The automated drill, similar to those used in machine auto parts, produces fast, clean and safe cuts, reducing the time the wound is open and the patient is anaesthetised.
This can decrease the incidence of infection, human error, and surgical cost, according to the findings published in the journal Neurosurgical Focus.
To perform complex surgeries, especially cranial surgeries, surgeons typically use hand drills to make intricate openings, adding hours to a procedure.
"It was like doing archaeology. We had to slowly take away the bone to avoid sensitive structures," said William Couldwell, a neurosurgeon at University of Utah in the US.
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"I was interested in developing a low-cost drill that could do a lot of the grunt work to reduce surgeon fatigue," said A K Balaji, associate professor at University of Utah.
First, the patient is imaged using a CT scan to gather bone data and identify the exact location of sensitive structures, such as nerves and major veins and arteries that must be avoided.
"The software lets the surgeon choose the optimum path from point A to point B, like Google Maps," said Balaji.
In addition, the surgeon can programme safety barriers along the cutting path within one millimetre (mm) of sensitive structures.
The drill does the heavy lifting by removing most of the bone, similar to a mill, accurately and rapidly.
The translabyrinthine surgery is performed thousands of times a year to expose slow-growing, benign tumours that form around the auditory nerves, researchers said.
This cut is not only difficult, the cutting path also must avoid several sensitive features, including facial nerves and the venous sinus, a large vein that drains blood from the brain. Risks of this surgery include loss of facial movement.
"If the drill gets too close to the facial nerve and irritation is monitored, the drill automatically turns off," Couldwell said.