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Autori principali: Jha, Keshav, Mayer, Joseph
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2508.10134
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author Jha, Keshav
Mayer, Joseph
author_facet Jha, Keshav
Mayer, Joseph
contents Three-dimensional (3D) printed preoperative planning models serve a critical role in the success of many medical procedures. However, many of these models do not portray the patient's complete anatomy due to their monolithic and static nature. The use of dynamic 3D-printed models can better equip physicians by providing a more anatomically accurate model due to its movement capabilities and the ability to remove and replace printed anatomies based on planning stages. A dynamic 3D-printed preoperative planning model has the capability to move in similar ways to the anatomy that is being represented by the model, or reveal additional issues that may arise during the use of a movement mechanism. The 3D-printed models are constructed in a similar manner to their static counterparts; however, in the digital post-processing phase, additional care is needed to ensure the dynamic functionality of the model. Here, we discuss the process of creating a dynamic 3D-printed model and its benefits and uses in modern medicine.
format Preprint
id arxiv_https___arxiv_org_abs_2508_10134
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Patient-Specific 3D Printed Dynamic Preoperative Planning Models in Modern Medicine
Jha, Keshav
Mayer, Joseph
Medical Physics
Materials Science
92C55
J.3; J.2
Three-dimensional (3D) printed preoperative planning models serve a critical role in the success of many medical procedures. However, many of these models do not portray the patient's complete anatomy due to their monolithic and static nature. The use of dynamic 3D-printed models can better equip physicians by providing a more anatomically accurate model due to its movement capabilities and the ability to remove and replace printed anatomies based on planning stages. A dynamic 3D-printed preoperative planning model has the capability to move in similar ways to the anatomy that is being represented by the model, or reveal additional issues that may arise during the use of a movement mechanism. The 3D-printed models are constructed in a similar manner to their static counterparts; however, in the digital post-processing phase, additional care is needed to ensure the dynamic functionality of the model. Here, we discuss the process of creating a dynamic 3D-printed model and its benefits and uses in modern medicine.
title Patient-Specific 3D Printed Dynamic Preoperative Planning Models in Modern Medicine
topic Medical Physics
Materials Science
92C55
J.3; J.2
url https://arxiv.org/abs/2508.10134