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Robotic surgical systems have become a staple in operating rooms, advancing the field of minimally invasive surgery. These computer-assisted tools help surgeons conduct more-precise in-depth procedures. The robots are often praised for their dexterity, advanced visualization technologies, and mechanical stamina. But there is one important aspect the robots are missing: a sense of touch, also known as haptics.

“It always helps to be able to feel what you are doing, to feel the tissue tension and to feel the force when manipulating a suture,” says Domenico Savatta, chief of minimally invasive and robotic urology surgery at Newark Beth Israel Medical Center. “Haptics would make it easier to learn robotic surgery, operate on things that are very delicate, and be an overall advantage to have in the system.”

Currently, such systems primarily rely on visual cues: magnified 3-D models showing surgeons how the tissue is stretched so they can estimate the amount of force being applied by the robot. The only thing that can be truly felt is resistance in the instruments if they hit an immovable object like bone, or if they are pulling so hard on tissue or a suture that they don’t move naturally.

Researchers at Johns Hopkins are working to overcome this limitation by using computer-based haptic feedback. Their goal is to understand the forces of the robot interacting with the patient and to use motors on the master robot–controlled by the surgeon–to create forces that are equal to those being applied to the patient, explains Allison Okamura, the head researcher on the project and an associate professor of mechanical engineering at Johns Hopkins.

“We want the surgeon to feel as though they are directly operating on the patient rather than having a robot mediate the interaction,” says Okamura. “We call this idea ‘transparency,’ to make it feel as though the robot isn’t even there.”

To develop such technology, Okamura and her team are working with the da Vinci surgical system made by Intuitive Surgical; it’s the only robot approved by the FDA for conducting surgical procedures. The da Vinci is particularly useful in laparoscopic surgical procedures, such as the removal of the gallbladder or prostate. It also makes it possible to perform minimally invasive procedures for general noncardiac surgical procedures inside the chest.

The da Vinci system is teleoperated, meaning the master robot and the patient robot are separate machines, although often they are located in the same room. The surgeon sits at a computer console (which works much like a fancy joystick) to manipulate the master robot while looking at a video display of a 3-D model of the surgery site. The surgeon’s movements of the master robot direct the motions of the robotic tools that actually perform the operation on the patient.

Okamura’s team uses two different techniques to incorporate haptic feedback: a physical force sensor on the robotic tools determines how much force is being applied, while a mathematical computer model estimates the forces between the patient and the robot. All this information is relayed to the operator as torque applied to the master robot’s joystick.

Okamura is exploring both techniques to determine which is the more reliable and accurate at producing fine force feedback on the operator’s fingers so that he or she can actually feel suture tension and pressure on tissue.

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Tagged: Biomedicine

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