Christopher Hess, MD, PhD, Neuroimaging Part 1: Physical Principles of Neuroimaging

Описание к видео Christopher Hess, MD, PhD, Neuroimaging Part 1: Physical Principles of Neuroimaging

Computed Tomography is based on X-Ray technology. X-rays, when passed through an object, are attenuated -- yielding an image of the underlying structure. CT uses a similar mechanism, in which x-rays are passed through a slice, rotated around the patient, then combined to create a 2-dimensional image. A 3-dimensional volume is captured as the machine rotates around the subject.

Magnetic Resonance Imaging is created by a superconducting magnet. The patient is inserted into a larger bore than in a CT scan. The gradient coils on the inside allows for spacial localization. The patient is placed in a head coil then moved into the bore. Different flavors of MRI's include T1, T2, Contrast, Diffusion, Perfusion, and Angiography.

More on Dr. Hess: http://profiles.ucsf.edu/christopher....

UC San Francisco advances health through education, research, patient care and public service. With seven major sites in the San Francisco Bay Area and Fresno, the UCSF School of Medicine is dedicated to improving human health by accelerating scientific discovery and transforming medical education. The school’s new Bridges curriculum is pioneering a new approach to medical education to prepare physicians for practice in the 21st century. Through mentorship and collaborative learning, students are trained to care for patients, conduct research and contribute vital knowledge to improve our health system.

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