The JIM / Simple Partnership:

In February 2017, Simple Education and JIM entered a unique partnership where all JIM live cases are hosted on the Simple Education platform, we are pleased to introduce you to this world class content and this innovative medical education platform that is truly a leap forwards in how medical education is delivered.

JIM 2017:

The JIM (Joint Interventional Meeting) 2017 event took place in Milan in Italy from the 9th to the 11th of February.

The conference covered areas like Innovation on Interventional Cardiology and to approach New Techniques.

JIM’s partnership with Simple Education means that we are pleased to be able to offer you access to all the live cases discussed at the JIM 2017 conference.

For a full list of the content hosted here with Simple, please see below:

 

Simple Education:

Simple Education is an online e-learning medical education platform that enables healthcare professionals from across the globe to engage with world class medical education, delivered by leading names in the cardiology world.

Simple Education enables users to purchase individual 'components', typically for £2.99, or whole streams or 'moments', typically for £12.99. This means HCPs can access world class content in their own time, at their office / home and engage with precisely the content they are interested in.

The unique Simple Education algorithm learns and adapts to user behaviour, which means that based on the content a HCP has already engaged with other relevant content will be suggested.

Please find links to all JIM 2017 content below:

Case 1 - TAVI/TAVR in Heavily Calcified Bicuspid Aortic Valve Disease:

 

Part 1: Case Background and Pre-Procedural Planning: https://simpleeducation.co/moments/678/components/3625  

Part 2: Valve Choice and Sizing Considerations - Operator and Panel Discussion: https://simpleeducation.co/moments/678/components/3626

Part 3: Balloon Sizing - Operator and Panel Discussion: https://simpleeducation.co/moments/678/components/3627

Part 4: 23mm Lotus Valve Deployment (and Recapture): https://simpleeducation.co/moments/678/components/3628

Part 5: Second 23mm Lotus Valve Deployment (with TOE Assessment): https://simpleeducation.co/moments/678/components/3629

Part 6: 25mm Lotus Valve Deployment with Repositioning and Concluding Remarks: https://simpleeducation.co/moments/678/components/3630

 

Case 2 - IVUS Guided Multi-Vessel PCI with Rotational Atherectomy:

 

Part 1: Case Background and Pre-Procedural Planning: https://simpleeducation.co/moments/679/components/3631

Part 2: Pre-PCI IVUS Assessment:

https://simpleeducation.co/moments/679/components/3632

Part 3: Discussion Regarding Lesion Preparation with Rotational Atherectomy: https://simpleeducation.co/moments/679/components/3633

Part 4: Rotational Atherectomy and PCI to LAD (with No Reflow Phenomenon): https://simpleeducation.co/moments/679/components/3634

Part 5: Rotational Atherectomy to LCx with Follow on PCI to LMS: https://simpleeducation.co/moments/679/components/3635

Part 6: Concluding Remarks:

https://simpleeducation.co/moments/679/components/3636

 

Case 3 - Transcutaneous Valve in Mitral Ring Prosthesis for Severe Mitral Regurgitation:

 

Part 1: Case Background and Pre-Procedural Planning: https://simpleeducation.co/moments/680/components/3637

Part 2: Valve Selection and Trans-Septal Puncture Technique: https://simpleeducation.co/moments/680/components/3638

Part 3: Valve in Ring Deployment:

https://simpleeducation.co/moments/680/components/3669

Part 4: Valve in Ring Post-Dilatation and Concluding Remarks: https://simpleeducation.co/moments/680/components/3639

 

Case 4 - IVUS Guided Multi-Vessel PCI with Bifurcation Stenting:

 

Part 1: Case Background and Pre-Procedural Planning: https://simpleeducation.co/moments/681/components/3642

Part 2: Extensive Lesion Preparation of RCA (with Operator and Panel Discussion): https://simpleeducation.co/moments/681/components/3643

Part 3: Continued Extensive Lesion Preparation of RCA and Pre-PCI IVUS of RCA: https://simpleeducation.co/moments/681/components/3644

Part 4: PCI to PDA with Non-Polymer Drug Eluting Stent with Closed Cell Design: https://simpleeducation.co/moments/681/components/3645

Part 5: PDA, PLAx Bifurcation Stenting with Kissing Balloon Inflation: https://simpleeducation.co/moments/681/components/3646

Part 6: Long Lesion Metallic DES Stenting to RCA:

https://simpleeducation.co/moments/681/components/3647

 

Case 5 - LAD/D1 Bifurcation Stenting with IVUS Optimisation:

 

Part 1: Case Background and Pre-Procedural Planning: https://simpleeducation.co/moments/682/components/3648

Part 2: PCI Strategy Planning - Panel Discussion:

https://simpleeducation.co/moments/682/components/3649

Part 3: PCI to LAD:

https://simpleeducation.co/moments/682/components/3650

Part 4: PCI to Diagonal Branch (DK Crush Technique): https://simpleeducation.co/moments/682/components/3651

Part 5: LAD/D1 Bifurcation Optimisation:

https://simpleeducation.co/moments/682/components/3652

Part 6: IVUS to LAD and DEB to Distal LAD:

https://simpleeducation.co/moments/682/components/3653

 

Case 6 - Hybrid Strategy Approach to RCA CTO:

 

Part 1: Case Background and Pre-Procedural Planning: https://simpleeducation.co/moments/683/components/3654

Part 2: Initial Antegrade Approach to RCA CTO, with Retrograde Approach to Distal Cap: https://simpleeducation.co/moments/683/components/3655

Part 3: Reverse CART to RCA CTO with Externalisation of Wire: https://simpleeducation.co/moments/683/components/3656

Part 4: PCI to (Recanalized) RCA:

https://simpleeducation.co/moments/683/components/3657