Angiography simulation and planning using a multi-fluid approach

Huang, D., Tang, P., Tang, W., Wan, Tao Ruan

22 January 2019

Yes / Angiography is a minimally invasive diagnostic procedure in endovascular interventions. Training interventional procedures is a big challenge, due to the complexity of the procedures with the changes of measurement and visualization in blood flow rate, volume, and image contrast. In this paper, we present a novel virtual reality-based 3D interactive training platform for angiography procedure training. We propose a multi-fluid flow approach with a novel corresponding non-slip boundary condition to simulate the effect of diffusion between the blood and contrast media. A novel syringe device tool is also designed as an add-on hardware to the 3D software simulation system to model haptics through real physical interactions to enhance the realism of the simulation-based training. Experimental results show that the system can simulate realistic blood flow in complex blood vessel structures. The results are validated by visual comparisons between real angiography images and simulations. By combining the proposed software and hardware, our system is applicable and scalable to many interventional radiology procedures. Finally, we have tested the system with clinicians to assess its efficacy for virtual reality-based medical training. / National Natural Science Foundation of China grant number 61402278, the Shanghai Natural Science Foundation of China grant number 14ZR1415800, Research Program of Shanghai Engineering Research Center of Motion Picture Special Effects grant number 16dz2251300, Shanghai University Film Peak Discipline, and Shanxi Natural Science Technology Foundation grant number 2016JZ026.

Interventional procedures

Medical simulation and training

Virtual angiography

Blood flow

New haptic syringe device for virtual angiography training

Huang, D., Tang, P., Wang, X., Wan, Tao Ruan, Tang, W.

01 April 2019

No / Angiography is an important minimally invasive diagnostic procedure in endovascular interventions. Effective training for the procedure is expensive, time consuming and resource demanding. Realistic simulation has become a viable solution to addressing such challenges. However, much of previous work has been focused on software issues. In this paper, we present a novel hardware system-an interactive syringe device with haptics as an add-on hardware component to 3D VR angiography training simulator. Connected to a realistic 3D computer simulation environment, the hardware component provides injection haptic feedback effects for medical training. First, we present the design of corresponding novel electronic units consisting of many design modules. Second, we describe a curve fitting method to estimate injection dosage and injection speed of the contrast media based on voltage variation between the potentiometer to increase the realism of the simulated training. A stepper motor control method is developed to imitate the coronary pressure for force feedback of syringe. Experimental results show that the validity and feasibility of the new haptic syringe device for achieving good diffusion effects of contrast media in the simulation system. A user study experiment with medical doctors to assess the efficacy and realism of proposed simulator shows good outcomes. / National Natural Science Foundation of China (61402278), the Innovation Program of the Science and Technology Commission of Shanghai Municipality of China (16511101302), Research Program of Shanghai Engineering Research Center of Motion Picture Special Effects (16dz2251300)

Virtual angiography

Syringe device

Haptic feedback

Medical training