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821 Fracture of other and unspecified parts of femur; 822 Fracture of patella; 823 Fracture of tibia and fibula; 824 Fracture of ankle; 825 Fracture of one or more tarsal and metatarsal bones; 826 Fracture of one or more phalanges of foot; 827 Other, multiple, and ill-defined fractures of lower limb; 828 Multiple fractures involving both lower ...
Clavicle fractures occur at 30–64 cases per 100,000 a year and are responsible for 2.6–5.0% of all fractures. [15] This type of fracture occurs more often in males. [ 15 ] About half of all clavicle fractures occur in children under the age of seven and is the most common pediatric fracture.
One cause of arterial compression is trauma, and a recent case involving fracture of the clavicle has been reported. [ 22 ] The two groups of people most likely to develop TOS are those with neck injuries due to traffic accidents and those who use computers in non- ergonomic postures for extended periods of time.
A significant bump, resulting in some shoulder deformity, is formed by the lateral end of the clavicle. This bump, caused by the clavicle's dislocation, [5] is permanent. The clavicle can be moved in and out of place on the shoulder. A radiographic examination will show the results as abnormal. [medical citation needed]
Incidental X-ray findings of bone spurs at the adjacent acromioclavicular joint may show a bone spur growing from the outer edge of the clavicle downward toward the rotator cuff. Spurs may also be seen on the underside of the acromion, once thought to cause direct fraying of the rotator cuff from contact friction, a concept currently regarded ...
A compression fracture is a collapse of a vertebra. It may be due to trauma or due to a weakening of the vertebra (compare with burst fracture ). This weakening is seen in patients with osteoporosis or osteogenesis imperfecta , lytic lesions from metastatic or primary tumors , [ 1 ] or infection. [ 2 ]
A pathologic fracture is a bone fracture caused by weakness of the bone structure that leads to decrease mechanical resistance to normal mechanical loads. [1] This process is most commonly due to osteoporosis , but may also be due to other pathologies such as cancer , infection (such as osteomyelitis ), inherited bone disorders, or a bone cyst .
The two muscles most commonly inhibited during this first part of an overhead motion are the serratus anterior and the lower trapezius. [10] These two muscles act as a force couple within the glenohumeral joint to properly elevate the acromion process, and if a muscle imbalance exists, shoulder impingement may develop.