The world's first 5G-powered remote brain surgery took place in China



[ad_1]

A surgeon in China performed the world's first remote brain surgery using 5G technology while the patient was more than 1,800km away, according to local media reports.

The patient, who suffers from Parkinson's disease, received a deep brain stimulation implant (DBD) in Beijing during a three-hour procedure on Saturday, the CGTN, a Chinese state-owned company, said.

The surgeon, Dr. Ling Zhipei, manipulated the instruments in Beijing from Sanya City, Hainan, about 1,864 miles (3,000 kilometers) away, with a computer using a 5G network powered by China Mobile and Huawei.

The first China # 5GRemote operation of the human brain based on remote intervention was successfully completed on Saturday. Hainan doctors manipulated the instrument to begin the 3-hour surgery on a Parkinson's disease patient in Beijing, marking a breakthrough in telemedicine in China. pic.twitter.com/VR9XUa64iU

– People's Daily, China (@PDChina) March 17, 2019

"I am taking turns in Beijing and Hainan, and the operation took place during my rotation in Hainan. A patient with Parkinson's disease in Beijing needed surgery and could not go to Hainan, "Ling told the CGTN. "The 5G network solved issues such as video lag and remote control delays encountered under the 4G network, ensuring near-real-time operation. And you hardly feel that the patient is 3,000 kilometers away. "

The patient would feel good.

This landmark move represents a significant step forward for surgeons in leading hospitals, who perform more distant surgeries on patients in remote areas or in the event of a disaster, and complete operations that were difficult to complete in the future. basic hospitals, said Ling.

In January, China also performed the first 5G remote surgery. However, it was a laboratory animal and involved the removal of the animal's liver, which was successfully completed.

According to PCMag, the big advantage of using a 5G network for remote surgery is the reduction in latency that it offers. The lower the latency time, the more the surgical robot will be sensitive to the actions of the surgeon tens or hundreds of kilometers apart.

It then reduces the risk of errors and allows the surgeon to work as if he was actually in the same room – or, as Ling described, "hardly feel that the patient stands at 3,000 kilometers.

More on Geek.com:

[ad_2]
Source link