A mechanistic approach to regenerative healing that moves beyond passive support to active, directed cellular repair and tissue remodeling.
Skeletal muscles are composed of fascicles—bundles of muscle fibers. Within each fiber are thousands of thread-like myofibrils, which are chains of repeating units called sarcomeres.
Strenuous exercise causes microscopic damage, pulling apart myofibrils and triggering a powerful inflammatory response that can persist for days.
Microscopic fiber damage, initial inflammatory markers released, muscle proteins begin to leak.
Neutrophil recruitment, pro-inflammatory mediators amplify response, tissue swelling begins.
Serotonin and histamine accumulation, nociceptor stimulation, peak DOMS symptoms manifest.
Gradual inflammatory resolution, tissue repair initiation, function slowly returns.
Our bioelectric intervention targets key points in the healing cascade to optimize and direct the body's natural repair mechanisms.
Restore transepithelial potential within minutes, establishing optimal bioelectric environment for cellular repair.
Modulate inflammatory mediators to reduce excessive swelling while maintaining beneficial healing responses.
Target ion channels and nociceptive pathways to provide rapid, non-pharmacological pain relief.
Guide regenerative cells to injury sites through galvanotaxis, accelerating tissue remodeling and repair.
Rigorous clinical studies demonstrate the efficacy of bioelectric therapy in accelerating healing and improving patient outcomes.
Request a clinical demo to see how Cytomotion™ can integrate into your practice and revolutionize your approach to healing.