Background: Adequate muscle perfusion, particularly at the level of muscle microcirculation (MM), is essential for muscle function, recovery, and tissue health. Percussive therapy (PT) is increasingly used to support recovery and injury prevention and has shown consistent benefits for range of motion and perceived recovery. However, the underlying physiological mechanisms remain insufficiently understood, and evidence regarding its effects on MM is limited. This study investigated the acute effect of a single PT session on MM and muscle oxygen saturation (SmO2). Methods: Twenty-two healthy volunteers (24.2 ± 3.0 years) underwent a single PT application (two or four minutes) to the thigh using a handheld percussive device. MM, SmO2, and the perceived somatosensory sensation (PSS) were assessed at baseline and at five-minute intervals up to 40 min post-application. Data were analyzed using linear mixed models adjusted for age, lower-body fat percentage, and intervention duration. Results: A significant main effect of time was found for both MM and SmO2. MM increased significantly compared to baseline from 5 to 15 min post-application (all p < 0.001), while SmO2 increased immediately after PT and remained elevated throughout the 40-min observation period (all p < 0.001). PSS increased significantly during the first 20 min (all p < 0.02) before returning to baseline. Conclusions: A single PT application was associated with transient increases in MM and sustained elevations in SmO2, along with associated subjective sensations. These time-associated changes suggest that PT may enhance local muscle perfusion and therefore contribute to the understanding of its physiological mechanisms.
Wellauer et al. (Tue,) studied this question.