# Flexible and Comprehensive Patient-Specific Mitral Valve Silicone Models   with Chordae Tendinae Made From 3D-Printable Molds

**Authors:** Sandy Engelhardt, Simon Sauerzapf, Bernhard Preim, Matthias Karck, Ivo, Wolf, Raffaele De Simone

arXiv: 1904.03704 · 2019-04-09

## TL;DR

This paper presents a novel, fully customizable, patient-specific mitral valve silicone model with chordae tendineae, created using 3D-printed molds from ultrasound data, to enhance surgical training and realism.

## Contribution

It introduces a comprehensive workflow for producing realistic, patient-specific mitral valve models with full anatomy, including chordae tendineae, using 3D printing and silicone casting.

## Key findings

- Models are highly anatomically accurate and realistic.
- Production time around 36 hours per valve.
- Surgeons rated the models' realism very positively.

## Abstract

Given the multitude of challenges surgeons face during mitral valve repair surgery, they should have a high confidence in handling of instruments and in the application of surgical techniques before they enter the operating room. Unfortunately, opportunities for surgical training of minimally-invasive repair are very limited, leading to a situation where most surgeons undergo a steep learning curve while operating the first patients. In order to provide a realistic tool for surgical training, a commercial simulator was augmented by flexible patient-specific mitral valve replica. In an elaborated production pipeline, finalized after many optimization cycles, models were segmented from 3D ultrasound and then 3D-printable molds were computed automatically and printed in rigid material, the lower part being water-soluble. After silicone injection, the silicone model was dissolved from the mold and anchored in the simulator. To our knowledge, our models are the first to comprise the full mitral valve apparatus, i.e. the annulus, leaflets, chordae tendineae and papillary muscles. Nine different valve molds were automatically created according to the proposed workflow (seven prolapsed valves and two valves with functional mitral insufficiency). From these mold geometries, 16 replica were manufactured. A material test revealed that Ecoflex\textsuperscript{TM} 00-30 is the most suitable material for leaflet-mimicking tissue out of seven mixtures. Production time was around 36h per valve. Twelve surgeons performed various surgical techniques, e.g. annuloplasty, neo-chordae implantation, triangular leaflet resection and assessed the realism of the valves very positively. The standardized production process guarantees a high anatomical recapitulation of the silicone valves to the segmented models and the ultrasound data...

## Full text

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## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/1904.03704/full.md

## References

18 references — full list in the complete paper: https://tomesphere.com/paper/1904.03704/full.md

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Source: https://tomesphere.com/paper/1904.03704