Bone fracture surgery: Difference between revisions
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==Surgery== | |||
If being treated with surgery, surgical nails, screws, plates and wires are used to hold the fractured bone together more directly. | |||
[[Surgery|Surgical]] methods of treating fractures have their own risks and benefits, but usually surgery is done only if conservative treatment has failed or is very likely to fail. With some fractures such as [[hip fracture]]s (usually caused by [[osteoporosis]] or [[Osteogenesis Imperfecta]]), surgery is offered routinely, because the complications of non-operative treatment include [[deep vein thrombosis]] (DVT) and [[pulmonary embolism]], which are more dangerous than surgery. When a joint surface is damaged by a fracture, surgery is also commonly recommended to make an accurate anatomical reduction and restore the smoothness of the joint. | |||
[[Infection]] is especially dangerous in bones, due to their limited blood flow. Bone tissue is predominantly [[extracellular matrix]], rather than living cells, and the few blood vessels needed to support this low metabolism are only able to bring a limited number of [[immune cell]]s to an injury to fight infection. For this reason, open fractures and osteotomies call for very careful [[antiseptic]] procedures and [[prophylactic]] antibiotics. | |||
Sometimes bones are reinforced with metal, but these fracture implants must be designed and installed with care. Stress shielding occurs when plates or screws carry too large of a portion of the bone's load, causing [[atrophy]]. This problem is reduced, but not eliminated, by the use of low-[[Young's modulus|modulus]] materials, including [[titanium]] and its alloys. The heat generated by the friction of installing hardware can easily accumulate and damage bone tissue, reducing the strength of the connections. If dissimilar metals are installed in contact with one another (i.e., a titanium plate with [[cobalt]]-[[chromium]] alloy or stainless steel screws), galvanic [[corrosion]] will result. The metal [[ion]]s produced can damage the bone locally and may cause systemic effects as well. | |||
===In Children=== | |||
In children, whose bones are still developing, there are risks of either a growth plate injury or a [[greenstick fracture]]. | |||
* [[Plasticity (physics)|Plastic deformation]] of the bone, in which the bone permanently bends but does not break, is also possible in children. These injuries may require an [[osteotomy]] (bone cut) to realign the bone if it is fixed and cannot be realigned by closed methods. | |||
==References== | ==References== | ||
{{Reflist|2}} | {{Reflist|2}} | ||
[[Category:Needs | [[Category:Needs overview]] | ||
[[Category:Emergency medicine]] | [[Category:Emergency medicine]] | ||
[[Category:fractures]] | [[Category:fractures]] |
Latest revision as of 13:14, 20 February 2013
Bone fracture Microchapters |
Diagnosis |
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Treatment |
Case Studies |
Bone fracture surgery On the Web |
American Roentgen Ray Society Images of Bone fracture surgery |
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]
Surgery
If being treated with surgery, surgical nails, screws, plates and wires are used to hold the fractured bone together more directly.
Surgical methods of treating fractures have their own risks and benefits, but usually surgery is done only if conservative treatment has failed or is very likely to fail. With some fractures such as hip fractures (usually caused by osteoporosis or Osteogenesis Imperfecta), surgery is offered routinely, because the complications of non-operative treatment include deep vein thrombosis (DVT) and pulmonary embolism, which are more dangerous than surgery. When a joint surface is damaged by a fracture, surgery is also commonly recommended to make an accurate anatomical reduction and restore the smoothness of the joint.
Infection is especially dangerous in bones, due to their limited blood flow. Bone tissue is predominantly extracellular matrix, rather than living cells, and the few blood vessels needed to support this low metabolism are only able to bring a limited number of immune cells to an injury to fight infection. For this reason, open fractures and osteotomies call for very careful antiseptic procedures and prophylactic antibiotics.
Sometimes bones are reinforced with metal, but these fracture implants must be designed and installed with care. Stress shielding occurs when plates or screws carry too large of a portion of the bone's load, causing atrophy. This problem is reduced, but not eliminated, by the use of low-modulus materials, including titanium and its alloys. The heat generated by the friction of installing hardware can easily accumulate and damage bone tissue, reducing the strength of the connections. If dissimilar metals are installed in contact with one another (i.e., a titanium plate with cobalt-chromium alloy or stainless steel screws), galvanic corrosion will result. The metal ions produced can damage the bone locally and may cause systemic effects as well.
In Children
In children, whose bones are still developing, there are risks of either a growth plate injury or a greenstick fracture.
- Plastic deformation of the bone, in which the bone permanently bends but does not break, is also possible in children. These injuries may require an osteotomy (bone cut) to realign the bone if it is fixed and cannot be realigned by closed methods.