The purpose of this double-blinded randomized controlled trial was to investigate whether percutaneous electrolysis (PE) is able to activate endogenous pain modulation and whether its effects are dependent on the dosage of the galvanic current. A total of 54 asymptomatic subjects aged 18-40 years were randomized into three groups, receiving a single ultrasound-guided PE intervention that consisted of a needle insertion on the lateral epicondyle tendon: sham (without electrical current), low-intensity (0.3 mA, 90 s), and high-intensity (three pulses of 3 mA, 3 s). Widespread pressure pain thresholds (PPT), conditioned pain modulation (CPM), and temporal summation (TS) were assessed in the elbow, shoulder, and leg before and immediately after the intervention. Both high and low intensity PE protocols produced an increase in PPT in the shoulder compared to sham ( = 0.031 and = 0.027). The sham group presented a significant decrease in the CPM ( = 0.006), and this finding was prevented in PE groups ( = 0.043 and = 0.025). In addition, high-intensity PE decreased TS respect to sham in the elbow ( = 0.047) and both PE groups reduced TS in the leg ( = 0.036 and = 0.020) without significant differences compared to sham ( = 0.512). Consequently, a single PE intervention modulated pain processing in local and widespread areas, implying an endogenous pain modulation. The pain processing effect was independent of the dosage administrated.
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| http://dx.doi.org/10.3390/jcm11102889 | DOI Listing |
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