Dr. Resnick's research focuses on the cell signaling mechanisms of oncogenesis and tumor progression in brain tumors. He studies signaling cascades and alterations to elucidate the molecular and genetic underpinnings in order to develop targeted therapies. As co-director of the Center of Data-Driven Discovery in Biomedicine, he leads a multidisciplinary team building and supporting a scalable, patient-focused healthcare and educational discovery ecosystem.
Dr. Storm directs CHOP's translational brain tumor laboratory and maintains a research program focusing on cell signaling cascades in pediatric brain tumors. The goal of this research is to understand and identify potential targets that can be developed into clinical therapy. His team is also leading collaborative efforts to de-silo research by engaging in open source platforms and cloud-based sharing.
Dr. Wang works on biomarker identification using multiparametric magnetic resonance imaging and homo- and hetero-nuclear spectroscopy techniques for pediatric disease research including tumors, iron overload, cystic fibrosis, muscular dystrophy, autism, mitochondrial, Gaucher’s, and Canavan’s diseases.
Dr. Hocking’s research aims to better understand the neurodevelopmental consequences of having survived childhood cancer or having neurofibromatosis type 1, to identify those who are most at risk for poor outcomes, and to intervene in some way in order to improve quality of life.
Dr. McCormack investigates the intersection of neuroendocrinology and metabolism. Her translational research program involves two areas. The first involves studying those with genetic disorders, including primary mitochondrial diseases and Friedreich's ataxia, with characterized risk for diabetes mellitus. Second, Dr. McCormack focuses on brain disorders associated with excess weight gain, including brain tumor-related hypothalamic obesity syndrome and idiopathic intracranial hypertension.
Dr. Cole is a pediatric neuro-oncologist who has dedicated her career to translational and clinical research, combining her expertise in molecular pathology, cancer genomics, and developmental therapeutics to identify novel treatments for children with cancer.
Dr. MacFarland's research focuses on syndromes that predispose to cancer development in children and adolescents. She has initiated several individual and collaborative research projects, working in pediatric polyposis syndromes and Li-Fraumeni syndrome. She is uncovering novel genomic drivers of disease and identifying biomarkers of cancer onset and progression.
Dr. De Raedt researches pediatric high grade glioma development and aims to understand the involvement of crucial pathways. He investigates pathway interaction, and explores ways to develop therapies through analyzing human tumors, performing cellular studies, and developing accurate mouse models. This allows Dr. De Raedt and his team to perform novel pre-clinical studies that can lead to clinical trials.
Dr. Lerman's research interests include non-infectious uveitis and temporomandibular (TMJ) arthritis. Her studies examine the utility of biologic agents to achieve, and maintain, uveitis control. Up to 80 percent of children with juvenile idiopathic arthritis (JIA) have potentially erosive TMJ arthritis, and she is exploring ways to best identify and monitor this often asymptomatic manifestation of JIA.