Achilles Tendinopathy Case Study

Modified: 8th Feb 2020
Wordcount: 3880 words

Disclaimer: This is an example of a student written essay. Click here for sample essays written by our professional writers.
This essay may contain factual inaccuracies or out of date material. Please refer to an authoritative source if you require up-to-date information on any health or medical issue.

Cite This

Case Study: Subjective and Physical Assessment

Case Study

A sports technician has presented with 2 dissimilar pains in their right ankle, 3-weeks ago after increasing training from inconsistent cross-fit and swimming sessions to their current routine; two CrossFit sessions, two 60-minute boxing sessions and three 20-minute jogs. Pain 1 is a localised, sharp pain with a VAS of 7/10, occurring immediately through running, jumping or stair walking. This subsides immediately into pain 2; a dull ache with a VAS of 4/10, easing after 90-mins with rest and ice. Stiffness within ankle felt during the morning but sore in the evening. Ibuprofen is taken to deal with the pain. The first 2-weeks; calf tightness was felt and managed through stretching and foam rolling. A week ago, Pain 2 was felt after a 50-min trail run. The client felt stiffness the following day and completed a cross-fit session with intermittent pain 1 and calf tightness throughout session.

The medical history provides 3 previous injuries. Firstly, recurrent right ankle sprains, last occurring one year ago and completing no rehabilitation or treatment. Secondly, a right fibula stress fracture suffered 2 years ago, obtaining no medical advice, only to rest before returning to training. Thirdly, intermittent lower back pain experienced for 3 years.

Clinical Pattern

Within the subjective assessment, the medical history and modified training workload lead to a primary hypothesis of Achilles tendinopathy. The main stimulus as high repetitive stress or load placing the tendon beyond its physiological tolerance, causing degeneration or micro-injuries with reduced performance due to pain or swelling (Van Sterkenburg & Van Dijk, 2011). This occurs during activities requiring the stretch shortening cycle such as running and jumping, activities included within the patients training (Kountaris & Cook, 2007; Cook & Purdam, 2009). Factors such as; training errors, previous injury, gastrocnemius–soleus dysfunction, muscle weakness or lower limb misalignment are associated with Achilles tendinopathy (Azevedo, Lambert, Vaughan, O’Connor & Schwellnus, 2009; Van Sterkenburg & Van Dijk, 2011). Common symptoms include morning tendon stiffness, pain during and after exercise and tenderness on palpation (Van Sterkenburg & Van Dijk, 2011).

Get Help With Your Essay

If you need assistance with writing your essay, our professional essay writing service is here to help!

Essay Writing Service

A reactive tendinopathy occurs with acute tensile or compressive overload, triggering short-term thickening of the tendon; reducing stress or allowing adaption to compression and increasing tendon stiffness (Cook & Purdam, 2009). Acute overload can be associated to two pain mechanisms; firstly, pain localized to the tendon when provoked and secondly, sharp pain provoked by loading with ensuing muscle contraction, subsidising when loading concludes. Cook and Purdam (2009) present a tendinopathy continuum; continual overloading causes tendon disrepair and degeneration. Reactive tendinopathy results in increased tendon cross-sectional area through swelling caused by short-term proliferative (Kountaris & Cook, 2007; Cook & Purdam, 2009).

Recurrent ankle sprains may result in damage to the anatomical structures through repeated ankle inversion leading to joint mechanoreceptors weaknesses. Lee, Lee, Choi, Jung and Jang (2018) suggest causes of recurrent ankle instability through mechanical laxity, a pathologic laxity through loss of ligamentous complex function or functional ankle instability, a lack of neuromuscular control and proprioception. This results in postural and chronic ankle instability linked to lower limb muscle weakness or muscle imbalance(Pourkazemi, Hiller, Raymond, Nightingale & Refshauge, 2014; Lee et al., 2018). Fibula stress fractures, located in the lower fibula proximally to the tibiofibular ligament, result from excessive repetitive submaximal bone loading without sufficient rest (Hoglund, Silbernagel & Taweel, 2015). Causes can be muscular forces acting on a bone or exhaustion of supporting structures. Increased scar tissue restricting surrounding soft tissues and tightness can be a result of insufficient rehabilitation.

Lower back pain (LBP) is a result of altered lumbar lordosis and pelvic tilt due to morphological and postural factors (Chaléat-Valayer et al., 2011; Paungmali, Henry, Sitilertpisan, Pirunsan & Uthaikhup 2016). Changes are caused through tightness or weakness of various muscle groups such as iliopsoas muscles, gluteus medius or gastrocnemius, leg length discrepancy, excessive foot pronation and hip adductor-abductor imbalances (Hoy et al., 2014; Cooper et al., 2016).  Hartvigsen et al., (2018) have suggested that LBP can be associated with neurological symptoms or pain in the legs.

Several differential diagnoses can be determined from the client’s subjective assessment. Firstly, posterior ankle impingement syndrome (PAIS) results from forced plantarflexion or overuse in repetitive plantarflexion (Brukner & Khan, 2017). This results in soft tissue impingements around the tibia, posteriorly, and calcaneus, superiorly with a sharp, dull, radiating pain and catching or locking (Hayashi et al., 2015; Lavery, McHale, Rossy & Theodore, 2016). Secondly, peroneal tendinopathy results from repetitive mechanical stress, presenting with pain and swelling, posterior to the lateral malleolus, during active, resisted eversion and dorsiflexion (Brukner & Khan, 2017). These are associated with recurrent ankle sprains and instability (Park et al., 2010; Ribbans, Ribbans, Cruickshank & Wood, 2015). Thirdly, insertional Achilles tendinopathy results from excessive load, overuse and poor training habits (Brukner & Khan, 2017). It presents with localised pain and morning stiffness and aggravated by exercise, stair climbing, running on hard surfaces (Sayana & Maffulli, 2005). Retrocalcaneal bursitis presents with inflammation of the bursae causing irritable pain and swelling around the Achilles tendon and posterosuperior border of the calcaneus and is a result of landing awkwardly or hard on heel and pressure from footwear (Agyekum & Ma, 2015).

Physical examination

An appropriate physical examination follows the subjective assessment. The aim is to diagnose or disprove possible hypotheses with factors (severity, irritability and pain mechanisms) influencing how the physical examination occurs (Petty & Ryder, 2018).

Primary Hypothesis

To confirm the primary hypothesis of Achilles tendinopathy; appropriate palpation, end of range movements and physical tests would be carried out to reproduce pain and symptoms. The subjective assessment provides positive findings for the hypothesis, the client points to the mid-portion of the tendon where pain occurs, the type of pain described and tendon stiffness worse in the mornings (Brukner & Khan, 2017).

The physical examination should start by exposing both legs from the knees downwards where the patient would be both standing and prone. Observation and palpation of the structures would occur assessing alignment, muscles and tendon shape, tenderness, areas of pain or crepitation, erythema, heat and swelling. Inspection up the kinetic chain should occur to inspect postural or structural deviances (Kader, Saxena, Movin & Maffulli 2002; Brukner & Khan, 2017). Positive findings, here, would include tenderness along the midportion of the tendon, subjective tendon thickening and subjective crepitation with passive ankle movements (Paavola, et al., 2002; Longo, Ronga & Maffulli, 2018).

Range of motion should be assessed through various tests. Simpson and Howard (2009) suggest a decrease in ankle dorsiflexion and plantarflexion would be observed. A painful arc sign test differentiates between tendon and paratenon lesions, with positive findings showing tendinous lesions moving with plantarflexion and dorsiflexion (Brukner & Khan, 2017). Often, discrete swelling where tenderness is present significantly decreases or disappears when the tendon is put under tension (Longo et al., 2018). A Royal London Hospital test assesses tenderness during end range dorsiflexion through palpation along the portion of the tendon initially tender with a positive finding showing tenderness in end range dorsiflexion (Burkner & Khan, 2017; Longo et al., 2018).

Find Out How UKEssays.com Can Help You!

Our academic experts are ready and waiting to assist with any writing project you may have. From simple essay plans, through to full dissertations, you can guarantee we have a service perfectly matched to your needs.

View our academic writing services

Hutchinson et al., (2013) suggest functional tests that put a load through the tendon in end range of motion as part of the physical examination, simulating functional movements that aggravate symptoms. A knee-to-wall test would be completed, placing the client into passive ankle dorsiflexion and knee flexion, where a positive finding is pain during dorsiflexion. Furthermore, completing a single leg heel raise would put the ankle through resisted plantarflexion, with a positive finding showing pain on resisted plantarflexion or movement. Lastly, a hop test providing plyometric load can be completed, with positive findings showing pain in the mid Achilles tendon during loading (Brukner & Khan, 2017).

Differential diagnosis

Hutchinson et al., (2013) have suggested that only a few of the assessment and diagnostic tests for Achilles tendinopathy were found to be adequately accurate and trustworthy for clinical use. Therefore, appropriate physical examination should be carried out to confirm the primary hypothesis and exclude differential diagnose.

Diagnosis of PAIS starts with observation occurring around the ankle and foot assessing alignment, effusion, or swelling. Palpation of the bone and soft tissue structures occur mainly along the posterolateral talocrual joint line and posteriorly to the medial and lateral malleolus (Lavery, et al., 2016). Localized tenderness over the posteromedial aspect of the joint is a positive finding, although difficult to provoke tenderness can be reinforced through big toe passive flexion and extension (Yasui Hannon, Hurley & Kennedy, 2016). PAIS will present with restricted dorsiflexion due to pain or mechanical blocks and pain on end range passive plantarflexion (Senecal & Richer, 2016). A posterior impingement test will present with pain over posterior aspect of ankle during passive plantarflexion (Brukner & Khan, 2017).

Diagnosing peroneal tendinopathy, palpation and observation would occur around the ankle, bones and soft tissue structures. Here, peroneal tendinopathies would present with tenderness, crepitus, swelling or thickening within the tendon including an increased varus foot position (Simpson & Howard, 2009; Brukner & Khan, 2017). Simpson and Howard (2009) suggest a peroneal tunnel compression test, this presents pain along the fibula, posteriorly, with active dorsiflexion and resisted eversion. During range of motion assessment, pain would occur during passive inversion and plantarflexion and resisted eversion (Selmani, Gjata & Gjika, 2006; Brukner & Khan 2017). A manual muscle test of the peroneal muscle group should be performed assessing eversion and plantarflexion strength; positive findings suggest weakness and can be a result of pain (Brukner & Khan 2017). Commonly, a subjective history of chronic lateral ankle pain and instability are present, like the clients’ subjective history (Simpson & Howard, 2009). Symptoms are triggered by sustained or recurring activity or acute traumatic incidents (Selmani et al., 2006). Therefore, appropriate functional tests that worsen symptoms such as weight bearing lunges, walking or jumping should be completed with pain occurring during exercises as a positive finding. A peroneal tunnel compression test produces pain within the peroneal brevis tendon, and a special test assessing strength during plantarflexion, shows weakness and dysfunction of the peroneus longus tendon (Selmani et al., 2006).

Insertional Achilles tendinopathy examination with observation and palpation would reveal tenderness and thickening or nodularity at insertion (Sayana & Maffulli, 2005) limited dorsiflexion would also be present. When assessing retrocalcaneal bursitis, palpation and observation would show tenderness, swelling, redness and pain medially and laterally around the Achilles tendon and above the posterosuperior aspect of the calcaneus (Aldridge, 2004). Kondreddi, Gopal and Yalamanchili (2012) describe sharp pain during dorsiflexion when assessing joint range of motion. Functional tests such as calf raises should be completed to elicit symptoms, here irritable pain would be present. Presents on low-load activities such as heel raises, end-range dorsiflexion or prolonged standing (Aldridge, 2004; Agyekum & Ma, 2015).

Predisposing factors

The subjective history of recurrent ankle sprains, fibula stress fracture and lower back pain suggest possible biomechanical issues that result in these injuries. Paavola et al. (2002) suggest those with symptoms of Achilles tendinopathy should be examined for ankle instability and biomechanical faults due to gastrocnemius–soleus dysfunction, muscle weakness and lower limb misalignment. associated with an Achilles tendinopathy.

A contributing factor of an Achilles tendinopathy is restricted dorsiflexion due to an increased tendon load. This can lead to overpronation to allow further movement, causing lower limb misalignment causing posture to change and muscles to become taught or lengthened (Hoy et al., 2014). Nourbakhsh and Arab (2002) describe how lower back pain is caused by changes in the size of the lumbar lordosis and pelvic tilt because of morphological and postural factors such as muscular weakness or tightness (Paungmali et al., 2016). Tightness or weakness among muscles such as iliopsoas, gluteus medius or calf muscles may cause over-pronation and hip adductor-abductor imbalances (Chaléat-Valayer et al., 2011; Cooper et al., 2016). Furthermore, Pourkazemi et al. (2014) have found that lower limb muscle weakness or muscle imbalanceare associated with recurrent ankle sprains, another factor associated with Achilles tendinopathy. This can be affected through increased ankle instability and laxity and a loss of neuromuscular control and proprioception (Pourkazemi et al., 2014).

Observational examination can be used to identify any pelvic tilt, altered posture and over pronation. Petty and Ryder (2018) suggest assessing joint stability and integrity after recurrent ankle sprains through a joint integrity test, an anterior drawer sign test and talar tilt test. Furthermore, decreased dorsiflexion can be found when assessing range of motion and a weight bearing lunge tests (Brukner & Khan, 2017). Assessment of muscle strength during plantar and dorsiflexion can be assessed through strength tests such as a single leg heel raise with positive findings showing relative weakness and dysfunctions in plantarflexion strength (Brukner & Khan, 2017; Petty & Ryder, 2018). Functional tests such as lunge or walking to assess gait analysis and over pronation of foot and posture (Agyekum & Ma, 2015).

Completing an appropriate physical examination eliciting the symptoms can confirm the primary hypothesis, reject alternative diagnosis and address the predisposing factors.

References

  • Agyekum, E.D. and Ma, K. (2015). Heel Pain: A systematic review. Chinese journal of Traumatology, 18, 164-168
  • Aldridge, T. (2004). Diagnosing heel pain in adults. American family physician70, 332-342.
  • Azevedo, L. B., Lambert, M. I., Vaughan, C. L., O’Connor, C. M., & Schwellnus, M. P. (2009). Biomechanical variables associated with Achilles tendinopathy in runners. British journal of sports medicine43(4), 288-292.
  • Brukner, P. and Khan, K. (2017). Clinical Sports Medicine. (5th ed.). Sydney: McGraw-Hill Education.
  • Chaléat-Valayer, E., Mac-Thiong, J. M., Paquet, J., Berthonnaud, E., Siani, F., & Roussouly, P. (2011). Sagittal spino-pelvic alignment in chronic low back pain. European spine journal20(5), 634-640.
  • Cook, J. L., & Purdam, C. R. (2009). Is tendon pathology a continuum? A pathology model to explain the clinical presentation of load-induced tendinopathy. British journal of sports medicine43(6), 409-416.
  • Cooper, N. A., Scavo, K. M., Strickland, K. J., Tipayamongkol, N., Nicholson, J. D., Bewyer, D. C., & Sluka, K. A. (2016). Prevalence of gluteus medius weakness in people with chronic low back pain compared to healthy controls. European Spine Journal25(4), 1258-1265.
  • Hartvigsen, J., Hancock, M. J., Kongsted, A., Louw, Q., Ferreira, M. L., Genevay, S., Hoy, D., Karppinen, J., Pransky, G., Sieper, J. & Smeets, R. J. (2018). What low back pain is and why we need to pay attention. The Lancet. 1-12
  • Hayashi, D., Roemer, F. W., D’Hooghe, P., & Guermazi, A. (2015). Posterior ankle impingement in athletes: pathogenesis, imaging features and differential diagnoses. European journal of radiology84(11), 2231-2241.
  • Hoglund, L. T., Silbernagel, K. G., & Taweel, N. R. (2015). Distal fibular stress fracture in a female recreational runner: a case report with musculoskeletal ultrasound imaging findings. International journal of sports physical therapy10(7), 1050-1058.
  • Hoy, D., March, L., Brooks, P., Blyth, F., Woolf, A., Bain, C., … & Murray, C. (2014). The global burden of low back pain: estimates from the Global Burden of Disease 2010 study. Annals of the rheumatic diseases73(6), 968-974.
  • Hutchison, A. M., Evans, R., Bodger, O., Pallister, I., Topliss, C., Williams, P., Vannet, N., Morris, V. & Beard, D. (2013). What is the best clinical test for Achilles tendinopathy?. Foot and Ankle Surgery19(2), 112-117.
  • Kader, D., Saxena, A., Movin, T., & Maffulli, N. (2002). Achilles tendinopathy: some aspects of basic science and clinical management. British journal of sports medicine36(4), 239-249.
  • Kondreddi, V., Gopal, R. K., & Yalamanchili, R. K. (2012). Outcome of endoscopic decompression of retrocalcaneal bursitis. Indian journal of orthopaedics46(6), 659-663.
  • Yasui, Y., Hannon, C. P., Hurley, E., & Kennedy, J. G. (2016). Posterior ankle impingement syndrome: A systematic four-stage approach. World journal of orthopedics7(10), 657-663.
  • Kountouris, A., & Cook, J. (2007). Rehabilitation of Achilles and patellar tendinopathies. Best Practice & Research Clinical Rheumatology, 21(2), 295-316.
  • Lavery, K. P., McHale, K. J., Rossy, W. H., & Theodore, G. (2016). Ankle impingement. Journal of orthopaedic surgery and research11(1), 97-103.
  • Lee, J. H., Lee, S. H., Choi, G. W., Jung, H. W., & Jang, W. Y. (2018). Individuals with recurrent ankle sprain demonstrate postural instability and neuromuscular control deficits in unaffected side. Knee Surgery, Sports Traumatology, Arthroscopy, 1-9.
  • Longo, U. G., Ronga, M., & Maffulli, N. (2018). Achilles tendinopathy. Sports medicine and arthroscopy review26(1), 16-30.
  • Mattacola, C. G., & Dwyer, M. K. (2002). Rehabilitation of the ankle after acute sprain or chronic instability. Journal of athletic training37(4), 413-429.
  • Nourbakhsh, M. R., & Arab, A. M. (2002). Relationship between mechanical factors and incidence of low back pain. Journal of Orthopaedic & Sports Physical Therapy32(9), 447-460.
  • Paavola, M., Kannus, P., Järvinen, T. A., Khan, K., Józsa, L., & Järvinen, M. (2002). Achilles tendinopathy. JBJS84(11), 2062-2076.
  • Park, H. J., Cha, S. D., Kim, H. S., Chung, S. T., Park, N. H., Yoo, J. H., … & Oh, S. M. (2010). Reliability of MRI findings of peroneal tendinopathy in patients with lateral chronic ankle instability. Clinics in orthopedic surgery2(4), 237-243.
  • Paungmali, A., Henry, L. J., Sitilertpisan, P., Pirunsan, U., & Uthaikhup, S. (2016). Improvements in tissue blood flow and lumbopelvic stability after lumbopelvic core stabilization training in patients with chronic non-specific low back pain. Journal of physical therapy science28(2), 635-640.
  • Petty, N. J. & Ryder, D. (2018). Musculoskeletal Examination and Assessment: A handbook for therapists (5th ed.). London, UK: Elsevier.
  • Pourkazemi, F., Hiller, C. E., Raymond, J., Nightingale, E. J., & Refshauge, K. M. (2014). Predictors of chronic ankle instability after an index lateral ankle sprain: a systematic review. Journal of Science and Medicine in Sport17(6), 568-573.
  • Ribbans, W. J., Ribbans, H. A., Cruickshank, J. A., & Wood, E. V. (2015). The management of posterior ankle impingement syndrome in sport: a review. Foot and Ankle Surgery21(1), 1-10.
  • Sayana, M. K. & Maffulli, N. (2005). Insertional achilles tendinopathy. Foot and ankle clinics, 10(2), 309-320.
  • Selmani, E., Gjata, V., & Gjika, E. (2006). Current concepts review: peroneal tendon disorders. Foot & ankle international27(3), 221-228.
  • Silbernagel, K., Gustavsson, A., Thomeé, R., & Karlsson, J. (2006). Evaluation of lower leg function in patients with achilles tendinopathy. Knee Surgery, Sports Traumatology, Arthroscopy, 14(11), 1207-1217
  • Simpson, M. R., & Howard, T. M. (2009). Tendinopathies of the Foot and Ankle. American family physician80(10).1107-1114
  • Van Sterkenburg, M., & Van Dijk, C. (2011). Mid-portion achilles tendinopathy: Why painful? an evidence-based philosophy. Knee Surgery, Sports Traumatology, Arthroscopy, 19(8), 1367-1375.

 

Cite This Work

To export a reference to this article please select a referencing style below:

Give Yourself The Academic Edge Today

  • On-time delivery or your money back
  • A fully qualified writer in your subject
  • In-depth proofreading by our Quality Control Team
  • 100% confidentiality, the work is never re-sold or published
  • Standard 7-day amendment period
  • A paper written to the standard ordered
  • A detailed plagiarism report
  • A comprehensive quality report
Discover more about our
Essay Writing Service

Essay Writing
Service

AED558.00

Approximate costs for Undergraduate 2:2

1000 words

7 day delivery

Order An Essay Today

Delivered on-time or your money back

Reviews.io logo

1858 reviews

Get Academic Help Today!

Encrypted with a 256-bit secure payment provider