A complete listing of currently available online programs is provided below. To view course materials click an available viewing format provided with each listing (PDF, HTML, Interactive). To access online exams and claim credit you must be registered and logged in. To add courses to your "MyAR Archives" user account select the "Add To Cart" button provided with each course title and follow the prompts.
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* New Advances in CT Technology for Coronary Plaque Assessment
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Released:
June 01, 2023
•Expires:
June 30, 2026
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Dinesh Kalra, MD, FACC, FSCCT, FSCMR, FNLA
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This CME and CE accredited program aims to provide a comprehensive overview of new artificial intelligence applications supporting cardiac CT. Through clinical case study reviews, Dr. Dinesh Kalra will share his clinical knowledge and insights into cardiovascular imaging and provide examples of super-resolution, deep-learning reconstructive technologies that are improving cardiac CT image quality and the overall diagnostic confidence in cardiovascular case interpretations.
Dr. Kalra stated, “I'm able to better see the same segments that were difficult to see with older generation scanners. The image sharpness, the resolution, and the low-contrast detection rates have all improved and there's no trade-off, so one doesn’t sacrifice resolution for radiation dose. This allows us to deliver less radiation, see less noise, while obtaining superb image quality.” Following the presentation questions from the audience were addressed in a moderated Q&A session.
Educational Objectives:
At the completion of this activity, participants should be able to:
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Describe the various reconstruction techniques and their clinical utility in coronary CT.
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Incorporate advanced AI processing solutions that achieve higher resolutions into cardiac CT imaging protocols in order to improve clinical outcomes.
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Increase diagnostic confidence in the interpretation of stenosis and plaque characterization.
This program has been sponsored by Canon Medical Systems, USA
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* Advanced MRI Safety Training For Healthcare Professionals (4th Edition): Level 2 MR Personnel
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Released:
April 22, 2020
•Expires:
March 31, 2024
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CE credits:
3.0
• Cost:
$50.00
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Faculty:
Frank G. Shellock, PhD, FACC, FACR, FACSM
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This program reviews fundamental MRI safety information and meets the annual training recommendations from the American College of Radiology. Importantly, MRI facilities must now comply with the revised requirements for diagnostic imaging from The Joint Commission and document that MRI technologists participate in ongoing education that includes annual training on safe MRI practices in the MRI environment. Notably, Advanced MRI Safety Training for Healthcare Professionals, Level 2 MR Personnel covers each MRI safety topic specified by The Joint Commission, as well as many additional subjects that will expand the knowledge-base of healthcare professionals involved with MRI technology.
With 35 years of experience in the field of MRI, the author of the best-selling textbook series, the Reference Manual for Magnetic Resonance Safety, Implants and Devices, and the creator of the internationally popular website, MRIsafety.com, Dr. Frank G. Shellock is uniquely qualified to present the information in this program.
Advanced MRI Safety Training for Healthcare Professionals (4th Edition), Level 2 MR Personnel is a 2 hour and 45 minute program that is divided into three different sections.
Educational Objectives
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Understand the safety issues related to MRI.
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Describe the bioeffects associated with the static magnetic field, time-varying magnetic fields, and radiofrequency fields.
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Present guidelines that prevent projectile-related accidents.
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Describe polices that avoid issues related to acoustic noise.
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Review procedures that prevent burns associated with MRI.
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Explain and demonstrate appropriate pre-MRI screening procedures.
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Identify techniques to manage patients with claustrophobia, anxiety, or emotional distress.
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Describe guidelines to handle medical emergencies in the MRI setting.
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Understand the safety considerations for gadolinium-based contrast agents.
This is a Pay-To-View program. Purchase is required for full program access.
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* Basic MRI Safety Training (4th Edition): Level 1 MR Personnel
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Released:
May 03, 2023
•Expires:
May 31, 2026
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CE credits:
1.0
• Cost:
$30.00
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Faculty:
Frank G. Shellock, PhD, FACC, FACR, FACSM
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Individuals entering the magnetic resonance imaging (MRI) environment, whether on a regular or infrequent basis, must be properly trained to ensure their safety, the protection of patients, and the security of other facility staff members. This program, Basic MRI Safety Training, Level 1 MR Personnel accomplishes the initial training that is necessary to ensure safety in the unique setting associated with the MRI system. It includes information pertaining to MRI technology, describes common hazards and unique dangers associated with the MRI setting, and presents vital recommendations and guidelines to prevent accidents and injuries. Importantly, this program provides the fundamental MRI safety information for Level I MR Personnel recommended by the American College of Radiology and may be utilized by individuals preparing for safety training as Level 2 MR Personnel.
With more than 35 years of experience in the field of MRI, the author of the best-selling textbook series, the Reference Manual for Magnetic Resonance Safety, Implants and Devices, and the creator of the internationally popular website, www.MRIsafety.com, Dr. Frank G. Shellock is uniquely qualified to present the information in this program.
Educational Objectives
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Appreciate the importance of MRI
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Identify the hazards associated with MRI
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Understand the screening process
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Describe steps to prevent accidents and injuries
This is a Pay-To-View program. Purchase is required for full program access.
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A Practical Approach to MR Imaging: Stability or High Relaxivity?
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Released:
June 22, 2022
•Expires:
June 30, 2024
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Howard Rowley
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In this CME/CE accredited program Dr. Howard Rowley reviews important efficacy considerations of the FDA approved gadolinium-based contrast agents (GBCAs), including clinical utility, safety issues, and practical approaches for selecting a GBCA when considering patient history, pathology and related risks.
Following Dr. Rowley's presentation, Dr. Rowley joins a panel of MR imaging experts in discussion about this important topic, followed by a moderated Q & A session with audience participation.
Educational Objectives:
At the completion of this activity, participants should be able to:
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List the key considerations in the choice of GBCAs, while balancing safety and efficacy.
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Describe the transient effects of T1 and T2 relaxation during a GBCA bolus.
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Understand the impact of high relaxivity gadolinium agents vs macrocyclic agents.
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Design MRI protocols to optimize exam efficiency and enhanced lesion detection.
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Implement GBCA protocols for special patient populations after considering risk assessment.
This program is made possible through an unrestricted educational grant from Bracco Diagnostics, Inc.
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A Proposed Way Forward From the Prior Authorization Crisis in Radiation Oncology
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Released:
March 01, 2022
•Expires:
February 29, 2024
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Applied Radiology
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Praveen Pendyala, MD; Alexander G. Goglia, MD, PhD; Ronald D. Ennis, MD
The authors review the rationale behind the establishment of prior authorization (PA) by health care payers, discuss issues with the current system with a focus on radiation oncology, and propose multiple changes that could improve the system for clinicians, payers, and patients.
Available for SA-CME Credit. To receive SA–CME credit, you must complete the post exam and review the discussion and references provided with the exam results.
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Abdominal and Pelvic Imaging of Transgender Patients
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Released:
July 01, 2022
•Expires:
June 30, 2024
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Applied Radiology
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Elainea N Smith, MD; Mohammad Ghosheh, MBBS; Kristin K Porter, MD, PhD
The abdominal radiologist plays an important role in providing care for transgender and gender-diverse patients, regardless of whether these patients choose to pursue gender-affirming hormone therapy or surgery. Radiologists must be aware of the various treatment options and associated anatomic and pathologic changes in transgender patients to ensure accurate imaging interpretation. This activity is designed to educate radiologists about caring for transgender patients by reviewing relevant imaging findings of hormonal therapies, nonoperative procedures, and gender-affirming surgeries with a focus on abdominal and pelvic imaging. Creating an inclusive environment for transgender patients is also discussed.
Available for SA-CME Credit. To receive SA–CME credit, you must complete the post exam and review the discussion and references provided with the exam results.
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Breaking Barriers: The Past, Present and Future of Focused Ultrasound and Diffuse Intrinsic Pontine Glioma
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Released:
December 01, 2022
•Expires:
November 30, 2024
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Applied Radiology
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Zachary K. Englander, MD, MS; Christopher Troy, MD; Masih Tazhibi, BA; Nina Yoh, MD; Hong-Jian Wei, PhD; Neil Feldstein, MD; Elisa Konofagou, PhD; Luca Szalontay, MD; Cheng-Chia Wu, MD, PhD,
The blood-brain barrier (BBB) remains a significant blockade for effective drug delivery in treating diffuse intrinsic pontine glioma (DIPG). Low-frequency focused ultrasound (FUS) therapy in conjunction with intravenous microbubbles can transiently disrupt the BBB in a localized manner to facilitate drug delivery. This review examines recent preclinical studies evaluating the safety and feasibility of FUS-mediated BBB opening in the brainstem. The authors also discuss the published phase 0-2 clinical trials of low-frequency FUS therapy in the adult glioma population, and phase 1 clinical trials in DIPG that are underway.
Available for SA-CME Credit. To receive SA–CME credit, you must complete the post exam and review the discussion and references provided with the exam results.
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Imaging Upper Extremity Injuries in Pediatric Athletes
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Released:
March 01, 2022
•Expires:
February 29, 2024
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Applied Radiology
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Jonathan R Wood, MD; Ghazal Shadmani, MD; Marilyn J Siegel, MD
Pediatric upper-extremity sports injuries are common. However, the diagnosis can be challenging for radiologists who have limited experience in imaging children. Increased awareness of the imaging findings is critical in establishing the correct diagnosis and ensuring optimal patient management and outcomes. This activity is designed to educate radiologists about the radiographic findings of common acute and chronic sports injuries of the upper extremities in the pediatric population. Mechanisms of injury are also reviewed, as they impact the type of fracture that occurs. Additionally, the role of magnetic resonance imaging in complementing plain radiography is discussed.
Available for SA-CME Credit. To receive SA–CME credit, you must complete the post exam and review the discussion and references provided with the exam results.
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Lung Ultrasound: A Practical Review for Radiologists
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Released:
May 01, 2023
•Expires:
April 30, 2024
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Applied Radiology
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Samuel J. Tate, MD; Jeffrey Lin, DO, MPH; John P. McGahan, MD
Lung ultrasound (LUS) has become a powerful bedside tool in diagnosing pathology, guiding procedures, and directing management. Knowledge and interpretation of artifactual patterns, true parenchymal structures, and signs unique to LUS will allow providers to utilize this modality in their care of patients. This activity is designed to educate radiologists about basic findings of lung ultrasound to help interpret images and refine differentials with this modality.
Available for SA-CME Credit. To receive SA–CME credit, you must complete the post exam and review the discussion and references provided with the exam results.
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Managing Patients with Passive Implants on Vertical Field MR Systems
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Released:
August 01, 2022
•Expires:
July 31, 2024
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Lawrence N. Tanenbuam, MD, FACR | Frank G. Shellock, PhD, FACC, FACR, FACSM | William Faulkner, B.S.,R.T.(R)(MR)(CT), FSMRT
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MRI technology has advanced with the availability of low - vertical field scanners. However, many patients present with passive implants and devices that are available in clinical practice, yet not approved for MR imaging in low field scanners.
In this CME program three MR imaging experts will provide unique perspectives on managing patients with passive implants and devices. The panel will discuss important MRI safety information and details on how to safely image these patients, including a review of screening policies, implant and device manufacturers’ information and resources, and the implementation plan for a MRI safety program, designed to mitigate the potential risks to patients presenting with passive implants and devices.
Learning Objectives
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Identify challenges associated with imaging patients with passive implants on low field (<1.5-T) MR systems.
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Review MRI considerations in order to safely manage patients that present with passive implants referred for scans on low field MR systems.
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Implement protocols to safely scan patients presenting with passive implants that are not labeled for low field scanners, including 1.2-T MR systems.
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Increase the number of patients eligible for MRI exams.
This program is made possible through an unrestricted educational grant from FUJIFILM Healthcare Americas Corporation.
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MR Contrast Selection & Utilization in Pediatric & Neonatal Patients
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Released:
November 22, 2021
•Expires:
November 30, 2023
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Chetan C. Shah, MD, MBA
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In MR Imaging, a careful review of the safety criteria for the selection of a Gadolinium-based Contrast Agents (GBCAs) should be considered for pediatric and neonatal patients. The program will provide a comprehensive review of the supporting research that addresses Gadolinium selection in this special patient population. Both chronic and long-term effects of GBCAs will be discussed.
As a Pediatric Neuroradiologist, Dr. Shah is uniquely qualified to share his experience which includes a discussion of risk vs benefits, supported by practical protocols for the administration of MR contrast; including limiting the amount of contrast given to patients that may receive several lifetime doses. Following the presentation, the audience is invited to join Dr. Shah for an interactive Q & A session.
Educational Objectives:
At the completion of this activity, participants should be able to:
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Explain the differences between available MR contrast agents and any associated adverse events
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Improve clinical management decisions about when to administer MR contrast (risk vs benefit)
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Apply FDA guidelines regarding MRI contrast agents to clinical practice.
Made possible through an unrestricted educational grant from Bracco Diagnostics, Inc.
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MRI Safety Considerations for Implants and Devices
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Released:
February 01, 2023
•Expires:
February 28, 2026
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CE credits:
1.5
• Cost:
$30.00
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Faculty:
Frank G. Shellock, PhD, FACC, FACR, FACSM
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This accredited program provides a comprehensive overview of MRI safety considerations for passive / active implants, and devices.
When considering patient safety during MR imaging, it is critical to assess the patient’s history and have a clear understanding of any passive and or active implants and/or devices. The ACR Manual on MR Safety states that the Radiologist is responsible for the safety of the patient undergoing the MRI Exam. They are also responsible for implementing MR Safety policies and procedures and ensuring that the facilities’ personnel adhere to them at all time. Regarding implants and devices, regular reviews and updates to the MRI safety policy should be completed.
With more than 35 years of experience in the field of MRI, the author of the best-selling textbook series, the Reference Manual for Magnetic Resonance Safety, Implants and Devices, and the creator of the internationally popular website, www.MRIsafety.com, Dr. Frank G. Shellock is uniquely qualified to present this important MRI Safety information designed for MRI Imaging professionals.
Educational Objectives
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Name and describe the current labeling terminology for implants & devices.
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Safely image patients with passive and active, MR Conditional implants and devices.
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Establish a comprehensive MRI Safety protocol for imaging implants & devices.
Program support provided by Bracco Diagnostics, Inc.
This is a Pay-To-View program. Purchase is required for full program access.
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MRI Safety Considerations For The Radiologist
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Released:
February 16, 2023
•Expires:
February 28, 2026
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CE credits:
1.5
• Cost:
$30.00
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Faculty:
William Faulkner, B.S.,R.T.(R)(MR)(CT), FSMRT | Kristan Harrington, MBA, R.T.(R)(MR), ARRT, MRSO
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This accredited program provides a comprehensive overview of MRI safety including the radiologist's responsibilities and liabilities, MRI staff education and patient safety. It is designed specifically for practicing radiologists, fellows, residents, and healthcare professionals who oversee MRI services and will provide practical guidance from two respected MRI safety educators who present information on accepted safety standards of care based on the 2020 ACR Manual on MR Safety, the 2021 FDA Guidance Document, and a review of the literature.
Program Considerations: It is critical to have established MRI safety protocols and to have a clear understanding of the basics of MRI Safety. The ACR Manual on MR Safety states that the Radiologist is responsible for the safety of the patient undergoing the MRI Exam. They are also responsible for implementing MR Safety policies and procedures and ensuring that the facilities’ personnel adhere to them at all time. These MRI safety policies should be reviewed and updated annually in order to prevent patient injury.
Educational Objectives
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Describe the difference between Level 1 & Level 2 MR personnel.
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Differentiate and identify the ACR-designated Safety Zones.
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Implement safety considerations for the static magnetic field, time-varying gradient magnetic fields, and radiofrequency fields.
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Employ procedures and protocols to prevent RF-related burns and methods to manage SAR levels.
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Manage acute and chronic gadolinium-based contrast agent adverse events.
Program support provided by Bracco Diagnostics, Inc.
This is a Pay-To-View program. Purchase is required for full program access.
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Multimodality Evaluation of Fetal Congenital Diaphragmatic Hernia and its Mimics
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Released:
November 01, 2022
•Expires:
October 31, 2024
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Applied Radiology
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Ana Mitchell, MD; Simran Sekhon, MD; Kriti Gwal, MD; John McGahan, MD
A variety of intrathoracic masses may present in the fetus and present as a mimic to congenital diaphragmatic hernia. Knowledge of their locations, ultrasound characteristics, and MRI findings helps limiting the differential diagnosis and guiding treatment. Jointly provided by IAME and Anderson Publishing Inc., this activity is designed to educate radiologists about fetal intrathoracic masses and distinguishing imaging features that will help in guiding management. Knowledge of the ultrasound and MRI features of these masses will help in differentiate these masses from congenital diaphragmatic hernia. Once this diagnosis can be made ultrasound and MRI may also be used to predict residual pulmonary tissue and other findings, such as liver herniating into the thorax, which will help guide fetal and neonatal therapy.
Available for SA-CME Credit. To receive SA–CME credit, you must complete the post exam and review the discussion and references provided with the exam results.
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Practical Applications of the Internet of Things in Radiation Oncology
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Released:
September 01, 2022
•Expires:
August 31, 2024
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Applied Radiology
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Nikhil G. Thaker, MD, MHA, MBA; Brian De, MD; Chirag Shah, MD; Sudhir Manda, MD; Trevor J. Royce, MD, MS, MPH; Sushil Beriwal, MD, MBA
As health care systems transform from traditional care delivery models to digital health models, IoT will enable integration of electronic health records and nonhealth care data with therapeutic augmented reality, wearable technologies, smart voice assistants, digital medicines, robots with artificial intelligence capabilities, continuous and Bluetooth-enabled monitors, and smart cameras. This review discusses the digital transformation of health care systems, IoT technology in cancer care, its practical applications in radiation oncology, and ongoing opportunities and challenges.
Available for SA-CME Credit. To receive SA–CME credit, you must complete the post exam and review the discussion and references provided with the exam results.
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Trauma Imaging in Pregnancy: A Review of the Evolving Appearance of the Placenta on CT and Mimics of Placental Injury
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Released:
May 01, 2022
•Expires:
April 30, 2024
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CE credits:
1.0
• Cost:
$0.00
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Faculty:
Applied Radiology
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Kaitlin M Zaki-Metias, MD; Mehrvaan Kaur, MD; Huijuan Wang, MD; Bilal Turfe; Nicholas Mills, MD; Yanruo Lu, MD; Bashir H Hakim, MD; Leslie S Allen, MD
Pregnant patients infrequently undergo CT given the risk of radiation to the developing fetus. As such, when CT is performed on pregnant patients in emergent situations, radiologists may be unfamiliar with the appearance of the placenta on CT and its normal evolution throughout gestation. This activity is designed to educate radiologists about the normal appearance of the placenta on CT and its evolution throughout pregnancy, as well as differentiation of these findings from placental abruption.
Available for SA-CME Credit. To receive SA–CME credit, you must complete the post exam and review the discussion and references provided with the exam results.
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