Sally Amundson, ScD Dr. Amundson is an Associate Professor of Radiation Oncology in the Columbia University Center for Radiological Research. She earned her BA (biology) at Hamline University in St. Paul, MN and her ScD (Cancer Biology) at the Harvard University, School of Public Health. She was a Postdoctoral Fellow in Radiation Biology at Los Alamos National Laboratory and an IRTA Postdoctoral Fellow at the National Cancer Institute in Cancer Biology. The major focus of her research is the study of gene expression responses to adverse environmental conditions, most notably her work in unravelling the molecular mechanisms underlying the cellular response to ionizing radiation exposure. Dr. Amundson is a recipient of the prestigious Michael Fry Research Award from the Radiation Research Society (RRS), currently serves on the RRS council and is an associate editor of Radiation Research. Her research uses functional genomics approaches to study low dose radiation and bystander effects, unique effects of space radiation, and the development of gene expression approaches for radiation biodosimetry. She is co-director of the Center for High-Throughput Minimally-Invasive Radiation Biodosimetry at Columbia University. She has served on the National Council on Radiological Protection and Measurements (NCRP) since 2004 and on the Science Advisory Committee of the Radiation Effects Research Foundation (RERF) in Hiroshima since 2009, chairing RERF scientific review in 2012.
Dr. Balter’s Medical Physics career began as a student in the Radiological Physics Program at Columbia University’s Radiological Research Laboratory where he earned his MS Degree. From there, he went to Memorial Sloan Kettering Cancer Institute where he developed one of the first brachytherapy dosimetry programs whilst earning his PhD in Physics (dynamical X-ray scattering) from Brooklyn Polytechnic Institute. Following that, Dr. Balter joined the faculty at the University of Massachusetts Medical School in Worcester and was subsequently recruited by Philips to provide medical physics support for the Cleveland Clinic in its development of coronary angiography. Among his major accomplishments during this time was facilitating the introduction of Digital Subtraction Angiography and Computed Radiography into the clinical environment. He returned to full time clinical medical physics at Lenox Hill Hospital in and later accepted a faculty appointment at Trinity College (Dublin, Ireland) as part of his continuation of European teaching and standards activities. He subsequently returned to his roots in Columbia University where he works today, primarily in interventional cardiology. He is currently a Professor of Clinical Radiology (Physics) in Medicine at Columbia University and is the author of over one hundred refereed publications and numerous books and chapters, most notably as the senior physics author in two of the three current main textbooks in Interventional Cardiology and a contributing author to the third. He has served on committees for the International Atomic Energy Agency and the National Council on Radiation Protection and Measurements (NCRP) and was the chair of NCRP report 168 on interventional fluoroscopy and NCRP statement 11 expanding dose management QA in this area. His numerous professional society activities included vice presidency of the Radiological Society of North America (RSNA), serving on the Board of Directors for the American Association of Physicists in Medicine, President of the Radiological and Medical Physics Society of New York (RAMPS), work as a RAPHEX examination team member and as an American Board Radiology examiner (chest imaging). He was awarded fellowships by the American Association of Physicists in Medicine, American College of Medical Physics, American College of Radiology, Society of Interventional Radiology, and Society for Cardiac Angiography and Interventions.
David Brenner, PhD, DSc
Dr. Brenner is the Higgins Professor of Radiation Biophysics, Director of the Columbia University Center for Radiological Research, Director of the Radiological Research Accelerator Facility at Nevis Laboratories and Professor of Environmental Health Sciences in the Mailman School of Public Health. He is a recipient of the prestigious Failla Award from the Radiation Research Society. He received his BA and MA in Physics from Oxford University, a MSc in Radiation Physics from St. Bartholomew's Hospital, University of London, and his PhD in Physics from the University of Surrey, Guildford, UK. Dr. Brenner’s research focuses on developing mechanistic models of the effects of ionizing radiation on living systems and devotes his research efforts to both the effects of high doses of ionizing radiation (radiotherapy) and low doses of radiation (relating to medical, environmental and occupational exposures). He is noted, among many other scientific contributions, for his work in the field of medical imaging, where his research has focused on the risk/benefit balance of higher-dose imaging techniques, particularly computed tomography (CT) and for patient friendly" approaches for prostate cancer radiation therapy that are now in common use worldwide. Dr. Brenner is the Director of the Center for high-Throughput Minimally-Invasive Radiation Biodosimetry, a multi-institute consortium developing technologies to develop rapid testing platforms for individual radiation exposures in the case of large-scale radiological events. Dr. Brenner has published more than 270 peer-reviewed papers and is the author of two books. He serves on the National Academies Nuclear and Radiation Studies Board.
Lauren Kelly serves as a Project Manager for Safety and Regulatory Affairs in the Columbia University Department of Environmental Health and Safety. She has over 19 years of hands-on experience in managing chemical and radioactive wastes in industrial, pharmaceutical, hospital and university settings and is trained as an Incident Commander and Hazardous Materials Specialist. Her expertise include environmental regulatory compliance, emergency spill response and remediation, hazardous materials transport and radioactive waste management. Lauren received her BS, magna cum laude, in Environmental Studies from East Stroudsburg University.
Norman Kleiman, PhD
Dr. Kleiman is the Director of the MS Degree program in Radiological Sciences (with tracks in Health Physics and Radiobiology) in the Department of Environmental Sciences in the Mailman School of Public Health at Columbia University. This program, the first such offered by a School of Public Health, helps train the next generation of professionals with interests in the intersection of the environmental and human health risks of radiation exposure. Dr. Kleiman is also the Director of the Eye Radiation and Environmental Research Laboratory at Columbia University, where his research interests include the intersection of public health, ophthalmology and radiation research often using the eye as a model system to study the ocular and systemic effects of radiation exposure. In addition to his academic and research responsibilities, he lectures frequently on radiation effects in the eye and provides expertise to a variety of domestic and international regulatory and advisory bodies on issues of radiation exposure. He received his PhD in Molecular Biology from Vanderbilt University and his BS in Biology from Rensselaer Polytechnic Institute.
Ms. Meng is a Senior Health Physicist and Associate Manager in the Columbia University Office of Environmental Health & Safety. She received her MS degree in Medical Physics from Columbia University. Angela is experienced in managing radiation safety for research laboratories, medical cyclotron and radiochemistry laboratories and clinical departments including Nuclear Medicine, Nuclear Cardiology, Radiation Oncology and PET imaging.
Thomas L. Morgan, PhD, CHP
Dr. Morgan is the Executive Director, Radiation Safety Programs and Chief Radiation Safety Officer, Columbia University, including Barnard College, New York Presbyterian and Allen Hospitals, New York State Psychiatric Institute, Lamont-Doherty Earth Observatory (Palisades, NY) and Nevis Laboratories (Irvington, NY). He is an Adjunct Professor in the Department of Applied Physics and Applied Mathematics where his research interests include health physics and patient and staff doses from diagnostic radiographic and nuclear medicine procedures. Trained as a radiation biologist, Dr. Morgan has conducted biomedical research in radiation biology, human cancer genetics, clinical radiation oncology and health physics. Dr. Morgan received his PhD in Radiological Sciences from the University of California, Irvine and completed undergraduate degrees in both Biology and Chemistry from the University of California, Irvine. Dr. Morgan has more than 20 years of experience in operational health physics. As a graduate student, he was licensed by the US Nuclear Regulatory Commission as a Senior Nuclear Reactor Operator for the TRIGA Reactor at the University of California, Irvine. Prior to coming to Columbia University, Dr. Morgan served as the Radiation Safety officer for the University of Rochester. Previously, he worked as the Radiation Safety Officer of a large community teaching hospital in Los Angeles and as the Radiation Safety Officer responsible for employee health and safety for a company that manufactured and distributed radioactive sources, a manufacturing operation that handled thousands of curies of radioactivity each year. Dr. Morgan is certified by the American Board of Health Physics in the practice of Comprehensive Health Physics and is a licensed Medical Physicist (Medical Health Physics).