Achilles tendon tears are the most common ankle tendon injuries, and are most commonly seen secondary to sports-related injury, especially squash and basketball.
There is strong male over-representation presumably as a result of the predominantly sport related etiology. Patients are typically aged 30-50 years and have no antecedent history of calf or heel pain.There are however numerous recognized predisposing factors including:
- intratendinous steroid injection
- diabetes mellitus
- systemic inflammatory illnesses
- repeated microtrauma
- fluoroquinolone antibiotics
- ochronosis 4
Typically patients present with sudden onset of pain and swelling in the Achilles region, often accompanied by an audible snap during forceful dorsiflexion of the foot. A classic example is that of an unfit 'weekend warrior' playing squash.
If complete a defect may be felt and the patient will have only minimal plantar flexion against resistance.
The spectrum of tears ranges from microtears to interstitial tears (parallel to the long axis of the Achilles), to partial tears, and eventually to complete tears.
Tears can be acute or chronic, with repeated minor trauma. At the mildest end of the spectrum all that may be present is peritendonitis.
Typically, in a young 'normal' individual, the Achilles tendon ruptures in the 'critical zone', which is a region of relative watershed hypovascularity 2-6 cm proximal to insertion.
The Achilles tendon tear classification is primarily based on the degree of retraction.
Plain radiographs may show soft tissue swelling and obliteration of pre-Achilles fat pad (Kager's triangle).
For partial thickness tears
- there is often enlargement of the tendon ( >1 cm) with abnormally hypoechoic or anechoic areas within which correspond to the tear and associated adjacent tendinosis
For full thickness tears
- often shows separation of the torn ends with a contour change of the tendon
- there is acoustic shadowing at the margins of the tear from sound beam refraction, and adjacent hypoechoic tendinosis
Appearances can vary:
- a full-thickness tear often shows a tendinous gap filled with edema or blood
- complete rupture shows retraction of tendon ends
- T2: partial thickness or interstitial tears may show high signal on long TR, and tendon swelling to >7 mm AP
- post-operative MR imaging may show a tendon gap although this tends to resolve in around 12 weeks 8
- post-operatively, Achilles tendon may appear thicker on MR follow up 9
Treatment and prognosis
Treatment depends on the extent of the tear. Partial thickness tears can initially be treated conservatively, with surgery reserved for failure of conservative management, on in some cases for high-performance athletes. Full-thickness tears are normally surgically repaired. If the patient is not deemed suitable for surgical repair (frail, ill, etc.) casting of the ankle in the talipes equinus position may be an alternative.
Surgical repair results in a shorter Achilles tendon and better greater calf muscle strength (less soleus atrophy) than non-surgical treatment 10.
History and etymology
A true rupture of the Achilles tendon was first described by Ambroise Pare in 1575 and first reported in the medical literature in 1633 3.
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- 2. Hartgerink P, Fessell DP, Jacobson JA et-al. Full- versus partial-thickness Achilles tendon tears: sonographic accuracy and characterization in 26 cases with surgical correlation. Radiology. 2001;220 (2): 406-12. Radiology (full text) - Pubmed citation
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- 8. Fujikawa A, Kyoto Y, Kawaguchi M et-al. Achilles tendon after percutaneous surgical repair: serial MRI observation of uncomplicated healing. AJR Am J Roentgenol. 2007;189 (5): 1169-74. doi:10.2214/AJR.07.2260 - Pubmed citation
- 9. Maffulli N, Thorpe AP, Smith EW. Magnetic resonance imaging after operative repair of achilles tendon rupture. Scand J Med Sci Sports. 2001;11 (3): 156-62. Pubmed citation
- 10. Heikkinen J, Lantto I, Flinkkila T, Ohtonen P, Niinimaki J, Siira P, Laine V, Leppilahti J. Soleus Atrophy Is Common After the Nonsurgical Treatment of Acute Achilles Tendon Ruptures: A Randomized Clinical Trial Comparing Surgical and Nonsurgical Functional Treatments. (2017) The American journal of sports medicine. 45 (6): 1395-1404. doi:10.1177/0363546517694610 - Pubmed
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