Mechanomodulation: Physical Treatment Modalities Employ Mechanotransduction to Improve Scarring.

Abstract

Every year, surgical interventions, traumatic wounds, and burn injuries lead to over 80 million scars. These scars often lead to compromised skin function and can result in devastating disfigurement, permanent functional loss, psychosocial problems, and growth retardation. Today, a wide variety of nonsurgical scar management options exist, with only few of them being substantiated by evidence. The working mechanisms of physical anti-scarring modalities remained unclear for many years. Recent evidence underpinned the important role of mechanical forces in scar remodeling, especially the balance between matrix stiffness and cytoskeleton pre-stress. This perspective article aims to translate research findings at the cellular and molecular levels into working mechanisms of physical anti-scarring interventions. Mechanomodulation of scars applied with the right amplitude, frequency, and duration induces ECM remodeling and restores the 'tensile' homeostasis. Depending on the scar characteristics, specific (combinations of) non-invasive physical scar treatments are possible. Future studies should be aimed at investigating the dose-dependent effects of physical scar management to define proper guidelines for these interventions.