The Future of Biomechanics
Following UCL surgery, the biggest problem every athlete faces is uncertainty…
Following UCL surgery, the biggest problem every athlete faces is uncertainty…
At Ortheon Orthopedics we aim to provide patients and physicians with a data-driven understanding of an athlete’s recovery post-operatively. Our mission is to create technology that helps protect athletes, improve surgical outcomes, and redefine how athletic performance is measured.
At Ortheon Orthopedics we aim to provide patients and physicians with a data-driven understanding of an athlete’s recovery post-operatively. Our mission is to create technology that helps protect athletes, improve surgical outcomes, and redefine how athletic performance is measured.
Our Solution
AI-Powered Technology
Utilizing advanced predictive analytics and real-time biomechanical data, athletes will be provided with an individualized maximum pitch count designed to minimize postoperative stress on the ligament and reduce the risk of reinjury.
AI-Powered Technology
Utilizing advanced predictive analytics and real-time biomechanical data, athletes will be provided with an individualized maximum pitch count designed to minimize postoperative stress on the ligament and reduce the risk of reinjury.
App Communication
Streamline transfer of data to the athlete’s companion device to allow for real-time ligament health monitoring, workload analysis, and AI-driven recommendations designed to optimize performance while reducing the risk of overuse injury.
App Communication
Streamline transfer of data to the athlete’s companion device to allow for real-time ligament health monitoring, workload analysis, and AI-driven recommendations designed to optimize performance while reducing the risk of overuse injury.
Real-Time Diagnostics
The athlete will receive real-time stress and fatigue measurements, allowing for a more precise assessment of postoperative ligament health and recovery progression.
Real-Time Diagnostics
The athlete will receive real-time stress and fatigue measurements, allowing for a more precise assessment of postoperative ligament health and recovery progression.
Precise Measurements
Our micro-strain-gauge load cell is capable of measuring tensile forces between 0 and 500 N and torque forces between 0 and 200 Nm with ± 2% accuracy.
Precise Measurements
Our micro-strain-gauge load cell is capable of measuring tensile forces between 0 and 500 N and torque forces between 0 and 200 Nm with ± 2% accuracy.