Refresher Course: Physics in Medical Imaging
RC 1413 - Innovative educational approaches: boosting safety in interventional radiology and cardiology with AI, virtual and augmented reality, and computational techniques
Lectures
1
Chairpersons' introduction
05:00Olivera Ciraj Bjelac, Vienna / AT, Efi Koutsouveli, Athens / GR
2
Using augmented reality to enhance medical practice and to boost radiation protection in vascular surgery
15:00Stefano Bonvini, Trento / IT
3
Virtual reality for advanced training in interventional rooms
15:00Katharina Stella Winter, Oberschleißheim / DE
4
The use of computational and AI-based occupational dosimetry for ALARA and teaching purposes in medical ionising radiation applications
15:00Filip Vanhavere, Mol / BE
5
Panel discussion: How virtual augmented reality and AI technology will transform education on radiation safety in the coming decades?
10:00Panel discussion: How virtual augmented reality and AI technology will transform education on radiation safety in the coming decades?
5 min
Chairpersons' introduction
Olivera CIRAJ BJELAC, Vienna / Austria
Efi Koutsouveli, Athens / Greece
Efi Koutsouveli, Athens / Greece
15 min
Using augmented reality to enhance medical practice and to boost radiation protection in vascular surgery
Stefano Bonvini, Trento / Italy
- To learn about the development of AR-based scenarios to simulate realistic environments for medical professionals.
- To understand the principles and applications of augmented reality (AR) to boost radiation protection during endovascular procedures.
- To evaluate the effectiveness of the integration of augmented reality (AR) in a clinical setting.
15 min
Virtual reality for advanced training in interventional rooms
Katharina Stella Winter, Oberschleißheim / Germany
- To understand the principles and applications of virtual reality (VR) in radiation protection.
- To explore the development and features of a VR-based training environment, including the awareness and proper use of protective devices.
- To discuss practical, low-cost implementation solutions of VR technology for enhancing education and training events.
15 min
The use of computational and AI-based occupational dosimetry for ALARA and teaching purposes in medical ionising radiation applications
Filip Vanhavere, Mol / Belgium
- To understand the principles and methodologies of computational and AI-based occupational dosimetry.
- To explore the development and validation of real-time personal dosimetry systems, such as the PODIUM project, for employing motion tracking and Monte Carlo simulations.
- To evaluate the effectiveness of computational dosimetry in optimising radiation protection and enhancing the application of the ALARA principle in interventional radiology and cardiology.
10 min
Panel discussion: How virtual augmented reality and AI technology will transform education on radiation safety in the coming decades?