Faculty Profiles

Ciprian, Ionita
Ionita, Ciprian, PhDResearch Assistant Professor
Email: cnionita@buffalo.edu
Phone: (716) 400-4283

Specialty/Research Focus:
Cardiovascular Disease; Diagnostic Radiology; Neuroradiology - Radiology; Radiological Physics; Vascular and Interventional Radiology; Vision science

Research Summary:
My research career focuses on improvement of endovascular image guided interventions and encompasses three major components: vascular disease research, endovascular device development and medical imaging. Since the beginning of my research I tried to develop and test endovascular device in patient relevant physiology in a lab setting. I developed the first balloon deployable asymmetric flow diverters nearly eight years ago and test them in idealized aneurysms phantoms. Over the years with my collaborators at Toshiba Stroke and Vascular Research Center (TSVRC), I developed an entire chain of manufacturing and testing of such devices. Concerning imaging, my research is focused on physiological conditions determination based on imaging such as angiography and CT and micro-CT.

Stephen, Rudin
Rudin, Stephen, PhD, FAAPM, DABR, CHPSUNY Distinguished Professor; Director, Division of Radiation Physics
Email: srudin@buffalo.edu
Phone: (716) 829-5408

Specialty/Research Focus:
Diagnostic Radiology; Neurological Surgery; Neuroradiology - Diagnostic Radiology; Neuroradiology - Radiology; Pediatric Radiology - Radiological Physics; Radiological Physics; Radiology; Vascular and Interventional Radiology

Research Summary:
A SUNY Distinguished Professor & member of the UB faculty for more than 30 years, Dr. Rudin is a world-renowned expert in the field of medical physics. The quintessential interdisciplinary research scientist, Dr. Rudin is an international force in the development of a host of cutting-edge technology & methodology in the area of medical diagnostic & interventional imaging. He has won multiple awards for scientific excellence as well as awards for excellence in design, and is particularly well-known for his work in developing a high resolution x-ray imaging detectors, dose reduction methods, and endovascular devices such as asymmetric stents, work with major theoretical and clinical implications for medical physics, biomedical engineering, and diagnostic radiology, as well as an immediate impact upon patient diagnosis and care, particularly in case of brain and heart treatment. The caliber, significance, and innovation of his research are demonstrated by the numerous grants he has received from the NIH.