Hooks/ Brackets
Dental braces (also known as orthodontic braces or brackets) are a fixed appliance used in orthodontics to correct alignment of teeth and their position with regard to bite. more...
 Home
Antique Clocks
Antique Furniture
Antiquities
Architectural Antiques
 Chandeliers
Door Bells/ Knockers
Door Knobs/ Handles
Doors
Fireplaces
Garden
Hardware/ Home
Hooks/ Brackets
Light Switches
Locks/ Keys
Other Architectural Antiques
Plaques
Signs
Stained Glass
Stair/ Carpet Rods
Tiles
Weathervanes/ Lightning Rods
Windows/ Sashes/ Locks
Asian/ Oriental Antiques
Maps
Silver
Braces are often used to correct malocclusions such as underbites, overbites, cross bites and open bites, or crooked teeth, or perfect teeth and various other flaws of teeth and jaws, whether cosmetic or structural. They can be used on either upper or lower sets of teeth, or both, depending on the problem they are being used to treat. Orthodontic braces are often used in conjunction with other orthodontic appliances to widen the palate or jaws, create spaces between teeth, or otherwise shape the teeth and jaws. Most orthodontic patients are children or teenagers; however, more and more adults are seeking out orthodontic treatment.
History
Historians believe that two different men deserve the title of being called \"the Father of Orthodontics.\" One man was Norman W. Kingsley, a dentist, writer, artist, and sculptor, who wrote his \"Treatise on Oral Deformities\" in 1880. What Kingsley wrote influenced the new dental science greatly. The second man who deserves credit was a dentist named J. N. Farrar, who wrote two volumes entitled \"A treatise on the Irregularities of the teeth and their corrections\". Farrar was very good at designing brace appliances, and he was the first to suggest the use of mild force at timed intervals to move teeth.
How braces work
Teeth move through the use of force. The force applied by the archwire pushes the tooth in a particular direction and a stress is created within the periodontal ligament. The modification of the periodontal blood supply determines a biological response which leads to bone remodelling, where bone is created on one side by osteoblast cells and resorbed on the other side by osteoclasts.
Two different kinds of bone resorption are possible: direct resorption, starting from the lining cells of the alveolar bone, and indirect or retrograde resorption, where osteoclasts start their activity in the neighbour bone marrow. Indirect resorption takes place when the periodontal ligament has become acellular (necrosis or hyalinization), for an excessive amount and duration of compressive stress. In this case the quantity of bone resorbed is larger than the quantity of newly formed bone (negative balance). Bone resorption only occurs in the compressed periodontal ligament. The other important phenomenon that is intricately associated with tooth movement is bone deposition. Bone deposition occurs in the distracted periodontal ligament. Without bone deposition, the tooth will loosen and voids will occur distal to the direction of tooth movement.
A tooth will usually move about a millimeter per month during orthodontic movement, but there is high individual variability. Furthermore, orthodontic mechanics can be more or less efficient, thus explaining a wide range of responsiveness to orthodontic treatment.
Read more at Wikipedia.org
|
