This advanced case based course guides learners through the complex landscape of breast MRI interpretation and multimodality biopsy decision making. Using real clinical scenarios, participants will explore strategies for identifying, characterizing, and correlating MRI detected breast findings—ranging from masses to non mass enhancement—across ultrasound, mammography, and MRI guided biopsy. The course emphasizes practical correlation techniques, pitfalls such as miscorrelation, and evidence based criteria for selecting appropriate biopsy methods. By the end, learners will strengthen their diagnostic confidence and enhance accuracy in managing challenging breast imaging cases in high risk and newly diagnosed cancer populations.
Content Areas (Codes): The following Content Areas will be printed on the certificate for this course:
- Breast (Imaging and Interventional)
Learning Objectives:
- Understand MRI and ultrasound correlation techniques for breast imaging.
- Identify appropriate follow-up and biopsy recommendations based on imaging findings.
- Recognize characteristics of benign, high-risk, and malignant breast lesions.
- Apply BI-RADS assessment principles to complex imaging scenarios.
- Interpret kinetic enhancement patterns and tissue characteristics on MRI.
This enduring material is estimated to take 20 minutes to complete.
Start Date: 1/29/2025
Online Expiration Date: 1/28/2029
Faculty:
- Steven Poplack M.D., FACR, FSBI
Price:
Non-Member Rate: $0.00
Member Rate: $0.00
Refund / Exchange Policy:
RSNA will not issue any refunds or exchanges for online only versions of educational products or activities purchased online. Please review the entire product or activity description prior to purchase.
RSNA Disclaimer:
The opinions or views expressed in this activity are those of the presenters and do not necessarily reflect the opinions, recommendations or endorsement of the RSNA. Participants should critically appraise the information presented and are encouraged to consult appropriate resources for information surrounding any product or device mentioned. Information presented, as well as publications, technologies, products and/or services discussed, are intended to inform the learner about the knowledge, techniques, and experiences of RSNA faculty who are willing to share such information with colleagues. The RSNA disclaims any and all liability for damages to any individual user for all claims which may result from the use of said information, publications, technologies, products and/or services, and events.