Overview The Achilles tendon is the confluence of the independent tendons of the gastrocnemius and soleus, which fuse to become the Achilles tendon approximately 5 to 6 cm proximal to its insertion on the posterior surface of the calcaneus. The gastrocnemius and soleus muscles, via the Achilles tendon, function as the chief plantarflexors of the ankle joint. This musculotendinous unit provides the primary propulsive force for walking, running, and jumping. The normal Achilles tendon can withstand repetitive loads near its ultimate tensile strength, which approach 6 to 8 times body weight. Causes Common causes of an Achilles tendon rupture include the progression of or the final result of longstanding Achilles tendonitis or an overuse injury. An injury to the ankle or a direct blow to the Achilles tendon. As a result of a fall where an individual lands awkwardly or directly on the ankle. Laceration of the tendon. Weakness of the gastrocnemius or soleus muscles in people with existing Achilles tendonitis places increased stress on the tendon. Steroid use has been linked to tendon weakness. Certain systemic diseases have been associated with tendon weakness. A sudden deceleration or stopping motions that cause an acute traumatic injury of the ankle. Injection of steroids to the involved tendon or the excessive use of steroids has been known to weaken tendons and make them susceptible to rupture. Contraction of the calf muscles while the foot is dorsiflexed (pointed toward the head) and the lower leg is moving forward. Symptoms A classic sign of an Achilles tendon rupture is the feeling of being hit in the Achilles are. There is often a "pop" sound. There may be little pain, but the person can not lift up onto his toes while weight bearing. Diagnosis The doctor may look at your walking and observe whether you can stand on tiptoe. She/he may test the tendon using a method called Thompson?s test (also known as the calf squeeze test). In this test, you will be asked to lie face down on the examination bench and to bend your knee. The doctor will gently squeeze the calf muscles at the back of your leg, and observe how the ankle moves. If the Achilles tendon is OK, the calf squeeze will make the foot point briefly away from the leg (a movement called plantar flexion). This is quite an accurate test for Achilles tendon rupture. If the diagnosis is uncertain, an ultrasound or MRI scan may help. An Achilles tendon rupture is sometimes difficult to diagnose and can be missed on first assessment. It is important for both doctors and patients to be aware of this and to look carefully for an Achilles tendon rupture if it is suspected. Non Surgical Treatment This condition should be diagnosed and treated as soon as possible, because prompt treatment probably improves recovery. You may need to be referred urgently to see a doctor in an orthopaedic department or accident and emergency department. Meanwhile, if a ruptured Achilles tendon is suspected, you should not put any weight on that foot, so do not walk on it at all.Treatment options for an Achilles tendon rupture include surgical and non-surgical approaches. The decision of whether to proceed with surgery or non-surgical treatment is based on the severity of the rupture and the patient?s health status and activity level. Non-surgical treatment, which is generally associated with a higher rate of re-rupture, is selected for minor ruptures, less active patients, and those with medical conditions that prevent them from undergoing surgery. Non-surgical treatment involves use of a cast, walking boot, or brace to restrict motion and allow the torn tendon to heal. Surgical Treatment Surgery may be indicated directly following injury rather than conservative care. Repair of an achilles tendon rupture is greatly varied for each clinical situation. There may be a direct repair of the ends of the tendon with suture, or possibly a tendon graft used to augment the tendon. Post-operatively, the period of immobilization will depend on the size of the defect that was repaired and how it was completed. Usually the immobilization is between 6-10 weeks. This repair may allow for a complete return to normal function, but in many instances the healing is complicated with adhesions and a partial loss of range of motion. There may be a continued soft tissue defect noted and a permanent or prolonged swelling.