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 People who commonly fall victim to Achilles rupture or tear include recreational athletes, people of old age, individuals with previous Achilles tendon tears or ruptures, previous tendon injections or quinolone use, extreme changes in training intensity or activity level, and participation in a new activity. Most cases of Achilles tendon rupture are traumatic sports injuries. The average age of patients is 29-40 years with a male-to-female ratio of nearly 20:1. Fluoroquinolone antibiotics, such as ciprofloxacin, and glucocorticoids have been linked with an increased risk of Achilles tendon rupture. Direct steroid injections into the tendon have also been linked to rupture. Quinolone has been associated with Achilles tendinitis and Achilles tendon ruptures for some time. Quinolones are antibacterial agents that act at the level of DNA by inhibiting DNA Gyrase. DNA Gyrase is an enzyme used to unwind double stranded DNA which is essential to DNA Replication. Quinolone is specialized in the fact that it can attack bacterial DNA and prevent them from replicating by this process, and are frequently prescribed to the elderly. Approximately 2% to 6% of all elderly people over the age of 60 who have had Achilles ruptures can be attributed to the use of quinolones. Symptoms It is important to know that pain at the back of the heel is not always due to Achilles tendon rupture. It may be due to bursitis (fluid accumulation in the heel due to repeated irritation) and tendonitis (pain along the Achilles tendon due to constant friction and irritation). The above disorders tend to improve with use of pain medications and rest, whereas Achilles tendon rupture requires surgery and/or a cast. Diagnosis During the physical exam, your doctor will inspect your lower leg for tenderness and swelling. In many cases, doctors can feel a gap in your tendon if a complete rupture has occurred. Achilles tendon rupture can be diagnosed reliably with clinical examination, but if there?s a question about the extent of your Achilles tendon injury then your doctor may order a magnetic resonance imaging (MRI) scan. Non Surgical Treatment Initial treatment for sprains and strains should occur as soon as possible. Remember RICE! Rest the injured part. Pain is the body's signal to not move an injury. Ice the injury. This will limit the swelling and help with the spasm. Compress the injured area. This again, limits the swelling. Be careful not to apply a wrap so tightly that it might act as a tourniquet and cut off the blood supply. Elevate the injured part. This lets gravity help reduce the swelling by allowing fluid and blood to drain downhill to the heart. Over-the-counter pain medication is an option. Acetaminophen (Tylenol) is helpful for pain, but ibuprofen (Motrin, Advil, Nuprin) might be better, because these medications relieve both pain and inflammation. Remember to follow the guidelines on the bottle for appropriate amounts of medicine, especially for children and teens. Surgical Treatment Unlike other diseases of the Achilles tendon such as tendonitis or bursitis, Achilles tendon rupture is usually treated with surgical repair. The surgery consists of making a small incision in the back part of the leg, and using sutures to re-attach the two ends of the ruptured tendon. Depending on the condition of the ends of the ruptured tendon and the amount of separation, the surgeon may use other tendons to reinforce the repair. After the surgery, the leg will be immobilized for 6-8 weeks in a walking boot, cast, brace, or splint. Following this time period, patients work with a physical therapist to gradually regain their range of motion and strength. Return to full activity can take quite a long time, usually between 6 months and 1 year.
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