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Medical professionals from the Scottish region and America have successfully completed what is considered a historic stroke procedure employing automated systems.

Prof Iris Grunwald, associated with a Scottish university, conducted the remote thrombectomy - the elimination of circulatory obstructions after a brain attack - on a human cadaver that had been provided for research.

The expert was working from a major hospital in the Scottish city, while the specimen being treated via the device was separately situated at the research facility.

Later that day, a neurosurgeon from Florida utilized the equipment to carry out the first transatlantic surgery from his American facility on a human body in Scotland over 4,000 miles away.

The medical group has labeled it a potential "game changer" if it receives authorization for medical treatment.

The medics think this innovation could transform cerebral healthcare, as a slow access to specialist treatment can have a significant effect on the recovery prospects.

"It seemed like we were observing the initial vision of the next generation," stated Prof Grunwald.

"Whereas before this was thought to be futuristic fantasy, we proved that every step of the operation can already be done."

The Scottish institution is the worldwide teaching facility of the international stroke organization, and is the exclusive site in the United Kingdom where doctors can work with medical specimens with biological fluid circulated in the arteries to replicate operations on a living person.

"This represented the pioneering moment that we could conduct the entire surgical process in a real human body to show that each stage of the surgery are possible," said the primary researcher.

A charity executive, the chief executive of a medical organization, called the transatlantic procedure as "a remarkable innovation".

"For too long, residents of isolated regions have been limited in obtaining to clot removal," she stated.

"Such technological systems could correct the imbalance which persists in stroke treatment throughout Britain."

How does the system function?

An ischaemic stroke takes place when an vascular pathway is clogged by a clot.

This interrupts blood and oxygen supply to the brain, and neurons stop functioning and expire.

The best treatment is a clot removal, where a surgeon uses medical instruments to extract the blockage.

But what happens when a person can't get to a specialist who can conduct the operation?

Prof Grunwald explained the study showed a automated system could be connected to the same catheters and wires a surgeon would normally use, and a healthcare professional who is present with the individual could simply attach the tools.

The specialist, in another location, could then operate and direct their personal instruments, and the automated system then performs exactly the same movements in immediate sequence on the individual to conduct the surgical procedure.

The subject would be in a treatment center, while the surgeon could perform the procedure using the advanced machine from any location - even their personal residence.

The medical expert and the neurosurgeon could see real-time imaging of the body in the trials, and track developments in live conditions, with the lead researcher stating it took only 20 minutes of preparation.

Technology companies Nvidia and Ericsson were involved in the project to ensure the network connection of the automated system.

"To operate from the America to Scotland with a brief latency - a blink of an eye - is genuinely extraordinary," said the neurosurgeon.

The future of stroke treatment

The lead researcher, who has won an award for her contributions and is also the vice president of the international medical organization, stated there were two main problems with a traditional procedure - a global shortage of specialists who can do it, and care is determined by your geographical position.

In the region, there are only three places people can obtain the treatment - Dundee, Glasgow and Edinburgh. If you aren't located nearby, you must journey.

"The intervention is extremely time-critical," stated the lead researcher.

"For every six minutes of waiting, you have a one percent reduced probability of having a successful recovery.

"This system would now provide a innovative method where you're not reliant upon where you live - saving the precious time where your neural tissue is otherwise dying."

Public health data revealed there were {9,625 ischaemic strokes|numerous cerebral events|