This series covers the development of MR imaging, how the equipment and instrumentation works and how to improve image quality. Modules in this series explain the importance of parameters, the functionality of radiofrequency systems and gradient systems in MR imaging. You will also learn about specific applications of MR imaging such as neuroimaging and joint imaging. The MR Pathology modules will improve your recognition and understanding of specific pathology in MR.
This series satisfies the ARRT 16-credit Structured Education Requirements for MR. Format: online modules.
This module discusses past and potential future developments in MR imaging and the most prominent researchers and pioneers in the field. Learn how an image is acquired using MR and how an MR signal is produced and detected.
This module describes the major hardware components in MR imaging and explains magnetism and magnetic properties. Learn about three basic types of magnets and the differences in low-, mid-, high- and ultra-high–field systems. The functionality of the shim system in MR imaging is also explained.
This module explains the functionality of the radiofrequency system and gradient system in MR imaging. Learn how gradients alter magnetic fields and what role coils play when applying gradients.
This module explains the intrinsic and extrinsic parameters that affect image quality. Learn how to describe image contrast appearance according to image weighting and the use of gradient and radiofrequency pulses in acquiring MR images.
This module explains the proper screening and preparation of patients for contrast-enhanced MR imaging examinations. Learn how to describe the use of MR contrast agents and how to prepare contrast materials for injection. Potential adverse effects of contrast agents, the mechanism of action and the effects of contrast media on images are also discussed.
This module explains the parameters related to tissue characteristics that affect image quality such as T1 and T2 relaxation and how to apply pulse sequence principles to MR imaging. Learn the concepts of image formation and how to describe image contrast appearance according to image weighting.
This module discusses the elements of safety management that help ensure an MR imaging facility operates safely. Learn how to monitor patients during procedures and how to properly screen and prepare patients for MR imaging. Responding to emergency situations in the MR environment, including how to quench a magnet, is also explained in this module.
This module describes the imaging parameters that determine image contrast and how imaging parameters determine spatial resolution on MR images. Learn the names of imaging parameters involved in MR image formation and how to obtain diagnostic MR images with minimal artifacts.
This module identifies common anatomic structures, pathology of the central nervous system and positioning criteria for various areas of the body. Learn how to design an imaging protocol and how to apply protocols in specific situations. Applying MR imaging parameters in the clinical setting is also explained in this module.
This module describes the available coils for MR imaging and their specific applications. Learn how to apply MR imaging parameters in the clinical setting and how to differentiate between different types of pulse sequences. Positioning criteria for various areas of the body and common pathologies are also explained in this module.
This module describes pathology of the brain, vascular system of the neck and head, and the spine as detected with MR imaging. Learn to distinguish between normal and pathologic tissues on MR scans, as well as the associated symptoms and origin of each type of pathology presented. Disease progression and treatment options are also discussed in this module.
This module describes pathology of the abdomen, pelvis and extremities as detected with MR imaging. Learn to distinguish between normal and pathologic tissues on MR scans, as well as the associated symptoms and origin of each type of pathology presented. Disease progression and treatment options are also discussed in this module.
This series covers the development of MR imaging, the operation and maintenance of MR equipment, and how to improve image quality in MR. Modules in this series explain the importance of parameters, the functionality of radiofrequency systems and gradient systems in MR imaging. You will also learn about specific applications of MR imaging such as neuroimaging and joint imaging. The MR Pathology modules will improve your recognition and understanding of specific pathology in MR.
It contains all 12 modules, an image library, transcripts, and test banks for each module.
Elevate your clinical acumen with our immersive online anatomy series. This course empowers you to accurately identify anatomical structures in CT and MR imaging, comprehend their intricate functions, and acquire valuable insights from the expert viewpoint of seasoned radiologists. Navigate through detailed illustrations and vivid clinical images to refine your imaging skills and enhance patient care. Format: online modules.
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Become an ASRT member and receive access to 17 CE credits each membership year. Choose from more than 575 CE courses in a variety of topics. Earn CE to fulfill biennium, CQR prescription, state and regulatory requirements.