MRI 3Tesla – 8.5 CE

High Field MRI 3Tesla E-learning Course

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MRI 3Tesla – 8.5 CE Credits

$21.25

  Approved by the CAMRT (Canadian Association of Medical Radiation Technologists) for 8.5 Category A CE Credits
  Subscription duration: 6 months from purchase date
Meets the CE requirements of the following states: Texas, Florida, Kentucky, Massachusetts, and New Mexico
Meets ARRT® CE reporting requirements
Accepted by the ARMRIT
Hassle-free 30-day full refund policy*

Description

This course summarizes the development of magnetic resonance imaging in medicine. Aspects of magnetic resonance physics and technology relevant at ultra-high magnetic fields as well as current limitations are highlighted.
Audience and Objectives

Objectives

  • Identify safety standards related to operating a very strong magnetic field
  • Understand changes in terms of contrast and parameters when switching from a 1.5T to a 3T
  • Optimize gains in signal-to-noise ratio induced by the increase in magnetic field
  • Recognize and minimize artifacts that specifically affect 3T image acquisitions
Target Audience

  • Radiologic Technologists

Topics Covered

Introduction and Safety

  • Introduction
  • Magnetic Field
  • SAR
  • Gradients
Contrast

  • Relaxation Times
  • The Weightings
  • Changes at 3T
Signal-to-Noise Ratio (SNR)

  • The Signal
  • The Noise
  • Signal to Noise Ratio
  • Changes at 3T
  • Investment in Spatial Resolution
  • Investment in Acquisition Time
Artifacts

  • Chemical Shift
  • Magnetic Susceptibility
  • The Dielectric Effect
Ultra-High Field MRI – 7 Tesla

  • Introduction
  • Benefits and Safety
  • Effect on the SNR
  • Relaxation Time
  • RF Energy Deposition
  • Chemical Shift and Magnetic Susceptibility
  • Homogeneity of the Magnet
  • Correction of B0 Homogeneity
  • Clinical Applications and Potential
  • Cranial Pathology

CQR Credits Distribution

DisciplineMajor content category & subcategoriesCE Credits provided
MRI-2016Safety
MRI Screening and Safety1.50
MRI-2016Image Production
Physical Principles of Image Formation3.00
Sequence Parameters and Options2.00
Data Acquisition and Processing1.25
MRI-2016Procedures
Neuro0.25
Body0.25
Musculoskeletal0.25
MRI-2020Safety
MRI Screening and Safety1.50
MRI-2020Image Production
Physical Principles of Image Formation3.00
Sequence Parameters and Options2.00
Data Acquisition, Processing, and Storage1.25
MRI-2020Procedures
Neuro0.25
Body0.25
Musculoskeletal0.25