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OSSIO
- Greg Berlet
Greg Berlet has over two decades of experience in the medical field. Since July 2021, they have been serving as the Chief Medical Officer at OSSIO, a medical company. Prior to this, they held the position of Managing Partner and Orthopedic Surgeon at the Orthopedic Foot and Ankle Center, where they started in July 1999. Throughout their career, Greg has demonstrated expertise in orthopedic surgery and leadership.
Greg Berlet completed their Bachelor of Science in Biology/Physiology from Western University from 1983 to 1988. After that, they attended the University of Calgary where they obtained their Doctor of Medicine degree in 1992. During the same year, they completed an Orthopedic Surgery Fellowship with the Royal College of Surgeons Canada at Western University. From 1998 to 1999, Berlet pursued a Fellowship in Foot and Ankle Surgery at Carolinas Medical Center. Additionally, they completed a Fellowship in Sports Medicine and Arthroscopy at the University of Toronto, though the specific start and end years are not provided. Berlet also holds a degree in Orthopedic Surgery from Western University, however, the years of completion are unknown.
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OSSIO
OSSIO is an orthopedic fixation company committed to transforming the orthopedic experience for patients, physicians, and payors. Their vision is to provide the first credible replacement to metal implants in the $10B+ orthopedic fixation market (screws, pins, plates) with an Intelligent Bone Regeneration Technology. OSSIOfiber represents abreakthrough material platform for orthopedic and podiatric surgeons who seek a more biologically friendly way to restore patient stability and mobility with nothing permanent left behind.Founded in 2014, OSSIO began as the culmination of years of biomechanical research and a vision for the possibility of better bone healing. The technological basis of OSSIOfiber™ was developed and would lay the groundwork for ushering in a new breakthrough category of non-permanent fixation, “Bio-Integratives” hardware that has both desired strength AND bio-friendliness. Hardware that has the mechanical strength for easy insertion and secure fixation, while enabling the body to regrow bone, incorporating and replacing the implant (without the adverse inflammation and weakness often seen in “bio-resorbables and other “bio-composites”), has remained elusive to the industry until now.
