Achilles tendon

From Wikipedia, the free encyclopedia
  (Redirected from Achilles' tendon)
Jump to: navigation, search
This article is about vertebrate anatomy. For the metaphor referring to a weakness, see Achilles' heel. For injury to the Achilles tendon, see Achilles tendon rupture.
Achilles tendon
Achilles-tendon.jpg
Posterior view of the foot and leg, showing the Achilles tendon (tendo calcaneus). The gastrocnemius muscle is cut to expose the soleus.
Ankle.PNG
Lateral view of the human ankle, including the Achilles tendon
Latin tendo calcanei, tendo Achillis
Gray's p.483
MeSH Achilles+tendon
Anatomical terminology

The Achilles tendon, properly known as the calcaneal tendon or the tendo calcanei, is a tendon of the posterior leg. It serves to attach the plantaris, gastrocnemius (calf) and soleus muscles to the calcaneus (heel) bone.

Structure[edit]

Achilles tendon at foetus

The Achilles is the tendonous extension of 3 muscles in the lower leg: gastrocnemius, plantaris, and soleus. In humans, the tendon passes posterior to the ankle. It is the thickest and strongest tendon in the body. It is about 15 centimetres (6 in) long, and begins near the middle of the calf, but receives fleshy fibers on its anterior surface, almost to its lower end. Gradually becoming contracted below, it is inserted into the middle part of the posterior surface of the calcaneus, a bursa being interposed between the tendon and the upper part of this surface. The tendon spreads out somewhat at its lower end, so that its narrowest part is about 4 centimetres (1.6 in) above its insertion. It is covered by the fascia and the integument, and stands out prominently behind the bone; the gap is filled up with areolar and adipose tissue. Along its lateral side, but superficial to it, is the small saphenous vein. The Achilles' muscle reflex tests the integrity of the S1 spinal root. The tendon can receive a load stress 3.9 times body weight during walking and 7.7 times body weight when running.[1]

Function[edit]

Bilateral Achilles tendon vibration in the absence of vision has a major impact on postural orientation.[2] Vibration applied to the Achilles tendon is well known to induce in freely standing subjects a backward body displacement and in restrained subjects an illusory forward body tilt.[3] The vibrations stimulate muscle spindles in the calf muscles. The muscle spindles alert the brain that the body is moving forward, so the central nervous system compensates by moving the body backwards.

Clinical significance[edit]

Tendinitis[edit]

Main article: Achilles tendinitis

The most common Achilles tendon injuries are Achilles tendinosis and Achilles tendon rupture. Achilles tendinosis is the soreness or stiffness of the tendon, generally due to overuse. Achilles tendinitis (inflammation of the tendon) was thought to be the cause of most tendon pain, until the late 1990s, when scientists discovered no evidence of inflammation. Partial and full Achilles tendon ruptures are most likely to occur in sports requiring sudden eccentric stretching, such as sprinting. The area approximately two inches above the calcaneal attachment is most susceptible to these ruptures due to a zone of avascularity. Maffulli et al.[4] suggested that the clinical label of tendinopathy be given to the combination of tendon pain, swelling and impaired performance.

Achilles tendon degeneration (tendinosis) is typically investigated with either MRI or ultrasound. In both cases, the tendon is thickened, may demonstrate surrounding inflammation by virtue of the presence of paratenonitis, retrocalcaneal or retroAchilles bursitis. Within the tendon, increased blood flow, tendon fibril disorganisation and partial thickness tears may be identified. Achilles tendinosis frequently involves the mid portion of the tendon, however may involve the insertion where this is known as enthesopathy. Though enthesopathy may be seen in the context of advancing age, it is also associated with arthritis such as gout and the seronegative spondyloarthitides. Achilles tendinosis is a known risk factor for calf muscle tears.[5]

Rupture[edit]

Achilles tendon rupture is a partial or complete break in the tendon; it requires immobilization or surgery. Xanthoma can develop in the Achilles tendon in patients with familial hypercholesterolemia.

In a case where Achilles tendon rupture is concerned, there are three main types of treatment: the open and the percutaneous operative methods, and nonoperative approaches.

Initial treatment of damage to the tendon is generally nonoperative. Orthotics can produce early relief to the tendon by the correction of malalignments, non-steroidal anti-inflammatory drugs (NSAIDs) are generally to be avoided as they make the more-common tendinopathy (degenerative) injuries worse;[6] though they may very occasionally be indicated for the rarer tendinitis (inflammatory) injuries. Physiotherapy by eccentric calf stretching under resistance is commonly recommended, usually in conjunction with podiatric insoles or heel cushioning.

Depending on the severity of the injury, recovery from an Achilles injury can take up to 12–16 months.

To reduce the chances of obtaining a ruptured Achilles or any other Achilles tendon complications, a few simple steps can be taken when it comes to physical activity. First, stretching the calf muscle to the point of feeling an obvious pull, as well as calf-strengthening exercises can help the muscle and tendon absorb more force resulting in less chance of injury. Second, try to avoid running or participating in physical activity on hard or slippery surfaces. Lastly, try to increase training intensity at a slow-to-medium rate. The most common Achilles tendon injuries occur when someone abruptly intensifies their training at an abnormal rate.[7][8]

History[edit]

The oldest-known written record of the tendon being named for Achilles is in 1693 by the Flemish/Dutch anatomist Philip Verheyen. In his widely used text Corporis Humani Anatomia, Chapter XV, page 328, he described the tendon's location and said that it was commonly called "the cord of Achilles", now also called "tendo achillies" by anatomists. ("quae vulgo dicitur chorda Achillis")[citation needed]

The name Achilles' heel comes from Greek mythology. Achilles' mother, the goddess Thetis, received a prophecy of her son's death. Hearing this, she dipped him into the River Styx to protect his body from harm. However, she kept hold of his heel, meaning that the water did not touch this part of his body and it was therefore vulnerable. During the Trojan War, Achilles was struck on his unprotected heel by a poisoned arrow shot by Paris, that killed him. In the same war, Achilles is also said to have cut behind Hector's Achilles tendons, having killed him, and threaded leather thongs through the incisions in order to drag him behind a chariot.

The Achilles tendon is also known as the calcaneal tendon. Because eponyms (names relating to people) have no relationship to the subject matter, most anatomical eponyms also have scientifically descriptive terms. The term calcaneal comes from the Latin calcaneum, meaning heel.

In animals[edit]

The Achilles tendon is short or absent in great apes, but long in arboreal gibbons and humans.[9] It provides elastic energy storage in hopping,[10] walking, and running.[9] Computer models suggest this energy storage Achilles tendon increases top running speed by >80% and reduces running costs by more than three-quarters.[9] It has been suggested that the "absence of a well-developed Achilles tendon in the nonhuman African apes would preclude them from effective running, both at high speeds and over extended distances."[9]

See also[edit]

This article uses anatomical terminology; for an overview, see anatomical terminology.

Additional Images[edit]

References[edit]

  1. ^ Giddings, VL; Beaupré, GS; Whalen, RT; Carter, DR (2000). "Calcaneal loading during walking and running". Medicine and science in sports and exercise 32 (3): 627–34. doi:10.1097/00005768-200003000-00012. PMID 10731005. 
  2. ^ Effects of bilateral Achilles tendon vibration on postural orientation and balance during standing, 2007 International Federation of Clinical Neurophysiology. Published by Elsevier Inc.
  3. ^ ScienceDirect – Neuroscience Letters: Effect of Achilles tendon vibration on postural orientation
  4. ^ Maffulli, N.; Khan, K. M.; and Puddu, G., 1998, "Overuse Tendon Conditions: Time to Change a Confusing Terminology, Arthroscopy 14(8):840-3.
  5. ^ Koulouris G, Ting AY, Jhamb A, Connell D, Kavanagh ECfsr4egdggd (2007). "Magnetic resonance imaging findings of injuries to the calf muscle complex". Skeletal Radiol 36 (10): 921–7. doi:10.1007/s00256-007-0306-6. PMID 17483942. 
  6. ^ 'Achilles injuries: How to recover', RunningInjury
  7. ^ Achilles Tendon Rupture Prevention, 1998 Mayo Foundation for Education and Research.
  8. ^ The Influence of Stretching and Warm-up Exercises on Achilles Tendon Reflex Activity, 1995 Journal of Sports Sciences. Doi = 10.1080/02640419508732265
  9. ^ a b c d Sellers WI, Pataky TC, Caravaggi P, Crompton RH. (2010). Evolutionary Robotic Approaches in Primate Gait Analysis. Int J Primatol 31:321–338 doi:10.1007/s10764-010-9396-4
  10. ^ Lichtwark, GA; Wilson, AM (2005). "In vivo mechanical properties of the human Achilles tendon during one-legged hopping". The Journal of experimental biology 208 (Pt 24): 4715–25. doi:10.1242/jeb.01950. PMID 16326953. 

External links[edit]