Surgeons use PlayStation controller for long-distance endoscopy



In a groundbreaking experiment, surgeons in Switzerland successfully performed an endoscopic procedure on a pig 5,780 miles away in Hong Kong.

This innovative feat was accomplished using a video game controller, paving the way for the future of remote surgeries in humans, particularly in areas lacking local medical expertise.

The technology behind remote surgery

The procedure utilized a robotic system and a magnetic endoscope, connected via a direct WebSocket protocol for real-time data transfer.

The Swiss surgeon operated from a control console in Zurich, viewing the procedure through a live video feed and steering the endoscope using a PlayStation 3 Move controller.

Other demonstrations seem to have scientists using a PlayStation 5 controller, which would be much easier to come by these days.

This technology allows for precise navigation within the body, as the magnetic endoscope can be steered by controlling an external magnetic field, enabling complex maneuvers such as bending into a U-turn and performing biopsies.

Surgeons in Switzerland successfully performed an endoscopic procedure on a pig 5,780 miles away in Hong Kong. Chinese University of Hong Kong/Kurt “CyberGuy” Knutsson

Latency and real-time control

One of the key achievements of this experiment was maintaining a latency of under 300 milliseconds, which is crucial for real-time surgical control.

This level of responsiveness is comparable to traditional surgical settings, allowing the remote surgeon to react swiftly to any developments during the procedure.

The implications for health care

The success of this remote surgery highlights the potential for telesurgery to extend surgical care to remote areas where local expertise is unavailable.

The procedure utilized a robotic system and a magnetic endoscope, connected via a direct WebSocket protocol for real-time data transfer. Chinese University of Hong Kong/Kurt “CyberGuy” Knutsson
One of the key achievements of this experiment was maintaining a latency of under 300 milliseconds, which is crucial for real-time surgical control. Chinese University of Hong Kong/Kurt “CyberGuy” Knutsson

This is particularly significant for time-sensitive procedures and specialized surgeries. The technology could even be adapted for use in space, providing surgical solutions for astronauts far from Earth.

Challenges and considerations

Despite the promising results, there are challenges to overcome. Establishing a reliable, high-speed internet connection is critical, as is ensuring effective communication between the remote surgeon and local staff.

Moreover, the safety and precision of robotic systems must be prioritized to avoid complications during procedures.

Kurt’s key takeaways

The advancement of robotic magnetic navigation technology represents a groundbreaking advancement in the field of telesurgery.

By overcoming geographical barriers, this technology not only enhances access to surgical expertise but also holds the promise of transforming the landscape of minimally invasive procedures.

The level of responsiveness is comparable to traditional surgical settings, allowing the remote surgeon to react swiftly to any developments during the procedure. Chinese University of Hong Kong/Kurt “CyberGuy” Knutsson
The advancement of robotic magnetic navigation technology represents a groundbreaking advancement in the field of telesurgery. Chinese University of Hong Kong/Kurt “CyberGuy” Knutsson

As research continues and more successful trials are conducted, the reality of remote surgeries becoming a routine part of medical practice may soon become a reality, benefiting countless patients worldwide.

Would you feel comfortable undergoing a surgical procedure performed remotely by a surgeon located thousands of miles away? Let us know by writing us at Cyberguy.com/Contact.

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