CAS SECTION 3 PASSPORT Section 3 activities are awarded to CPD activities that provide assessment of knowledge or performance. Each one hour provides 3 credits under the Approved self-assessment and simulation activities (Section 3) of the Royal College of Physicians and Surgeons of Canada. The following CAS Section 3 Passport is the Evidence of Completion and Feedback Sheet form intended to provide feedback and evidence of completion for claiming Section 3 credits from the Royal College. It is the participant s responsibility to report on the Royal College Mainport the number of hours spent in the activity. Instructions to participant The attached form is designed as a passport that itemizes the stations you will visit. For each station, assess yourself on your knowledge and skills using the / boxes and then ask faculty to confirm your assessment. Take a moment to itemize the competencies you believe you gained or reinforced, the areas in which you need improvement and the action you will take to address gaps in knowledge or skill. As a participant, you will receive specific feedback, suggestions and resources regarding areas for further development and related action plan. Your signature and that of the faculty member will serve as a passport stamp. Please complete and maintain the signed form as a participation record for submitting your application for Section 3 credits to the Royal College. June 19-22 Ottawa, ON
CAS SECTION 3 PASSPORT Evidence of completion and feedback sheet for Section 3 Workshop Identification Session # WKT 9 Title Three Dimensional Transesophageal Echocardiography Offline Analysis Date Monday, June 22, 2015 Duration 08:30-10:15 1:45 HR (105 mins) At the end of this session, participants will be able to: Maximize the potential of 3D ultrasound capabilities of the system they are currently General Objectives of the Workshop using. Manipulate 3D datasets to evaluate the structure and function of a variety of cardiac valves. Manipulate 3D datasets to evaluate the structure and function of the cardiac ventricles. Please select / to assess achievement of learning objectives Station 1 3D Analysis of Mitral Valve Prolapse Faculty A. Stephane Lambert, MD, FRCPC Participant Faculty - Describe the various mitral valve segments - Define the mitral valve prolapse/flail - Articulate the limitations of 2D identification of mitral valve segments Station 1 - Discuss the concept of vena contracta and effective regurgitant orifice area in determining the severity of mitral regurgitation. Be able to launch the Multi- Plane Reconstruction and align the mitral valve in three orthogonal planes Be able to demonstrate the various mitral segments and to clearly identify which segment is prolapsed in the example provided Be able to apply Multi-Plane Reconstruction to a colour-3d in order to measure the vena contracta by planimetry
Please select / to assess achievement of learning objectives Station 2 3D Analysis of the Aortic Valve Faculty Surita Sidhu, MD, FRCPC Participant Faculty Station 1 Station 2 - Describe the continuity equation and how it is used to calculate the aortic valve area by echocardiography - Describe the limitations of 2D planimetry in aortic stenosis and 2D calculations of LVOT surface area - Define the three-dimensional anatomy of the functional aortic valve annulus - Determine the limitations of 2D and the advantages of 3D echocardiography in imaging the aortic valve Be able to launch Multi-Plane Reconstruction / Flexi-Slice mode, and to align the aortic valve in three orthogonal planes Be able to estimate the aortic valve area by 3D planimetry Be able to measure the LVOT surface area by 3D planimetry Be able to identify the coaptation plane and measure coaptation length and effective height in all three planes of coaptation (simulating aortic valve repair)
Please select / to assess achievement of learning objectives Station 3 Station 3 3D Evaluation of Left Ventricular Function Faculty Jason Taam, MD, FRCPC Participant Faculty - Recognise the limitations of 2D echo in estimating LV ejection fraction - Recognise the advantages and limitations of 3D echo in estimating LV ejection fraction Be able to launch the LVEF measuring software, be able to align the LV and trace the endocardium for calculation of LVEF Be able to calculate and display the LVEF in the example provided
Please select / to assess achievement of learning objectives REFERENCES Additional information is available from the following sources WKT 9 Please maintain the signed form as a participation record for submitting your application for Section 3 credits to the Royal College