Abstract
Translational medical research seeks to foster the multidirectional and multidisciplinary integration of basic research, patient-oriented research, and population-based research, with the long-term aim of improving the health of the public (Rubio D, et al., Acad Med. 85:470–475, 2010). A prerequisite of the translation process is a foundation suitable for training the practitioners of new methodologies. The members of the Living Heart Project aim to serve a translational role for the adoption of computational modeling and simulation into cardiovascular medicine and ultimately provide the scientific and evidentiary foundation for the use of such tools in medical practice. We describe the unique features of the Living Heart Project that enable it to pursue this goal and further, by way of select application examples, demonstrate that it should be possible to develop a robust heart simulation platform with sufficient breadth as to establish a foundation for virtual training with the realism found today in modern pilot training systems.
Original language | English |
---|---|
Title of host publication | Modelling Congenital Heart Disease |
Subtitle of host publication | Engineering a Patient-specific Therapy |
Editors | Gianfranco Butera, Silvia Schievano, Giovanni Biglino, Doff B. McElhinney |
Place of Publication | Cham |
Publisher | Springer |
Pages | 245-259 |
Number of pages | 15 |
ISBN (Electronic) | 9783030888923 |
ISBN (Print) | 9783030888916 |
DOIs | |
Publication status | Published - 2022 |
Externally published | Yes |
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Levine, S., Battisti, T., Butz, B., D’Souza, K., Sahli Costabal, F. (2022). Dassault Systèmes’ Living Heart Project. In G. Butera, S. Schievano, G. Biglino, & D. B. McElhinney (Eds.), Modelling Congenital Heart Disease: Engineering a Patient-specific Therapy (pp. 245-259). Springer. https://doi.org/10.1007/978-3-030-88892-3_25
Levine, Steven ; Battisti, Tom ; Butz, Björn et al. / Dassault Systèmes’ Living Heart Project. Modelling Congenital Heart Disease: Engineering a Patient-specific Therapy. editor / Gianfranco Butera ; Silvia Schievano ; Giovanni Biglino ; Doff B. McElhinney. Cham : Springer, 2022. pp. 245-259
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title = "Dassault Syst{\`e}mes{\textquoteright} Living Heart Project",
abstract = "Translational medical research seeks to foster the multidirectional and multidisciplinary integration of basic research, patient-oriented research, and population-based research, with the long-term aim of improving the health of the public (Rubio D, et al., Acad Med. 85:470–475, 2010). A prerequisite of the translation process is a foundation suitable for training the practitioners of new methodologies. The members of the Living Heart Project aim to serve a translational role for the adoption of computational modeling and simulation into cardiovascular medicine and ultimately provide the scientific and evidentiary foundation for the use of such tools in medical practice. We describe the unique features of the Living Heart Project that enable it to pursue this goal and further, by way of select application examples, demonstrate that it should be possible to develop a robust heart simulation platform with sufficient breadth as to establish a foundation for virtual training with the realism found today in modern pilot training systems.",
author = "Steven Levine and Tom Battisti and Bj{\"o}rn Butz and Karl D{\textquoteright}Souza and {Sahli Costabal}, Francisco and Mathias Peirlinck",
year = "2022",
doi = "10.1007/978-3-030-88892-3_25",
language = "English",
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pages = "245--259",
editor = "Gianfranco Butera and Silvia Schievano and Giovanni Biglino and McElhinney, {Doff B.}",
booktitle = "Modelling Congenital Heart Disease",
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Levine, S, Battisti, T, Butz, B, D’Souza, K, Sahli Costabal, F 2022, Dassault Systèmes’ Living Heart Project. in G Butera, S Schievano, G Biglino & DB McElhinney (eds), Modelling Congenital Heart Disease: Engineering a Patient-specific Therapy. Springer, Cham, pp. 245-259. https://doi.org/10.1007/978-3-030-88892-3_25
Dassault Systèmes’ Living Heart Project. / Levine, Steven; Battisti, Tom; Butz, Björn et al.
Modelling Congenital Heart Disease: Engineering a Patient-specific Therapy. ed. / Gianfranco Butera; Silvia Schievano; Giovanni Biglino; Doff B. McElhinney. Cham: Springer, 2022. p. 245-259.
Research output: Chapter in Book/Conference proceedings/Edited volume › Chapter › Scientific › peer-review
TY - CHAP
T1 - Dassault Systèmes’ Living Heart Project
AU - Levine, Steven
AU - Battisti, Tom
AU - Butz, Björn
AU - D’Souza, Karl
AU - Sahli Costabal, Francisco
AU - Peirlinck, Mathias
PY - 2022
Y1 - 2022
N2 - Translational medical research seeks to foster the multidirectional and multidisciplinary integration of basic research, patient-oriented research, and population-based research, with the long-term aim of improving the health of the public (Rubio D, et al., Acad Med. 85:470–475, 2010). A prerequisite of the translation process is a foundation suitable for training the practitioners of new methodologies. The members of the Living Heart Project aim to serve a translational role for the adoption of computational modeling and simulation into cardiovascular medicine and ultimately provide the scientific and evidentiary foundation for the use of such tools in medical practice. We describe the unique features of the Living Heart Project that enable it to pursue this goal and further, by way of select application examples, demonstrate that it should be possible to develop a robust heart simulation platform with sufficient breadth as to establish a foundation for virtual training with the realism found today in modern pilot training systems.
AB - Translational medical research seeks to foster the multidirectional and multidisciplinary integration of basic research, patient-oriented research, and population-based research, with the long-term aim of improving the health of the public (Rubio D, et al., Acad Med. 85:470–475, 2010). A prerequisite of the translation process is a foundation suitable for training the practitioners of new methodologies. The members of the Living Heart Project aim to serve a translational role for the adoption of computational modeling and simulation into cardiovascular medicine and ultimately provide the scientific and evidentiary foundation for the use of such tools in medical practice. We describe the unique features of the Living Heart Project that enable it to pursue this goal and further, by way of select application examples, demonstrate that it should be possible to develop a robust heart simulation platform with sufficient breadth as to establish a foundation for virtual training with the realism found today in modern pilot training systems.
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DO - 10.1007/978-3-030-88892-3_25
M3 - Chapter
SN - 9783030888916
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EP - 259
BT - Modelling Congenital Heart Disease
A2 - Butera, Gianfranco
A2 - Schievano, Silvia
A2 - Biglino, Giovanni
A2 - McElhinney, Doff B.
PB - Springer
CY - Cham
ER -
Levine S, Battisti T, Butz B, D’Souza K, Sahli Costabal F, Peirlinck M. Dassault Systèmes’ Living Heart Project. In Butera G, Schievano S, Biglino G, McElhinney DB, editors, Modelling Congenital Heart Disease: Engineering a Patient-specific Therapy. Cham: Springer. 2022. p. 245-259 doi: 10.1007/978-3-030-88892-3_25