Clinical improvements are not explained by changes in tendon structure on ultrasound tissue characterization after an exercise program for patellar tendinopathy
- Authors: van Ark, Mathijs , Rio, Ebonie , Cook, Jill , van den Akker-Scheek, Inge , Gaida, James , Zwerver, Johannes , Docking, Sean
- Date: 2018
- Type: Text , Journal article
- Relation: American Journal of Physical Medicine & Rehabilitation Vol. 97, no. 10 (2018), p. 708-714
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- Description: Objectives The aim of this study was to investigate the effects of a 4-wk in-season exercise program of isometric or isotonic exercises on tendon structure and dimensions as quantified by ultrasound tissue characterization (UTC). Design This was a randomized clinical trial. Volleyball and basketball players (16-31 yrs, n = 29) with clinically diagnosed patellar tendinopathy were randomized to a 4-wk isometric or isotonic exercise program. The programs were designed to decrease patellar tendon pain. A baseline and 4-wk UTC scan was used to evaluate change in tendon structure. Results No significant change in tendon structure or dimensions on UTC was detected after the exercise program despite patellar tendinopathy symptoms improving. The percentage and mean cross-sectional area of aligned fibrillar structure (echo types I + II) (Z = -0.414, P = 0.679) as well as disorganized structure (echo types III + IV) (Z = -0.370, P = 0.711) did not change over the 4-wk exercise program. Change in tendon structure and dimensions on UTC did not differ significantly between the groups. Conclusion Structural properties and dimensions of the patellar tendon on UTC did not change after a 4-wk isometric or isotonic exercise program for athletes with patellar tendinopathy in-season, despite an improvement in symptoms. It seems that structural improvements are not required for a positive clinical outcome.
A new way of categorising recurrent, repeat and multiple sports injuries for injury incidence studies - the subsequent injury categorisation (SIC) model
- Authors: Finch, Caroline , Cook, Jill , Gabbe, Belinda , Orchard, John
- Date: 2015
- Type: Text , Journal article
- Relation: Australasian Epidemiologist Vol. 22, no. 1 (2015), p. 22-25
- Relation: http://purl.org/au-research/grants/nhmrc/1058737
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- Description: Injuries are a major contributor to healthcare costs and individuals' health and disability status. In response to the overall public health burden, injuries were one of the first medical conditions identified as an Australian National Health Priority Area. Our previous epidemiological research has shown that sports injuries, especially those sustained through formal and highly competitive sport, are often associated with considerable pain and dysfunction. They have significant ongoing impact on quality of life and need for medical treatment, including in the hospital setting.They are also a major barrier towards both the uptake and continuance of health-generating physical activity guidance.
Does type 1 diabetes mellitus affect Achilles tendon response to a 10 km run? A case control study
- Authors: Wong, Andrea , Docking, Sean , Cook, Jill , Gaida, Jamie
- Date: 2015
- Type: Text , Journal article
- Relation: Bmc Musculoskeletal Disorders Vol. 16, no. (2015), p. 1-7
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- Description: Background: Achilles tendon structure deteriorates 2-days after maximal loading in elite athletes. The load-response behaviour of tendons may be altered in type 1 diabetes mellitus (T1DM) as hyperglycaemia accelerates collagen cross-linking. This study compared Achilles tendon load-response in participants with T1DM and controls. Methods: Achilles tendon structure was quantified at day-0, day-2 and day-4 after a 10 km run. Ultrasound tissue characterisation (UTC) measures tendon structural integrity by classifying pixels as echo-type I, II, III or IV. Echo-type I has the most aligned collagen fibrils and IV has the least. Results: Participants were 7 individuals with T1DM and 10 controls. All regularly ran distances greater than 5 km and VISA-A scores indicated good tendon function (T1DM = 94 +/- 11, control = 94 +/- 10). There were no diabetic complications and HbA1c was 8.7 +/- 2.6 mmol/mol for T1DM and 5.3 +/- 0.4 mmol/mol for control groups. Baseline tendon structure was similar in T1DM and control groups -UTC echo-types (I-IV) and anterior-posterior thickness were all p > 0.05. No response to load was seen in either T1DM or control group over the 4-days post exercise. Conclusion: Active individuals with T1DM do not have a heightened Achilles tendon response to load, which suggests no increased risk of tendon injury. We cannot extrapolate these findings to sedentary individuals with T1DM.
Patellar tendinopathy : Clinical diagnosis, load management, and advice for challenging case presentations
- Authors: Malliaras, Peter , Cook, Jill , Purdam, Craig , Rio, Ebonie
- Date: 2015
- Type: Text , Journal article
- Relation: Journal of Orthopaedic & Sports Physical Therapy Vol. 45, no. 11 (2015), p. 887-898
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- Description: The hallmark features of patellar tendinopathy are (1) pain localized to the inferior pole of the patella and (2) load-related pain that increases with the demand on the knee extensors, notably in activities that store and release energy in the patellar tendon. While imaging may assist in differential diagnosis, the diagnosis of patellar tendinopathy remains clinical, as asymptomatic tendon pathology may exist in people who have pain from other anterior knee sources. A thorough examination is required to diagnose patellar tendinopathy and contributing factors. Management of patellar tendinopathy should focus on progressively developing load tolerance of the tendon, the musculoskeletal unit, and the kinetic chain, as well as addressing key biomechanical and other risk factors. Rehabilitation can be slow and sometimes frustrating. This review aims to assist clinicians with key concepts related to examination, diagnosis, and management of patellar tendinopathy. Difficult clinical presentations (eg, highly irritable tendon, systemic comorbidities) as well as common pitfalls, such as unrealistic rehabilitation time frames and overreliance on passive treatments, are also discussed.
Plantaris excision and ventral paratendinous scraping for achilles tendinopathy in an athletic population
- Authors: Bedi, Harvinder , Jowett, Charlie , Ristanis, Stavros , Docking, Sean , Cook, Jill
- Date: 2015
- Type: Text , Journal article
- Relation: Foot & Ankle International Vol. 37, no. 4 (2016), p. 386-393
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- Description: Background:Achilles tendinopathy is a frequent problem in high-level athletes. Recent research has proposed a combined etiologic role for the plantaris tendon and neovascularization. Both pathologies can be observed on ultrasound imaging.1,13 However, little is known about the change in structure of the Achilles tendon following the surgical treatment of these issues. The purpose of the study was to assess if excising the plantaris and performing ventral paratendinous ?scraping? of the neovascularization improved symptoms of Achilles tendinopathy and whether there was a change in the fibrillar structure of the tendon with ultrasound tissue characterization (UTC) following this operation.Methods:This prospective consecutive case series included 15 professional/semiprofessional athletes (17 Achilles tendons) who underwent plantaris excision and paratendinous scraping to treat noninsertional Achilles tendinopathy. The plantaris tendon was excised if adherent to the Achilles tendon, and the area of neovascularization for scraping was demarcated on preoperative imaging. Preoperative and postoperative Victorian Institute of Sports Assessment-Achilles (VISA-A) scores were taken. UTC was performed on 11 of 17 tendons preoperatively and postoperatively. The mean follow-up was for 25 months.Results:Fourteen of 15 patients had a successful outcome after the surgery. The mean VISA-A improved from 51 to 95 (p=.0001). There was a statistically significant (p=.04) improvement in the aligned fibrillar structure of the tendon confirmed with UTC scanning following surgery from 90% (±8) to 96% (±5).Conclusion:This group of high-level athletes derived an excellent clinical result from this operation. Furthermore, UTC scanning offered an objective method to evaluate the healing of Achilles tendons.Level of Evidence:Level IV, case series.