Webinar
Leveraging 3D CT to Improve Patient Screening and Planning for Structural Heart Interventions
About this webinar
For 3D planning, CT images are converted into accurate 3D models of the patient’s heart and surrounding structures. Being able to zoom in, rotate, and measure directly on the patient’s virtual heart can give you a better understanding of the patient pathology, more realistic exploration of potential device-anatomy interaction, and deeper insights into how best to deliver a transcatheter implant.
In this webinar, Prof. Modine and Dr. von Bardeleben share how 3D planning in Mimics Enlight has enhanced their patient planning and increased their confidence going into the cath lab for both TMVR and LAAO procedures.
What you will learn
- Analyze multiple time points in the cardiac cycle faster and easier
- More intuitively quantify the degree of mitral annular calcification
- Achieve more consistent critical measurements like neo-LVOT
- Automatically define the mitral annulus using an AI-enabled algorithm and edit in improved 3D and image views
- Plan for trans-septal or trans-apical delivery with deeper insight into surrounding anatomy and enhanced visualization of potential fossa ovalis puncture locations
- How the newest version of Materialise Mimics Enlight takes 3D planning to the next level with workflow automation and artificial intelligence
Speakers
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Thomas Modine, MD, PhD, MBA
University Hospital Center (CHU) of Bordeaux, France
Prof. Thomas Modine is a cardiovascular surgeon in the Heart Valve Unit of the University Hospital Center (CHU) in Bordeaux. He has acquired a PhD and MBA and is experienced in TAVI, TMVR, minimally invasive surgery, and valve-sparing techniques. Prof. Modine is interested in aortic valve complex, bioengineering, beating heart surgery, hybrid approaches, TAVI, and TMVR.
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Thomas Modine, MD, PhD, MBA
University Hospital Center (CHU) of Bordeaux, France
Prof. Thomas Modine is a cardiovascular surgeon in the Heart Valve Unit of the University Hospital Center (CHU) in Bordeaux. He has acquired a PhD and MBA and is experienced in TAVI, TMVR, minimally invasive surgery, and valve-sparing techniques. Prof. Modine is interested in aortic valve complex, bioengineering, beating heart surgery, hybrid approaches, TAVI, and TMVR.
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Ralph Stephan von Bardeleben, MD
University Medical Center, Mainz, Germany
Dr. Ralph Stephan von Bardeleben is the Head of the Center of Structural Heart Disease Interventions and the Heart Valve Center in Mainz, Germany. Following the completion of his medical education at the University of Mainz and the University of California in San Francisco, US, Dr. von Bardeleben trained as both an imager and interventional cardiologist. Since 2004 he has served as Head of the CV imaging department. Dr. von Bardeleben's department has played key roles in a number of early 'in-man' implantations and other international trials.
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Ralph Stephan von Bardeleben, MD
University Medical Center, Mainz, Germany
Dr. Ralph Stephan von Bardeleben is the Head of the Center of Structural Heart Disease Interventions and the Heart Valve Center in Mainz, Germany. Following the completion of his medical education at the University of Mainz and the University of California in San Francisco, US, Dr. von Bardeleben trained as both an imager and interventional cardiologist. Since 2004 he has served as Head of the CV imaging department. Dr. von Bardeleben's department has played key roles in a number of early 'in-man' implantations and other international trials.
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Clare Otto, M.S.E.
Technical Consultant, Materialise
Clare Otto specializes in 3D anatomical analysis and modeling for cardiac interventions. She is passionate about improving patient care through the advancement of pre-procedural planning and utilizing 3D technology to produce more accurate, consistent, and efficient visualization and measurements. Over the past several years, she has helped to implement personalized patient-planning programs in several major medical device companies and supported the design of hundreds of personalized models for research and clinical use. She holds B.S.E. and M.S.E. degrees in Biomedical Engineering from the University of Michigan and has previous research experience in the fields of tissue engineering and medical device design.
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Clare Otto, M.S.E.
Technical Consultant, Materialise
Clare Otto specializes in 3D anatomical analysis and modeling for cardiac interventions. She is passionate about improving patient care through the advancement of pre-procedural planning and utilizing 3D technology to produce more accurate, consistent, and efficient visualization and measurements. Over the past several years, she has helped to implement personalized patient-planning programs in several major medical device companies and supported the design of hundreds of personalized models for research and clinical use. She holds B.S.E. and M.S.E. degrees in Biomedical Engineering from the University of Michigan and has previous research experience in the fields of tissue engineering and medical device design.
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Materialise medical device software may not be available in all markets because product availability is subject to the regulatory and/ or medical practices in individual markets. In countries where no regulatory registration is obtained of Mimics and/or 3-matic Medical, a research version is available. Please contact your Materialise representative if you have questions about the availability of Materialise medical device software in your area. L-102520 This content is intended for Health Care Professionals only.