Webinar • Siemens Industry Software: Digital Manufacturing • Industria y Fabricación

Combining system simulation and 3D CFD for haemodynamic modelingAgéndalo en tu calendario habitual ¡en tu horario!

Miércoles, 27 de abril de 2022, de 11.00 a 12.00 hs Horario de Virginia (US)
Webinar en inglés
Since the advent of computational fluid dynamics (CFD) in the biomedical sector, there has been a progressive trend towards the use of in-silico methods for surgical planning and evaluation. Establishing a credible model for CFD haemodynamic studies necessitates adhering to best practices. Additionally, a repeatable methodology must be established and implemented when completing inter-patient studies of a common vascular region. Both aspects present the potential of automating several tasks within the pre-processing phase of the CFD simulation process, a desirable attribute of research, industrial, and potential clinical practices.
 
The research related with the presented work is focused on the haemodynamics associated with an arteriovenous fistula (AVF). AVFs are surgically created native connections in the arm of chronic kidney disease (CKD) patients. The CFD studies investigated the prominence of haemodynamics on the success and performance of AVFs across a cohort of CKD patients, based on the results ascertained from Simcenter STAR-CCM+ simulations and from coupling Simcenter Amesim with Simcenter STAR-CCM+.
 
A major advantage of CFD-based AVF investigations is the detailed analysis of the haemodynamic environment and calculation of haemodynamic metrics non-measurable in-vivo, both in the pre-surgical and post-operative stages. The obtained flow rates and wall shear stress distributions throughout key stages of the fistula development can be utilized for informing future surgical planning or reintervention procedures. In order to make CFD a vital tool clinically, validation with retrospective data and a rapid turnaround time with minimal user input from scanning to CFD post-processing are required. This is a key point of Simcenter STAR-CCM+ and the presented work. The webinar demonstrates the challenges associated with this research and the use of Simcenter STAR-CCM+ and Simcenter Amesim in overcoming them.
 
What you will learn from this webinar
 
- How to implement best practices for CFD haemodynamic modelling in Simcenter STAR-CCM+
 
- How to compute key haemodynamic metrics within Simcenter STAR-CCM+
 
- How to automate a repeatable and efficient CFD pre-processing pipeline
 
- How to couple Simcenter Amesim and Simcenter STAR-CCM+ for zero-dimensional Windkessel models
 
Meet the speakers
 
Javier Garriz: Solution Consultant for Medical Devices SIEMENS DIGITAL INDUSTRIES SOFTWARE
 
George Hyde-Linaker :Department of Biomedical Engineering UNIVERSITY OF STRATHCLYDE, GLASGOW, UK
 
Dr. Asimina Kazakidi: FHEA, MIPEM, RSE ΜYAS Senior Lecturer, Director of MSc/MRes programmes in Biofluid Mechanics UNIVERSITY OF STRATHCLYDE, GLASGOW, UK
 
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  • Combining system simulation and 3D CFD for haemodynamic modeling



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