This study investigates the immediate effects of different peripheral electrical nerve stimulation protocols applied to the femoral nerve on quadriceps strength in athletes with patellar tendinopathy. Patellar tendinopathy is a common overuse injury that often reduces quadriceps activation and limits sports performance. Peripheral percutaneous nerve stimulation (PPNS) and transcutaneous electrical nerve stimulation (TENS) are frequently used in rehabilitation, but their frequency-dependent effects on muscle strength are not well established. In this randomized crossover trial, each participant receives three stimulation protocols in separate sessions: high-frequency PPNS (100 Hz), low-frequency PPNS (2 Hz), and conventional TENS. All stimulation is delivered at the maximal tolerated motor threshold and, for PPNS conditions, under ultrasound guidance. Quadriceps maximal isometric strength is evaluated using an isometric force sensor before and after each intervention. The primary objective is to compare the acute changes in maximal voluntary contraction (MVC) following each stimulation protocol. The study aims to clarify whether different stimulation frequencies can enhance, reduce, or have no effect on quadriceps strength in this athletic population. By identifying frequency-specific neuromodulatory responses, this study may help clinicians and sports practitioners select the most appropriate stimulation parameters to optimize rehabilitation and performance in individuals with patellar tendinopathy.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
19
All electrical stimulation procedures are performed under real-time ultrasound guidance to accurately locate the femoral nerve and ensure safe and consistent electrode placement. For the percutaneous interventions (PPNS), a sterile needle electrode is inserted adjacent to the femoral nerve and stimulation is delivered at either high frequency (100 Hz) or low frequency (2 Hz), depending on the study arm. For the transcutaneous intervention (TENS), surface electrodes are positioned over the femoral nerve region using ultrasound guidance to confirm anatomical landmarks and optimize current delivery. In all conditions, stimulation is applied at the maximal tolerated motor threshold to elicit visible quadriceps activation.
Blanquerna University
Barcelona, Barcelona, Spain
RECRUITINGChange in Quadriceps Maximal Isometric Voluntary Contraction (MVC)
Quadriceps maximal isometric voluntary contraction (MVC) is measured using a calibrated isometric force sensor with the participant seated and the knee positioned at 60° of flexion. MVC is recorded as the peak force output during a standardized 5-second maximal contraction. The primary endpoint is the change in MVC from pre-intervention to immediately post-intervention across the three stimulation conditions (high-frequency PPNS, low-frequency PPNS, and TENS). Higher values indicate greater quadriceps force production.
Time frame: Baseline (pre-intervention), and at 2 minutes, 10 minutes, 15 minutes, and 30 minutes post-intervention.
Change in Quadriceps Rate of Force Development (RFD 0-250 ms)
Quadriceps rate of force development (RFD) in the early phase of contraction (0-250 ms) is calculated from the force-time curve obtained during maximal isometric voluntary contractions using a calibrated isometric force sensor. RFD 0-250 ms reflects the participant's ability to rapidly generate force and is derived as the slope of the force increase within the first 250 milliseconds. The outcome measure is the change in RFD between baseline and the post-intervention time points across the three stimulation conditions (high-frequency PPNS, low-frequency PPNS, and TENS).
Time frame: Baseline (pre-intervention), and at 2 minutes, 10 minutes, 15 minutes, and 30 minutes post-intervention.
Change in Quadriceps Impulse (0-250 ms)
Quadriceps impulse (0-250 ms) is calculated as the integrated area under the force-time curve during the first 250 milliseconds of a maximal isometric voluntary contraction, recorded using a calibrated isometric force sensor. This metric reflects the combined ability to rapidly generate and sustain force during the early phase of contraction. The outcome measure is the change in impulse between baseline and post-intervention assessments across the three stimulation conditions (high-frequency PPNS, low-frequency PPNS, and TENS).
Time frame: Baseline (pre-intervention), and at 2 minutes, 10 minutes, 15 minutes, and 30 minutes post-intervention.
Incidence of Adverse Events Assessed Through Post-Intervention Questionnaires
Adverse events related to the stimulation procedures are assessed using a standardized post-intervention questionnaire completed immediately after each stimulation session. Participants are asked to report the presence and severity of any undesirable effects, including discomfort, pain, bleeding, bruising, transient paresthesia, dizziness, or any unexpected symptoms. All adverse events are recorded, categorized by type and severity, and evaluated for their potential relationship to the intervention (high-frequency PPNS, low-frequency PPNS, or TENS). No serious adverse events are anticipated due to the low-risk nature of the procedures.
Time frame: Immediately after each intervention session.
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