Patellar tendinopathy: looking outside the tendon...

Ebonie Rio, Dawson Kidgell, G Lorimer Moseley, J. Cook

Research output: Contribution to journalMeeting AbstractOtherpeer-review

Abstract

Introduction: Musculoskeletal pain (MSK) is known to cause neuroplasticity and changes to muscle representation and motor control. 1 Patellar tendinopathy (PT) is a MSK pain that can persist for many years and causes dysfunction in the patellar tendon. Local tissue changes fail to explain tendon pain because pathology may or may not cause pain. Importantly, it is not known how the central nervous system modulates or interprets tendon pain and whether it is similar to other chronic/persistent pain conditions. Corticospinal excitability is an important determinant for muscle function and differences between healthy and tendinopathic participants may correlate with altered muscle function associated with tendinopathy. The corticospinal changes in people with tendon pathology and no pain may contribute to our understanding of the “chicken or the egg” in pathology and pain. This study investigated whether there were corticospinal excitability differences between people with and without tendon pain and tendon pathology. Methods: Thirty jumping athletes (n = 6 women, n = 24 men) aged over 18 years with and without PT participated in the study. PT was diagnosed clinically. Ultrasound was used to assess for the presence of tendon abnormality. Objective measures of SLDS pain (numerical rating score out of ten) and maximal voluntary isometric leg extension torque were recorded. The VISA-P questionnaire was administered. Single pulse transcranial magnetic stimulation (TMS) was applied over the motor area projecting to the quadriceps muscle group to obtain measures of corticospinal excitability. Surface EMG was placed on the rectus femoris muscle to record the motor evoke potentials (MEP). Stimulus-response curves were obtained and the slope and peak values were used to establish the strength of projection. Results of tendinopathic and healthy individuals were compared. Within participant analysis was conducted to investigate the cortical changes associated with either unilateral or bilateral pain. People with tendon pathology were analysed separately to controls to determine the effect of pathology on corticospinal excitability. Results: Pilot data only (n = 11) is provided at this time with a full data set currently being analysed (n = 30). The mean VISA-P was 97.5 for healthy (n = 4) and 57.75 for people with PT (n = 7). The mean SLDS was 7.5/10 for people with PT. PT increased cortical excitability, evidenced by a steeper slope in the stimulus response curve of people with PT compared with healthy people (p = 0.029, Cohen’s d = 3.08). Figure 1 shows an example of a control participant and a participant with PT. The x axis is the percentage stimulator output. These changes were positively related to symptom duration (r2= 0.57) – the longer the duration of symptoms, the more pronounced the increase in cortical excitability. Discussion: People with PT have increased corticospinal excitability affecting motor control. Differences identified indicate that symptom duration impacts cortical excitability. It may be important to measure and consider these cortical changes in the rehabilitation of people with PT.
Original languageEnglish
Pages (from-to)A57-A57
Number of pages1
JournalBritish Journal of Sports Medicine
Volume48
Issue numberS2
DOIs
Publication statusPublished - Sep 2014
EventInternational Scientific Tendinopathy Symposium 2014 - St Hilda’s College, University of Oxford, Oxford, United Kingdom
Duration: 5 Sep 20146 Sep 2014
Conference number: 3rd

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