Electromyography comparison of the effects of various footwear in the activity patterns of the peroneus longus and brevis muscles.

BACKGROUND Peroneus longus and brevis (PLB) disorders are commonly in people with lateral ligamentous instability, ankle pain, lateral hindfoot pain and structures of the proximal compartment of the lower legs and their muscle activity is believed to be influenced by different footwear types. The proposal of this research is to evaluate the effects of five types of footwear with respect to the barefoot condition and analyze the activity patterns of PLB muscles in healthy subjects during the gait cycle. METHODS Thirty healthy subjects were recruited in a laboratory in this cross-sectional research design. While walking, electromyography (EMG) activity was measured from PLB via surface electrodes in six experimental conditions: 1) barefoot, 2) minimalist, 3) pronated control, 4) air chamber, 5) ethyl-vinyl-acetate (EVA) and 6) boost. These data were obtained and compared. RESULTS The peroneus brevis showed significant reductions in the peak amplitude of the five footwear types (minimalist, pronation control, air chamber, EVA and boost) with respect to the barefoot condition in the propulsion phase of the gait cycle during walking (P = 0.034; P < 0.001; P < 0.001; P < 0.001; P = 0.006) and running (P = 0.004; P < 0.001; P = 0.001; P < 0.001; P = 0.001), respectively. Furthermore, peroneus longus showed significant reductions in the peak amplitude of these five footwear types with respect to the barefoot condition in the propulsion phase of the gait cycle during running (P = 0.005; P = 0.038; P = 0.019; P = 0.025; P = 0.021). CONCLUSION The EMG activity patterns of the PLB muscles may depend on the use of different types of sport shoes such as minimalist, pronation control, air chamber, EVA and boost footwear with respect the barefoot condition in different phases of the gait cycle during walking and running.

[1]  D. López-López,et al.  Electromiography comparison of distal and proximal lower limb muscle activity patterns during external perturbation in subjects with and without functional ankle instability. , 2017, Human movement science.

[2]  G. Ng,et al.  Effects of motion control footwear on running: A systematic review , 2011, Journal of sports sciences.

[3]  Z. Rosenberg,et al.  Normal variants and diseases of the peroneal tendons and superior peroneal retinaculum: MR imaging features. , 2005, Radiographics : a review publication of the Radiological Society of North America, Inc.

[4]  The influence of footwear on the electromyographic activity of selected lower limb muscles during walking. , 2012, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[5]  P. O'Donnell,et al.  Peroneal tendon disorders , 2017, EFORT open reviews.

[6]  Jack Crosbie,et al.  Development and validation of a novel rating system for scoring standing foot posture: the Foot Posture Index. , 2006, Clinical biomechanics.

[7]  D. R. Sanz,et al.  Ultrasonography Comparison of Peroneus Muscle Cross-sectional Area in Subjects With or Without Lateral Ankle Sprains. , 2016, Journal of manipulative and physiological therapeutics.

[8]  E. Giza,et al.  Peroneal Tendon Disorders. , 2015, Clinics in sports medicine.

[9]  G. Sammarco Peroneus Longus Tendon Tears: Acute and Chronic , 1995, Foot & ankle international.

[10]  L. Didomenico,et al.  Longitudinal tears of both peroneal tendons associated with tophaceous gouty infiltration. A case report. , 2005, The Journal of foot and ankle surgery : official publication of the American College of Foot and Ankle Surgeons.

[11]  E. Selmani,et al.  Current Concepts Review: Peroneal Tendon Disorders , 2006, Foot & ankle international.

[12]  H. K. Slater Acute peroneal tendon tears. , 2007, Foot and ankle clinics.

[13]  Joseph Hamill,et al.  Interaction of Arch Type and Footwear on Running Mechanics , 2006, The American journal of sports medicine.

[14]  G. Murley,et al.  The effect of three levels of foot orthotic wedging on the surface electromyographic activity of selected lower limb muscles during gait. , 2006, Clinical biomechanics.

[15]  Yo Shih,et al.  Is the foot striking pattern more important than barefoot or shod conditions in running? , 2013, Gait & posture.

[16]  Ronald W. Smith,et al.  Characterization of Patients with Primary Peroneus Longus Tendinopathy: a Review of Twenty-Two Cases , 2000, Foot & ankle international.

[17]  Joseph Hamill,et al.  Effect of footwear on high and low arched runners' mechanics during a prolonged run. , 2007, Gait & posture.

[18]  D R Carrier,et al.  The influence of foot posture on the cost of transport in humans , 2010, Journal of Experimental Biology.

[19]  N Fleming,et al.  Acute response to barefoot running in habitually shod males. , 2015, Human movement science.

[20]  M. Williams,et al.  Reliability of the foot posture index and traditional measures of foot position. , 2003, Journal of the American Podiatric Medical Association.

[21]  J. Perry,et al.  Valgus deformities of the feet and characteristics of gait in patients who have rheumatoid arthritis. , 1991, The Journal of bone and joint surgery. American volume.

[22]  K. Klos,et al.  [Injuries of the peroneal tendons : Often overlooked]. , 2017, Der Unfallchirurg.

[23]  Richard M. Smith,et al.  The effect of sports shoe design on lower limb function in a neutral foot type , 2011, Journal of Foot and Ankle Research.

[24]  J. Kane,et al.  Acute Peroneal Injury. , 2017, Foot and ankle clinics.