ON-DEMAND WEBINAR
Discover the Mimics Enlight TMVR Planner
Joni Ceusters, Michael Forbes, and Clare Otto
Transcatheter mitral valve replacement is a promising therapy requiring detailed pre-procedural planning to ensure a successful outcome. 3D models derived from CT scans form the basis for 3D planning which enables clinicians to gain enhanced insights into patient anatomy and leverage consistent critical measurements in pre-procedural plans.
To aid in optimizing your processes, our Materialise technical consultants demonstrate a TMVR case planning and screening using Mimics Enlight in this recording.
In this recording, you will learn
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How 3D planning benefits TMVR case screening and planning
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How to screen and plan TMVR cases using 3D planning in the Mimics Enlight planner software
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How Mimics Enlight can support beyond case planning with online case sharing and 3D printing
About speakers
Joni Ceusters,
Cardiovascular Technical Consultant for Materialise Mimics Enlight
Joni Ceusters serves as a Cardiovascular Technical Consultant for Materialise Mimics Enlight focused on pre-procedural 3D planning for structural heart interventions. Joni conducted his master’s thesis about the design of mechanical aortic valves and developed a passion for the cardiovascular and biomedical field.
Joni joined Materialise as a Clinical Engineer for CMF procedures, but found his way into the cardiac department shortly after. He’s responsible for the European market and works closely together with different large centers such as Erasmus MC with Dr. Nicolas Van Mieghem to push the field of interventional cardiology forward.
Michael Forbes,
Cardiovascular Technical Consultant for Materialise Mimics Enlight
Michael Forbes serves as a Cardiovascular Technical Consultant for Materialise Mimics Enlight focused on pre-procedural planning for transcatheter device delivery using 3D analysis and additive manufacturing. Throughout his career, Michael has had the opportunity to apply his background in Product Design across a broad range of industries including consumer products, medical, sporting goods, toys, vehicles and more.
Some of his most notable work in healthcare came from his time with Henry Ford Health System Innovations as a Product Designer and Licensing Associate where he contributed to research, design, development, and successful licensing of various novel medical devices including structural heart planning methods developed in collaboration Dr. Dee Dee Wang and the Henry Ford Hospital Structural Heart Team.
Clare Otto, M.S.E.,
Technical Consultant, Materialise
Clare Otto is a technical consultant at Materialise specializing in 3D anatomical analysis and modeling for cardiac interventions. She is passionate about improving patient care through the advancement of pre-procedural CT planning, utilizing 3D technology to produce more accurate, consistent, and efficient visualization and measurements.
Over the past five years, she has helped to implement personalized patient-planning programs in several major medical device companies and supported the design of hundreds of patient-specific 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.