Virtual Reality Simulator Helps Teach Surgery for Brain Cancer, Reports Neurosurgery

‘NeuroTouch’ System Provides 3-D Graphics and Tactile Feedback During Simulated Brain Surgery

Philadelphia, Pa. (September 20, 2012) – A new virtual reality simulator—including sophisticated 3-D graphics and tactile feedback—provides neurosurgery trainees with valuable opportunities to practice essential skills and techniques for brain cancer surgery, according to a paper in the September issue of Neurosurgery, official journal of the Congress of Neurological Surgeons. The journal is published by Lippincott Williams & Wilkins, a part of Wolters Kluwer Health.

The prototype system, called “NeuroTouch,” uses 3-D graphics and haptic (sense of touch) technology to provide a realistic look and feel for practice in performing common tasks in brain cancer surgery. Lead author Sébastien Delorme, PhD, of the National Research Council Canada and colleagues believe the NeuroTouch system could enhance “acquisition and assessment of technical skills” for neurosurgeons in training.

System Simulates Common Neurosurgery Tasks and Tools

The NeuroTouch system was developed by a team of more than 50 experts from the National Research Council Canada, with input from surgeons at more than 20 Canadian teaching hospitals. The goal was to design a simulation system to provide neurosurgical trainees with opportunities to practice basic surgical skills.

The NeuroTouch software produces 3-D graphics, simulating what the neurosurgeon sees through the operating microscope during surgery—including detailed, lifelike renderings of brain tissue, blood vessels, and tumors. The system also includes haptic tool manipulators, providing tactile feedback similar to what the surgeon would feel during surgery. The simulator runs on computers that, while powerful, are similar to those used to run popular games.

The researchers designed training tasks to simulate common neurosurgery procedures using the NeuroTouch. In one task, the surgeon is to remove brain tumor while leaving normal tissues intact, using two different suction devices. In this simulation, the system provides touch and visual cues to discriminate between healthy tissue and brain tumor.

In the other task, the surgeon must remove a vascularized (supplied with blood) tumor while controlling blood loss. The blood vessels and tissues look realistic, including normal pulsations. The vessels bleed when the surgeon applies a cutting tool and stop bleeding when he or she uses a simulated cautery tool.

Both tasks were developed using 3D reconstructions of magnetic resonance imaging scan data from actual patients. With further development, the system may be used not only to practice basic procedures, but even to allow neurosurgeons to simulate and practice actual operations, based on the patient’s own MRI scan.

During the development process, the researchers received feedback through an advisory network of teaching hospitals. The 3-D visual graphics received high praise, although the tactile feedback system came in for more criticism. Surgeons testing the system also suggested improvements to the ergonomics of using the simulator.

Neurosurgical residency training programs are challenged to make the most of their resources while maximizing training opportunities for residents. About 90 percent of surgical training is received in the operating room, where residents learn procedures by assisting surgeons with hundreds of operations.

Medical simulators—similar to those used to train airline pilots—are increasingly viewed as a cost-effective complement to traditional surgical training. For example, a commercially available simulator has proven effective in helping trainees perform minimally invasive gallbladder surgery more rapidly, with a lower risk of patient injury.

The NeuroTouch system appears to be a promising tool for extending virtual reality technology to teaching common and important neurosurgery techniques. While it is not the first neurosurgical simulator, it provides key advances over previous systems, particularly in terms of providing real-time graphics and tactile feedback.

The next step will be to evaluate the new system in actual neurosurgical training programs. “First generation NeuroTouch prototypes have been set up in 7 teaching hospitals across Canada, to be used for beta testing and validation and evaluated for integration in a neurosurgery training curriculum,” according to Dr. Delorme and colleagues, and a new generation of NeuroTouch simulators is currently being deployed worldwide. 

About Neurosurgery

Neurosurgery, the Official Journal of the Congress of Neurological Surgeons, is your most complete window to the contemporary field of neurosurgery. Members of the Congress and non-member subscribers receive 3,000 pages per year packed with the very latest science, technology, and medicine, not to mention full-text online access to the world’s most complete, up-to-the-minute neurosurgery resource. For professionals aware of the rapid pace of developments in the field, Neurosurgery is nothing short of indispensable.

About Lippincott Williams & Wilkins

Lippincott Williams & Wilkins (LWW) is a leading international publisher of trusted content delivered in innovative ways to practitioners, professionals and students to learn new skills, stay current on their practice, and make important decisions to improve patient care and clinical outcomes. LWW is part of Wolters Kluwer Health, a leading global provider of information, business intelligence and point-of-care solutions for the healthcare industry. Wolters Kluwer Health is part of Wolters Kluwer, a market-leading global information services company with 2011 annual revenues of €3.4 billion ($4.7 billion).

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