As director of the Center for Clinical Pharmacology, Dr. Zuppa has a dynamic research program that focuses on using clinical pharmacological modeling and simulation strategies to study the impact of critical illness on drug disposition in children.
The research interests of Dr. Downes focus on antimicrobial clinical pharmacology and pharmacoepidemiology in children with a goal to identify novel approaches to optimize efficacy, minimize toxicity, and limit antimicrobial resistance from antibiotics.
Dr. Adamson serves as chair of the international consortium Children's Oncology Group and on the National Cancer Advisory Board. In addition to his national and international leadership roles in pediatric oncology, Dr. Adamson maintains a dynamic research program on pediatric clinical-translational drug development, with a strong focus on childhood cancer drug development.
Dr. Moorthy’s research focuses on liquid chromatography-tandem mass spectrometry assays for translational research. He is an expert in developing and validating analytical methods and their implementation for pediatric and adult clinical sample analysis.
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.
Dr. Kenyon's research focuses on integrating care systems and reducing outcome disparities for children with asthma. His recent work focuses on developing novel interventions to enhance asthma controller medication use in the highest risk children by leveraging mobile health technology and incentives oriented to the child.
Dr. Rubenstein's research focuses on basic and translational studies of novel means to improve outcomes in cystic fibrosis. He initially focused on correcting the dysfunction of mutant cystic fibrosis transmembrane conductance regulator (CFTR) proteins, which led him to study how molecular chaperones regulate the biogenesis and trafficking of CFTR and other proteins that are relevant to cystic fibrosis.
Dr. Ahrens-Nicklas works to understand why patients with inherited biochemical disorders often suffer severe, untreatable neurologic and cardiac symptoms. She strives to elucidate the link between biochemistry and network excitability, in order to drive new approaches to therapy.
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.