Register What you will learn Course description: This one-day course is designed to provide cardiologists and sonographers with the fundamental skills required to analyze high-quality 2D images for myocardial performance. This course will be taught by Jeffrey C. Hill, BS, RDCS, FASE and is the first Philips course solely dedicated to the assessment of myocardial mechanics and strain imaging by speckle tracking echocardiography (STE). The course includes both basic and advanced teaching of myocardial function and is designed for physicians and sonographers that are interested in improving their skills in the interpretation of strain imaging. Attendees will begin the program by learning the basics of myocardial function including how to interpret normal and abnormal strain waveforms. The program will extend to lectures and live demonstrations including technical tips and emphasis on the caveats, pearls and pitfalls of the application. Several basic and challenging case examples that would be encountered in routine, clinical practice will also be presented. In addition, the attendees will develop a stepwise approach to acquisition and interpretation of strain imaging. Prerequisite skills: Attendees should have basic knowledge of 2D echocardiography for the assessment of regional and global function. An understanding of the basics of strain imaging is desirable. Currency: USDCourse objectives: Upon successful completion of this program, attendees should be able to: Describe the basics of myocardial fiber architecture Explain the basic concepts of speckle tracking echocardiography (STE) Demonstrate CMQ for the assessment of STE Interpret normal and abnormal STE waveforms Develop a stepwise approach to acquiring, analyzing and reporting STE Course details Course Code: CV350Delivery method: Instructor-led Language: English Duration: 1 Day Course instructor(s) : Jeffrey C. Hill, BS, RDCS, FASEPhilips InstructorCourse disclaimer: The content is for information and education only. The content is not intended to provide medical advice, diagnosis, or treatment. Please see the full terms of use for this content and this website. Course tabs Schedule/Registration June 12, 2025 8:00 am - June 12, 2025 5:00 pm PDT Las Vegas, NV- 25673Caesars Palace RegisterContact us for more information Accreditation Accredited: Accredited American Society of Radiologic Technologists Category A (ASRT) Credit hours: 9.00 hours American Society of Radiologic Technologists Category A (ASRT) (Webcast) Credit hours: 9.00 hours Accreditation notice: We have a wide variety of courses to accommodate your education needs, from core ultrasound courses to high level peer-to-peer courses. Many of our courses are approved for CEU credit by the ASRT, which have been accepted by ARDMS and ICAEL, ICAVL. However it is the responsibility of the REGISTRANT to assure the ASRT credits are acceptable for his or her purposes. This activity may be available in multiple formats or from different sponsors. ARRT regulations state that an individual may not repeat a lecture presentation for credit if it was reported in the same biennium. The education programs provided by Philips are NOT eligible for AMA Category 1 CME credits through Philips. The AMA Standards for Commercial Support clearly prohibit any commercial interest from control of CME activities. Limitations consist of (a) Identification of CME needs; (b) Determination of educational objectives; (c) Selection and presentation of content; (d) Selection of all persons and organizations that will be in a position to control the content of the CME; (e) Selection of educational methods; (f) Evaluation of the activity. Audience Audience statement: This course is for physicians and sonographers interested in the assessment of myocardial mechanics. Course level: AdvancedPrerequisite skills: Attendees should have basic knowledge of 2D echocardiography for the assessment of regional and global function. An understanding of the basics of strain imaging is desirable. Brochures/Travel Policy Understanding Myocardial Mechanics View Information Understanding Myocardial Mechanics I Remote Access View Information Travel Policy Travel Policy
