Holoeyes Inc. (Headquarters: Minato-ku, Tokyo; CEO: Maki Sugimoto; hereinafter "Holoeyes") announced today the release of the latest version (Ver. 3.3) of its medical image software "Holoeyes MD". This update newly implements the "Incision Function," which allows users to sculpt and divide 3D models in virtual space and through passthrough in real space. The "Incision Function" supports the confirmation of tumor and critical blood vessel positions, and the simulation of approach methods by performing surgical techniques such as sculpting and dividing actual 3D models of organs and pathologies (※). Furthermore, by adjusting the direction of the light applied to the 3D model, surgical simulations can be performed on the same model under conditions for both endoscopic and open surgery, contributing to more detailed simulations that are more conscious of actual surgical techniques and organ deformation than before. ※This function supports the simulation of organ deformation and surgical procedures based on physician judgment and does not include automatic diagnostic capabilities. Key Points of Ver. 3.3 Update 1. "Incision Function" equipped with "Sculpt" and "Divide" modes, expanding the scope of surgical simulation The "Incision Function," which allows users to sculpt or divide VR models of patient-specific pathologies and standard sample models in the metaverse, is equipped with two modes: "Sculpt" and "Cut." Users can switch between modes according to their purpose and application. "Sculpt" Mode By operating an incision tool (a 3D tool modeled after an electric scalpel) displayed in the metaverse, users can sculpt any part of the 3D model with the tip of the tool. The sculpting width can also be changed; the light blue sphere at the tip of the tool can be adjusted as a guide for the sculpting width. "Sculpt" mode for sculpting 3D models with an incision tool. The light blue sphere at the tip of the incision tool serves as a guide for the sculpting width. "Cut" Mode B