First completely robot-supported microsurgical operations on humans
A team led by scientists Dr. Maximilian Kückelhaus and Prof. Tobias Hirsch from the Centre for Musculoskeletal Medicine at the University of Münster has carried out the first completely robot-supported microsurgical operations on humans. The physicians used an innovative operating method in which a new type of operations robot, designed especially for microsurgery, is networked with a robotic microscope. This approach makes it possible for the operating surgeon to be completely taken out of the operating area. The use of robots for clinical research is undertaken in collaboration with Münster University Hospital and Hornheide Specialist Clinic.
The experts have been using this method for a good two months. So far, five operations have been successfully performed, with many more set to follow. “This new method for operations enables us to work with a much higher degree of delicacy and precision than is possible with conventional operating techniques,” says Maximilian Kückelhaus. “As a result, less tissue is destroyed and patients recover faster.”
The specialists use the method, for example, on patients with breast cancer who need complex breast reconstructions, or after accidents in which patients need tissue transplants. With the aid of the robot and the robotic microscope, the microsurgeons can join the finest anatomical structures such as blood vessels, nerves or lymphatic vessels, which often have a diameter of only 0.3 millimeters.
During the operation, the robot—the so-called Symani Surgical System—adopts human hand movements via an electromagnetic field and joysticks. The robot carries out the operating surgeon’s movements, reduced in size by up to 20 times, via tiny instruments and, in doing so, completely eliminates any shaking present in (human) hands.
A robotic microscope is connected to the operation robot, and this microscope shows the area being operated on via a 3D Augmented Reality Headset with two high-resolution monitors. This headset contains a binoculars that are able to combine the real world with virtual information. In this way, the surgeon’s head movements can be recorded and transferred to the robot, making even complicated viewing angles possible on the area being operated on. In addition, the operating surgeon can access a variety of menus and perform functions with the robot without using his or her hands.
The new technology also has the advantage that operating surgeons can adopt a relaxed posture—whereas they otherwise have to perform operations in a strenuous posture over a period of several hours. “As we can now operate on patients in a remote fashion, we have much better ergonomics,” says Tobias Hirsch, who holds the Chair of Plastic Surgery at Münster University.
“This in turn protects us from fatigue, and that means that our concentration can be maintained over a period of many hours. In initial studies involving the systems, before they were used in operations, we were already able to confirm the positive effects on the quality of operations and on ergonomics.”
During training with students and established microsurgeons, the physicians were able to demonstrate that, while using the robotic system, the learning curve, the handling of the instruments, and the ergonomics all demonstrated an improvement over conventional operating techniques.
In the coming weeks and months, Maximilian Kückelhaus and Tobias Hirsch will be performing further operations and, in the process, collect data that they will be evaluating in scientific studies. Important issues to be addressed are, in particular, improvements to the quality of operations and to ergonomics.
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