Arthrex, a Florida-based medical device company specialising in minimally invasive surgical technology, has announced the release of the Synergy Power system, a new battery-powered toolset aimed at orthopaedic surgical procedures.
The system includes two main components: the dual trigger rotary drill and the sagittal saw, both designed to enhance precision and flexibility for surgical teams.
According to Arthrex, the dual trigger rotary drill incorporates a twist mechanism that allows quick attachment changes using an accessible collet ring. This design feature facilitates efficient procedural transitions by enabling straightforward attachment removal and connection.
The sagittal saw is equipped with an open hub, which simplifies cleaning and enhances visualisation, supporting sterile processing and ensuring secure blade placement in the operating room.
Arthrex resection and fluid management senior director Michael Cottle said: “The Synergy Power system offers a comprehensive selection of attachments and blades to facilitate the system’s use across orthopaedics, including sports, arthroplasty, trauma and distal extremities procedures.
“We are excited to introduce this innovative system to health care professionals as we continue to advance our mission of Helping Surgeons Treat Their Patients Better.”
Manufactured in South Carolina at Arthrex Manufacturing Inc. South Carolina (AMISC), the components of the Synergy Power system are assembled in the US. Most of these parts are said to be important components for the drill and saw handpieces.
Additionally, AMISC plays a role in assembling a range of finished goods across three key areas, including the dual trigger rotary drill, sagittal saw, and different attachments.
The facility also produces batteries in various sizes to meet different procedural requirements.
Headquartered in Naples, Arthrex focuses on minimally invasive surgery across multiple medical specialties, developing various products each year. The company’s contributions include advancements in arthroscopy and surgical visualisation technology.
