Applications
Translating Scientific Advances into Practical Use
The research conducted within the OxyMove Joint Research Laboratory is designed to be deployed under real-world conditions, in close interaction with athletes and field professionals. By directly measuring muscle oxygenation during exercise, it becomes possible to access physiological information that has, until now, been difficult to observe in applied settings.
Athletic Performance
Injury Prevention
Recovery and Return-to-Play
Performance Optimization
The tools under development within OxyMove aim to enable detailed analysis of muscular responses to different exercise modalities.
In the long term, they may contribute to:
Improving the understanding of individual physiological adaptations
Adjusting training loads more precisely
Structuring personalized training programs based on objective physiological data
Recovery Monitoring
Muscle reoxygenation dynamics represent a key marker of recovery.
The solutions currently under development aim to:
Analyze post-exercise physiological responses
Objectively assess recovery status
Support the planning and periodization of training cycles
Injury Prevention and Return-to-Play
The tools developed within OxyMove are intended to provide physiological indicators that may help:
Identify potential overload situations
Support progressive return-to-activity phases
Provide objective physiological monitoring throughout rehabilitation and return-to-play processes
A Complementary Approach to Existing Tools
The technologies currently being developed within OxyMove are designed to complement existing monitoring systems and integrate naturally with the methods already used by athletes and coaches.
By providing direct measurement of muscle oxygenation and its scientific interpretation, these solutions may enrich:
Data from consumer-grade sensors (heart rate, external load, global activity metrics)
Traditional methods for assessing performance and recovery
Training protocols based on field observation and practitioner expertise
The objective is to add a refined and objectively quantifiable physiological dimension to existing tools and practices, thereby enhancing the understanding of responses to exercise.