From the Stanford Robotics Lab, The CardinalSim Project is seeking an individual to help assess the market potential for an advanced surgical simulation technology developed at Stanford. Industry coach available, 510K, 10 years in development.
How It Works
With CardinalSim, a user creates surgical scenes in which anatomic structures are derived from segmented clinical PACS systems.
Volumetric structures may be represented with predefined or customized material properties and viewed with a variety of stereoscopic displays using real-time volumetric rendering.
Virtual dissections can be performed with the support of high-fidelity haptic feedback from a variety of supported hardware. The dissections can be compared with intraoperative video for retrospective analysis.
How It Works
With CardinalSim, a user creates surgical scenes in which anatomic structures are derived from segmented clinical PACS systems.
Volumetric structures may be represented with predefined or customized material properties and viewed with a variety of stereoscopic displays using real-time volumetric rendering.
Virtual dissections can be performed with the support of high-fidelity haptic feedback from a variety of supported hardware. The dissections can be compared with intraoperative video for retrospective analysis.