Dr. Bagatell’s research focuses on improving therapies for children with neuroblastoma. She leads clinical research studies designed to critically evaluate current therapies for children with high-risk and relapsed disease, and is committed to conducting studies of new therapies for this population. She is currently pursuing research designed to evaluate biomarkers for response to targeted therapy in children with high-risk disease.
Dr. Mostoufi-Moab's clinical and research program is focused on endocrine late effects after childhood cancer therapy. She has unique dual training in pediatric endocrinology and oncology with a master's degree in clinical epidemiology. The goal of her research program is to pursue a mechanistic understanding of metabolic and endocrine disorders that occur due to cancer therapy.
Dr. Diskin's research is focused on translational genomics in childhood cancers. Her laboratory seeks to identify the genetic basis of childhood cancers by combining quantitative computational methods with rigorous "wet-lab" experimental approaches. In parallel, she has developed, and is applying, a proteogenomic approach to identify novel immunotherapeutic targets for high-risk and relapsed pediatric malignancies.
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. Balis's research focuses on the clinical pharmacology of anticancer drugs, new drug development, and clinical trial design and endpoints. He studies the pharmacokinetics and pharmacodynamics of anticancer drugs and has applied pharmacological principles to clinical trial design and clinical drug development. He is developing new biomarkers to serve as surrogate endpoints of drug toxicity or efficacy in clinical trials.
Physician-scientists in the Cancer Center at Children's Hospital of Philadelphia (CHOP) have developed a preclinical, potent therapy attached to an antibody that targets a surface protein expressed in most childhood neuroblastomas, effectively killing cancer cells.