Exploring Intensity-Dependent Echogenic Response to Percutaneous Electrolysis in Tendon Tissue: A Cadaveric Study
Miguel Malo-Urriés, Jacobo Rodríguez-Sanz, Sergio Borrella-Andrés, Isabel Albarova-Corral, Juan Carlos Martínez-Zamorano, Carlos López-de-Celis

TL;DR
This study examines how different current intensities affect ultrasound-visible changes in cadaveric tendon tissue during percutaneous electrolysis.
Contribution
The study introduces a novel intensity-dependent echogenic response model for percutaneous electrolysis in tendon tissue.
Findings
Low current intensities (0–2 mA) caused minimal echogenic changes in tendon tissue.
Current intensities between 2 and 6 mA induced a progressive echogenic response.
The Electrolysis_UZ_Dose variable showed a strong correlation (R2 = 0.732) with applied intensity.
Abstract
Background: Percutaneous electrolysis (PE) is an emerging therapeutic approach for tendinopathies, applying a galvanic current through a dry-needling needle to induce regenerative tissue responses. However, current dosing strategies are often empirical and lack objective physiological feedback. Objective: This study aimed to evaluate the echogenic effects of different galvanic current intensities on cadaveric tendon tissue using quantitative ultrasound. Methods: An ex vivo study was conducted on 29 cadaveric patellar tendon samples, each exposed to a single intensity (0–10 mA for 1 s). Quantitative ultrasound analysis was performed post-intervention, and echogenic variables were extracted using UZ eDosifier software. A composite variable, Electrolysis_UZ_Dose, was created via multiple regression to capture the overall ultrasound-visible changes. Data were analyzed using correlation,…
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Taxonomy
TopicsTendon Structure and Treatment · Orthopedic Surgery and Rehabilitation · Sports injuries and prevention
