Dr. Lambert's research focuses on understanding the mechanisms of inherited and acquired thrombocytopenia in pediatric patients. Using clinical translational methods to link discovery in rare platelet disorders with optimizing next-generation sequencing for clinical practice, she has been involved in the Undiagnosed Disease Network Program and the Frontier Program in Immune Dysregulation, incorporating genetics of platelet disorders and immunohematology.
Using translational approaches that encompass genomic studies, biomarker development, disease modeling, natural history studies, and clinical trials, Dr. Vanderver seeks to improve the quality of life and lifespan of individuals living with leukodystrophies or heritable disorder of myelin. She leads the Leukodystrophy Center of Excellence at Children's Hospital of Philadelphia.
Dr. Deardorff’s work integrates patient information with genomics and cell biology to diagnosis and understand rare genetic disease. His research focuses on disorders caused by dysregulation of chromatin or altered translational regulation, specifically, Cornelia de Lange, Coffin-Siris, Skraban-Deardorff and KBG syndromes.
A research team at Children’s Hospital of Philadelphia (CHOP) has developed an innovative computational tool offering researchers an efficient method for detecting the different ways RNA is pieced together (spliced) when copied from DNA.
The human genome contains approximately 20,000 genes, and exome analysis focuses on about 7,000 genes known in medical literature to be clinically associated with a disease. Currently, up to 70 percent of exome test reports are negative or inconclusive. But suppose at a later date a researcher discovers a gene that could be causative of the disease?