Neuroimaging methods are used with increasing frequency in clinical practice and basic research. Designed for students and professionals, this course will introduce the basic principles of neuroimaging methods as applied to human subjects research and introduce the neuroscience concepts and terminology necessary for a basic understanding of neuroimaging applications. Topics include the history of neuroimaging, an introduction to neuroimaging physics and image formation, as well as an overview of different neuroimaging applications, including functional MRI, diffusion tensor imaging, magnetic resonance spectroscopy, perfusion imaging, and positron emission tomography imaging. Each will be reviewed in the context of their specific methods, source of signal, goals, and limitations. The course will also introduce basic neuroscience concepts necessary to understand the implementation of neuroimaging methods, including structural and functional human neuroanatomy, cognitive domains, and experimental design.
- 5 stars73.14%
- 4 stars21.11%
- 3 stars4.51%
- 2 stars0.60%
- 1 star0.60%
FUNDAMENTAL NEUROSCIENCE FOR NEUROIMAGING からの人気レビュー
I recently completed an internship in a pediatric radiology lab in the DC Metro area. This course was great supplement to the knowledge received during that experience. Thank you!
An Amazing Opprtunity to learn new things while studying medicine. Though could have been a bit more interacting, but the information provided was sought and thorough. A big thanks.
This course gives a broad overview of some of the well-known neuroimaging techniques. Their advantages, disadvantages, and things to keep in mind while designing an fMRI experiment are well explained.
Dr Arnold has explained basics of neuroimaging in a very lively and easy way which helped me to grasp the ideas behind the physics and use of MRI, fMRI, MRS, DTI etc
Neuroscience and Neuroimaging専門講座について