Real-Time Ultrasound Simulation for Training of US-Guided Needle Insertion in Breathing Virtual Patients

Andre Mastmeyer; Matthias Wilms; Dirk Fortmeier; Julian Schröder; Heinz Handels

doi:https://www.ncbi.nlm.nih.gov/pubmed/27046582?dopt=Abstract

Real-Time Ultrasound Simulation for Training of US-Guided Needle Insertion in Breathing Virtual Patients

Andre Mastmeyer, Matthias Wilms, Dirk Fortmeier, Julian Schröder, Heinz Handels

Abstract

One draw-back of most existing VR ultrasound training simulators is the use of static 3D patient models neglecting physiological changes induced e.g. by respiration or heart motion. In this paper to the aim of more realistic Ultrasound simulation, breathing motion extracted from 4D CT image data is integrated into our visuo-haptic simulation framework. The simulated ultrasound images are used for the training of US-guided needle insertion procedures in liver surgery. The methodology developed enables US simulation, 3D visualization and haptic steering of the ultrasound probe and the needle in real-time in breathing virtual bodies.

Originalsprache	Englisch
Zeitschrift	Studies in Health Technology and Informatics
Jahrgang	220
Seiten (von - bis)	219-26
Seitenumfang	8
ISSN	0926-9630
DOIs	https://doi.org/https://www.ncbi.nlm.nih.gov/pubmed/27046582?dopt=Abstract https://doi.org/https://www.researchgate.net/publication/320947103_Real-Time_Ultrasound_Simulation_for_Training_of_US-Guided_Needle_Insertion_in_Breathing_Virtual_Patients
Publikationsstatus	Veröffentlicht - 26.01.2016

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Patientenindividuelle 4D Virtual Reality Simulation von Punktionen und Radiofrequenz-Ablationen in atmungsbewegten virtuellen Körpermodellen
Handels, H. (Projektleiter*in (PI)) & Mastmeyer, A. (Beteiligte*r Wissenschaftler*in)
01.04.10 → 31.03.18
Projekt: DFG-Projekte › DFG Einzelförderungen (Sachbeihilfen)

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Mastmeyer, A., Wilms, M., Fortmeier, D., Schröder, J., & Handels, H. (2016). Real-Time Ultrasound Simulation for Training of US-Guided Needle Insertion in Breathing Virtual Patients. Studies in Health Technology and Informatics, 220, 219-26. https://doi.org/https://www.ncbi.nlm.nih.gov/pubmed/27046582?dopt=Abstract, https://doi.org/https://www.researchgate.net/publication/320947103_Real-Time_Ultrasound_Simulation_for_Training_of_US-Guided_Needle_Insertion_in_Breathing_Virtual_Patients

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abstract = "One draw-back of most existing VR ultrasound training simulators is the use of static 3D patient models neglecting physiological changes induced e.g. by respiration or heart motion. In this paper to the aim of more realistic Ultrasound simulation, breathing motion extracted from 4D CT image data is integrated into our visuo-haptic simulation framework. The simulated ultrasound images are used for the training of US-guided needle insertion procedures in liver surgery. The methodology developed enables US simulation, 3D visualization and haptic steering of the ultrasound probe and the needle in real-time in breathing virtual bodies. ",

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Mastmeyer, A, Wilms, M, Fortmeier, D, Schröder, J & Handels, H 2016, 'Real-Time Ultrasound Simulation for Training of US-Guided Needle Insertion in Breathing Virtual Patients', Studies in Health Technology and Informatics, Jg. 220, S. 219-26. https://doi.org/https://www.ncbi.nlm.nih.gov/pubmed/27046582?dopt=Abstract, https://doi.org/https://www.researchgate.net/publication/320947103_Real-Time_Ultrasound_Simulation_for_Training_of_US-Guided_Needle_Insertion_in_Breathing_Virtual_Patients

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T1 - Real-Time Ultrasound Simulation for Training of US-Guided Needle Insertion in Breathing Virtual Patients

AU - Mastmeyer, Andre

AU - Wilms, Matthias

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AU - Schröder, Julian

AU - Handels, Heinz

PY - 2016/1/26

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N2 - One draw-back of most existing VR ultrasound training simulators is the use of static 3D patient models neglecting physiological changes induced e.g. by respiration or heart motion. In this paper to the aim of more realistic Ultrasound simulation, breathing motion extracted from 4D CT image data is integrated into our visuo-haptic simulation framework. The simulated ultrasound images are used for the training of US-guided needle insertion procedures in liver surgery. The methodology developed enables US simulation, 3D visualization and haptic steering of the ultrasound probe and the needle in real-time in breathing virtual bodies.

AB - One draw-back of most existing VR ultrasound training simulators is the use of static 3D patient models neglecting physiological changes induced e.g. by respiration or heart motion. In this paper to the aim of more realistic Ultrasound simulation, breathing motion extracted from 4D CT image data is integrated into our visuo-haptic simulation framework. The simulated ultrasound images are used for the training of US-guided needle insertion procedures in liver surgery. The methodology developed enables US simulation, 3D visualization and haptic steering of the ultrasound probe and the needle in real-time in breathing virtual bodies.

U2 - https://www.ncbi.nlm.nih.gov/pubmed/27046582?dopt=Abstract

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ER -

Mastmeyer A, Wilms M, Fortmeier D, Schröder J, Handels H. Real-Time Ultrasound Simulation for Training of US-Guided Needle Insertion in Breathing Virtual Patients. Studies in Health Technology and Informatics. 2016 Jan 26;220:219-26. doi: https://www.ncbi.nlm.nih.gov/pubmed/27046582?dopt=Abstract, https://www.researchgate.net/publication/320947103_Real-Time_Ultrasound_Simulation_for_Training_of_US-Guided_Needle_Insertion_in_Breathing_Virtual_Patients

Real-Time Ultrasound Simulation for Training of US-Guided Needle Insertion in Breathing Virtual Patients

Abstract

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Projekte

Patientenindividuelle 4D Virtual Reality Simulation von Punktionen und Radiofrequenz-Ablationen in atmungsbewegten virtuellen Körpermodellen

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