Since the GUI is based on a touch panel, the focus was the information structure and classification of functions, including the contents of the main and sub-screens. The first step was to examine the information structure. to be observed with greater clarity than with the naked eye.īasically, the design process involved three steps prior to incorporating the GUI. In addition, infrared-equipped systems now allow blood vessels, blood flow, etc. Moreover, 4K-compatible high-resolution systems are making it possible to observe diseased parts in greater detail than with conventional high-definition systems.
It is anticipated that medical procedures such as resecting diseased parts and sealing blood vessels will become increasingly easy to implement thanks these devices. A good example is three-dimensional (3D) endoscopes, which enable doctors easily to grasp conditions inside human bodies by simply viewing images on a monitor. To alleviate burdens on doctors, Olympus is constantly developing and enhancing its products through the use of advanced technologies. However, the procedure requires advanced technical skills and great concentration. In the case of endoscopic surgery, however, a small hole is made in the abdomen, the endoscope is inserted and the surgery is performed while the doctor views a monitor.Įndoscopy has the significant merit of eliminating the need for a large incision, so the recovery time after surgery is faster and the patient can be rehabilitated back into society quickly. It is now possible to use endoscopy for many surgical procedures conventionally performed with laparotomy, where the doctor makes a large incision in the abdomen and then performs the surgery while looking directly at the affected part. Endoscopes have been used increasingly in surgeries in recent years.
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