Design for Mass Adaptation of the Neurointerventional Training Model HANNES with Patient-Specific Aneurysm Models-Reference-Cited by-同舟云学术

Design for Mass Adaptation of the Neurointerventional Training Model HANNES with Patient-Specific Aneurysm Models

Published:2019-07 Issue:1 Volume:1 Page:897-906
ISSN:2220-4342
Container-title:Proceedings of the Design Society: International Conference on Engineering Design
language:en
Short-container-title:Proc. Int. Conf. Eng. Des.

Author:

Spallek Johanna,Kuhl Juliane,Wortmann Nadine,Buhk Jan-Hendrik,Frölich Andreas Maximilian,Nawka Marie Teresa,Kyselyova Anna,Fiehler Jens,Krause Dieter

Abstract

AbstractA neurointerventional training model called HANNES (Hamburg ANatomical NEurointerventional Simulator) has been developed to replace animal models in catheter-based aneurysm treatment training. A methodical approach to design for mass adaptation is applied so that patient-specific aneurysm models can be designed recurrently based on real patient data to be integrated into the training system.HANNES’ modular product structure designed for mass adaptation consists of predefined and individualized modules that can be combined for various training scenarios. Additively manufactured, individualized aneurysm models enable high reproducibility of real patient anatomies. Due to the implementation of a standardized individualization process, order-related adaptation can be realized for each new patient anatomy with modest effort. The paper proves how the application of design for mass adaptation leads to a well-designed modular product structure of the neurointerventional training model HANNES, which supports quality treatment and provides an animal-free and patient-specific training environment.

Publisher

Cambridge University Press (CUP)

Subject

General Medicine

Reference23 articles.

1. Challenges and limitations of patient-specific vascular phantom fabrication using 3D Polyjet printing;Ionita;SPIE--the International Society for Optical Engineering,2014

2. Simbionix USA Corporation (2017), ANGIO Mentor. The Most Advanced Endovascular Training, URL: http://simbionix.com/simulators/angio-mentor/, accessed date 29.11.2018

3. Schmidt P. (2018), “Konzeptentwicklung einer röntgenfreien trainingsumgebung für aneurysmabehandlungen”, Master Thesis at the Institute of Product Development and Mechanical Engineering Design, Hamburg University of Technology

4. Mass customization in terms of the customer order decoupling point

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