single nucleotide polymorphisms, single nucleotide variations, and copy number variations ascertained by genomic technologies.
Dr. Goldberg's research program focuses on investigating cerebral cortical circuit function and dysfunction in neurodevelopmental disorders. Using a variety of research techniques, Dr. Goldberg has a specific research interest in the workings of neuron subtype called GABAergic inhibitory interneuron and the role of interneuron dysfunction in disease.
Dr. Ortiz-Gonzalez is a physician-scientist specializing in pediatric neurogenetics. Her clinical work focuses on finding a unifying genetic diagnosis for children with rare neurodevelopmental disorders. Her research is informed by her patients and focuses on understanding how genetic changes, in particular those affecting mitochondrial function, cause disease so we can develop better treatments for these children in the future.
Dr. Miller's research focuses on the diagnostic and classification issues most pressing to autism spectrum disorder (ASD) research, including differentiating ASD from other genetic and psychiatric conditions, diagnosis across the lifespan, and early identification and screening.
Dr. Parish-Morris investigates social communication, specifically how vocal communication develops in children and adolescents with autism spectrum disorder. She uses computational approaches and machine learning to identify objective and reliable behavioral markers for use in screening, treatment and intervention response tracking, and to advance biological research.
Dr. Bhoj's genetics research aims to discover new human disease genes, their mechanisms, and potential targeted therapies. In addition to ongoing gene discovery efforts, Dr. Bhoj focuses on three novel genes that lead to pediatric neurologic dysfunction: TBC1 domain-containing kinase, Histone 3.3 (H3F3A and H3F3B), and MAP4K4.