The aim of this study is to investigate the immediate effects of sole session of foot medial arch' NMES on foot strength, arch stability, static plantar pressure distribution and dynamic postural balance.
The study design is a randomised controlled trial in population with pronated feet. The aim of this study is to investigate the immediate effects of sole session of foot medial arch' NMES on foot strength, arch stability, static plantar pressure distribution and dynamic postural balance. This is the 2nd study to investigate the effect one session as previous study showed immediate effect on plantar pressure distribution on the midfoot and durable effect at 2 months follow-up. However, no studies investigated the effects on others parameters than plantar pressure.The general objective of our study is to question electrical stimulation as a modality for foot strengthening to enhance dynamic postural balance and foot functions.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
48
Neuromuscular Electrical Stimulation (NMES) is a non pharmacological intervention that sends electrical impulses to nerves leading to muscle contraction. The electrical stimulation can increase strength and is often used to re-educate or re-train muscles.
Transcutaneous electrical nerve stimulation (TENS) is a nonpharmacological intervention that activates a complex neuronal network to reduce pain by activating descending inhibitory systems in the central nervous system to reduce hyperalgesia.
La Tour Hospital
Meyrin, Switzerland
Foot strength
The change of foot strength that will be measured on a pressure platform on the dominant foot before and after intervention (NMES or TENS). This primary outcome will be also measured on the non-dominant foot to assess cross effects.
Time frame: Before and immediately after intervention
Dynamic postural balance
The secondary outcomes include the change of dynamic postural balance in the posterior direction on the dominant foot. All measurements will be performed on the non-dominant foot to assess cross effects. To assess dynamic postural balance performance, we will use the Star Excursion Balance Test (SEBT). The star excursion balance test (SEBT) is a measure of dynamic balance with good to excellent test-retest reliability. The test will be conducted in the anterior, posterior-lateral and posterior-medial directions. The SEBT will be performed with the subject standing barefoot so that the distal end of the longest toe of the stance foot will be placed at the center of the grid. They will have to maintain a single-leg stance while reaching with the contralateral leg to touch as far as possible along the direction by a light touch. The reached distances will be normalized to the respective stance-limb length (anterior superior iliac spine to the inferior border of the medial malleolus).
Time frame: Before and immediately after intervention
Arch stability
The secondary outcomes include the change of arch stability on the dominant foot. This measurement will be performed on the non-dominant foot to assess cross effects. The sit-to-stand double-leg navicular drop test will be used to evaluate longitudinal arch stability. Participants will sit on a chair with their hips, knees, and ankles bent to 90° and the feet resting on the floor. The inferior border of the prominent tuberosity of the navicular bone will be palpated and marked with a pen. Next, the distance of the marked navicular point to the ground in a seated position will be measured using a steel ruler (resolution: 0.5 mm). Then, we will ask the subject to stand barefoot on a 4-in (10.16-cm) box, placing all weight on the foot being measured, while the other foot rested lightly on the box. Finally, the difference between the two measures (sitting - standing) will be calculated and defined as navicular drop (ND).
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Time frame: Before and immediately after intervention
Static plantar pressure distribution
The secondary outcomes include the change of arch stability on the dominant foot. In this study the evaluation of the longitudinal arch of the foot will be made with the use of the Zebris FDM-S dynamometric platform. It will describe foot arch assessment based on the AI calculated on the basis of discretized measurements of distribution of forces on the ground, by means of the platform. According to this theory, a static arch pressure index (SAPI) will be measured by utilizing the average/maximal foot pressure distribution during static single leg standing of 30 seconds with their arms along the body while the subject will have one foot on a Zebris platform. Based on distribution of pressure on the entire foot the SAPI will be calculate as the ratio of the midfoot pressure distribution relative to the whole foot pressure distribution excluding the toes.
Time frame: Before and immediately after intervention