CT-Derived 3D Printing for Coronary Artery Cannulation Simulator Design Manufacturing

Mastering coronary angiography requires practice. Cadavers and animals do not accurately represent the human anatomical body, and practicing with actual patients has medical safety issues. Simulation offers safe and realistic conditions for cardiology intervention training. In this study, we propose...

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Autores principales: Etami, Helvina Vika, Rismawanti, Rochmi Isnaini, Hanifah, Vita Arfiana Nur, Herianto, Herianto, Yanuar, Yarabisa, Kuswanto, Djoko, Anggrahini, Dyah Wulan, Gharini, Putrika Prastuti Ratna
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9330152/
https://www.ncbi.nlm.nih.gov/pubmed/35892751
http://dx.doi.org/10.3390/bioengineering9080338
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author Etami, Helvina Vika
Rismawanti, Rochmi Isnaini
Hanifah, Vita Arfiana Nur
Herianto, Herianto
Yanuar, Yarabisa
Kuswanto, Djoko
Anggrahini, Dyah Wulan
Gharini, Putrika Prastuti Ratna
author_facet Etami, Helvina Vika
Rismawanti, Rochmi Isnaini
Hanifah, Vita Arfiana Nur
Herianto, Herianto
Yanuar, Yarabisa
Kuswanto, Djoko
Anggrahini, Dyah Wulan
Gharini, Putrika Prastuti Ratna
author_sort Etami, Helvina Vika
collection PubMed
description Mastering coronary angiography requires practice. Cadavers and animals do not accurately represent the human anatomical body, and practicing with actual patients has medical safety issues. Simulation offers safe and realistic conditions for cardiology intervention training. In this study, we propose a novel 3D printed simulator that contains physically realistic anatomy and has four access points. It increases safety for patients and students, and production is low-cost. We aimed to make and validate this simulator design as a prototype for coronary cannulation training. It was designed using computed tomography (CT) scan data of aorta, coronary, and heart models, and was printed by 3D printing with resin materials consisting of 75% or 85% clear resin and 25% or 15% flexible resin additive. The simulator was constructed with a camera above the simulator with a degree of LAO of 30°/0°, a display table, and an acrylic box. Twelve validators were interviewed for their expert opinions and analyzed by a qualitative method. They scored the simulator’s suitability on a four-point Likert scale questionnaire. They described the simulator as having admirable values for all aspects (85.8%), curriculum suitability (92%), educational importance (94%), accuracy (83%), efficiency (78%), safety (87.5%), endurance (81.2%), aesthetics (80.7%), storage (85.4%), and affordability (85.8%).
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spelling pubmed-93301522022-07-29 CT-Derived 3D Printing for Coronary Artery Cannulation Simulator Design Manufacturing Etami, Helvina Vika Rismawanti, Rochmi Isnaini Hanifah, Vita Arfiana Nur Herianto, Herianto Yanuar, Yarabisa Kuswanto, Djoko Anggrahini, Dyah Wulan Gharini, Putrika Prastuti Ratna Bioengineering (Basel) Article Mastering coronary angiography requires practice. Cadavers and animals do not accurately represent the human anatomical body, and practicing with actual patients has medical safety issues. Simulation offers safe and realistic conditions for cardiology intervention training. In this study, we propose a novel 3D printed simulator that contains physically realistic anatomy and has four access points. It increases safety for patients and students, and production is low-cost. We aimed to make and validate this simulator design as a prototype for coronary cannulation training. It was designed using computed tomography (CT) scan data of aorta, coronary, and heart models, and was printed by 3D printing with resin materials consisting of 75% or 85% clear resin and 25% or 15% flexible resin additive. The simulator was constructed with a camera above the simulator with a degree of LAO of 30°/0°, a display table, and an acrylic box. Twelve validators were interviewed for their expert opinions and analyzed by a qualitative method. They scored the simulator’s suitability on a four-point Likert scale questionnaire. They described the simulator as having admirable values for all aspects (85.8%), curriculum suitability (92%), educational importance (94%), accuracy (83%), efficiency (78%), safety (87.5%), endurance (81.2%), aesthetics (80.7%), storage (85.4%), and affordability (85.8%). MDPI 2022-07-25 /pmc/articles/PMC9330152/ /pubmed/35892751 http://dx.doi.org/10.3390/bioengineering9080338 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Etami, Helvina Vika
Rismawanti, Rochmi Isnaini
Hanifah, Vita Arfiana Nur
Herianto, Herianto
Yanuar, Yarabisa
Kuswanto, Djoko
Anggrahini, Dyah Wulan
Gharini, Putrika Prastuti Ratna
CT-Derived 3D Printing for Coronary Artery Cannulation Simulator Design Manufacturing
title CT-Derived 3D Printing for Coronary Artery Cannulation Simulator Design Manufacturing
title_full CT-Derived 3D Printing for Coronary Artery Cannulation Simulator Design Manufacturing
title_fullStr CT-Derived 3D Printing for Coronary Artery Cannulation Simulator Design Manufacturing
title_full_unstemmed CT-Derived 3D Printing for Coronary Artery Cannulation Simulator Design Manufacturing
title_short CT-Derived 3D Printing for Coronary Artery Cannulation Simulator Design Manufacturing
title_sort ct-derived 3d printing for coronary artery cannulation simulator design manufacturing
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9330152/
https://www.ncbi.nlm.nih.gov/pubmed/35892751
http://dx.doi.org/10.3390/bioengineering9080338
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