Optimization of traditional Chinese medicine rolling manipulation and pressure attenuation.

BACKGROUND Traditional Chinese Medicine (TCM) massage utilizes mechanical force stimulation, and the amount of mechanical force influences therapeutic outcome. This amount is determined by pressure, frequency, and duration; however, there are no standard definitions for these measures. METHODS An orthogonal design was used to evaluate massage efficacy using muscle tension as an index. Pressure (2, 4, 6 kg), duration (5, 10, 15 min), frequency (60, 120, 180 repetitions/min), pain (mild, medium, severe), weight ( 75 kg), and sex (male, female) were evaluated. Additionally, a porcine model of muscle tension was used to construct pressure-time curves for muscle tissues under static and dynamic pressure. RESULTS We identified an interaction among the six massage measures (P<0.05). Of these measures, only two were individually significant: manipulation frequency and patient pain level (P<0.05). Specifically, 120 repetitions/min improved muscle tension significantly more than 60 or 180 repetitions/min (P<0.05), and patients with severe pain had significantly improved muscle tension compared to those with medium or mild pain (P<0.05). In the porcine muscle model, both static and dynamic pressure were attenuated by approximately 12.5% per cm. This attenuation dropped to 10% per cm when the pressure sensor was placed below tissues with different thicknesses instead of being inserted into tissues at different levels. CONCLUSION Manipulation frequency and patient pain level were primarily responsible for the therapeutic effects of TCM massage. Mechanistically, pressure was attenuated by nearly 75% at a depth of 2 cm from the muscle surface during TCM massage.