Gul Moonis, MD, leverages extensive experience in radiology to serve as an assistant professor of radiology at Harvard Medical School and as a radiologist at Beth Israel Deaconess Medical Center. A recognized researcher in neuroradiology, Dr. Gul Moonis also maintains membership with professional organizations such as the Radiological Society of North America (RSNA).
The RSNA recently issued an article on the various challenges and opportunities in radiology, authored by prominent researcher James H. Thrall, MD, who leads the department of radiology at Massachusetts General Hospital, Boston. According to Dr. Thrall, a wide range of opportunities and measurable parameters have been created in radiology as a result of new digital technologies and energy sources, including sonic, nuclear, and radiofrequency. The array of measurable parameters has allowed medical imaging to expand into the spheres of pharmacology and physiology, as well as molecular and cellular biology, while increasing the scale of measurement from millimeters to nanometers.
In the article, Dr. Thrall also explains that the next 10 years of innovations in x-ray-based imaging will lead to the submillisievert period of CT imaging as well as significant reductions in radiation exposure.
The RSNA recently issued an article on the various challenges and opportunities in radiology, authored by prominent researcher James H. Thrall, MD, who leads the department of radiology at Massachusetts General Hospital, Boston. According to Dr. Thrall, a wide range of opportunities and measurable parameters have been created in radiology as a result of new digital technologies and energy sources, including sonic, nuclear, and radiofrequency. The array of measurable parameters has allowed medical imaging to expand into the spheres of pharmacology and physiology, as well as molecular and cellular biology, while increasing the scale of measurement from millimeters to nanometers.
In the article, Dr. Thrall also explains that the next 10 years of innovations in x-ray-based imaging will lead to the submillisievert period of CT imaging as well as significant reductions in radiation exposure.