Location History:
- Chofu, JP (2013)
- Tokyo, JP (2016)
Company Filing History:
Years Active: 2013-2016
Title: Innovations by Kan Naito: A Focus on Bone Fixation Devices
Introduction
Kan Naito, a talented inventor based in Tokyo, Japan, has made significant contributions in the field of medical devices. With a total of two patents to his name, Naito is known for his inventive approach towards improving surgical techniques, particularly those involving bone fixation.
Latest Patents
Among his latest innovations is a securing device designed to secure fixation devices to bone portions, which is essential for promoting healing between two bone segments. This invention is particularly useful in cranial procedures where a fixation device, such as a cranial clamp, is typically employed. The securing device simplifies the process by allowing for a uniform, single movement to secure the fixation device, a significant advancement over currently available products. The design features two pivotably connected handles and a gripping mechanism associated with one handle. When activated, the gripping means travels along the handle to grip an elongated section of the fixation device, exerting tension prior to cutting the elongated shaft, ensuring secure placement of the fixation device.
Career Highlights
Kan Naito is currently associated with DePuy Synthes Products, Inc., where he continues to advance medical technologies through his innovative designs. His work demonstrates a commitment to enhancing surgical procedures and improving patient outcomes.
Collaborations
Throughout his career, Naito has collaborated with notable industry colleagues, including Robert J. Schoutens and Ulrich Engenhardt. These partnerships have fostered a collaborative environment conducive to innovation and have contributed to the successful development of his patents.
Conclusion
In summary, Kan Naito's contributions to the field of medical devices, particularly through his securing device for bone fixation, highlight the importance of innovation in surgical practices. His work not only improves existing methodologies but also sets the stage for future advancements in medical technology.