Do adaptative changes occur in the achilles tendons of endurance runners?

Serra Pol M.; Pons Hernández A.; Barea Vega E.; Gómez Luque M.

doi:10.1055/s-0039-3401865

Revista Fisioterapia Invasiva / Journal of Invasive Techniques in Physical Therapy, Table of Contents

CC BY-NC-ND 4.0 · Revista Fisioterapia Invasiva / Journal of Invasive Techniques in Physical Therapy 2019; 02(02): 083
DOI: 10.1055/s-0039-3401865

Abstract 19

Thieme Revinter Publicações Ltda Rio de Janeiro, Brazil

Do adaptative changes occur in the achilles tendons of endurance runners?

Article in several languages: English | español

Authors

Serra Pol M.

¹Physiotherapist at Fisioplanet. Col n° 726 Illes Balears, Spain
Pons Hernández A.

²Physiotherapist at Fisioplanet. Col n° 943 Illes Balears, Spain
Barea Vega E.

³Physiotherapist at Fisioplanet. Col n° 494 Illes Balears, Spain
Gómez Luque M.

⁴Physiotherapist at Fisioplanet. Col n° 1135 Illles Balears, Spain

Abstract

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Abstract

Introduction and Aim Several studies associate tendinopathies with structural changes in the Achilles tendon (AT). However, few studies have demonstrated whether long distance running training can generate structural changes at the level of the AT. The aim of this study was to determine whether adaptive changes exist, both structural and functional, in the AT of asymptomatic endurance runners with no history of lesions to the AT.

Material and Methods A cross-sectional descriptive study. In total, 14 subjects were selected and divided into two groups of 7 subjects each. The intervention group (IG) comprised all usual runners, running over 60 km per week, with no previous lesion to the AT. The control group (CG) included all active subjects but who did not perform competitive sports nor did they run more than 10 km per week. The ankle dorsal flexion (ADF) of each subject was measured together with the index of reactive force (IRF), and the width of the AT body was measured using ultrasound, together with the level of hypervascularization, the presence of hypoechoic areas and the presence of hyperechoic areas. To measure ADF, the validated measurement was used with the application (App) Dorsiflex for IPhone. To calculate IRF, the validated measure of the Drop Jump, test from the App My Jump 2 was used. The ultrasound assessment was always performed by the same examiner. The ultrasound machine was a General Electric, Logiq V2 model for measuring both feet: the width of the AT body, the degree of hyper vascularization, the presence of hypoechoic areas and the presence of calcifications. The subject was placed in prone, with the foot hanging off the table and the ankle was in 90° flexion. The examiner was placed on the same side as the lower limb examined.

Results The means of the results obtained and p-values of significance were as follows: ADF = 46° CG 43.6° IG (p > 0.005). IRF = 0.92 CG 1.07 IG (p > 0.005) Ultrasound = CG 43% presence of vascularization outside the tendon; IG 83% presence of vascularization outside the tendon.

Conclusions No significant evidence exists to support that the AT in endurance runners without a history of injuries, presents functional adaptations. However, it seems that in endurance runners, there is a greater presence of vessels in Kager's fat pad, although it is necessary to obtain data from a larger population to confirm and establish the possible relationships of these changes.

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