Anchorage (orthodontics)

Anchorage in orthodontics is defined as a way of resisting a movement of certain teeth by employing different techniques. Anchorage is an important consideration in the field of orthodontics as this is a concept that is used frequently when correction malocclusions. Unplanned or unwanted tooth movement can have dire consequences, and therefore using anchorage to produce or stop a certain tooth movement becomes important.[1] Anchorage can be used from many different sources such as teeth, bone, implants or extra-orally.[2][3]

Certain factors related to the anatomy of teeth can affect the anchorage that may be used. Multi-rooted, longer-rooted, triangular shaped root teeth usually provide more anchorage than the single-rooted, short-rooted and ovoid rooted teeth.

History

One of the earliest uses of anchorage came from Henry Albert Baker for his use of the intermaxillary anchorage or Baker's Anchorage. This type of anchorage involves using elastics from one jaw to the other, in the form of either Class 2 elastics (moving upper teeth back) where lower molar teeth serve as anchors, or Class 3 elastics (moving lower teeth back) where upper molars serve as anchors. Intramaxillary anchorage is also used in the form of E-chain, when elastics are used from the back molar teeth to the front teeth in the same jaw to move teeth back of the mouth.

Classification based on site

Orthodontic headgear will usually consist of three major components:

Full combination orthodontic headgear with headcap, fitting straps, facebow and elastics

Classification based on number of teeth

Robert Moyers defined the classification of anchorage in the number of units.[4]

Classification based on space closure

Ravindra Nanda and Charles J. Burstone described three types of anchorages that are based on the need during a treatment where space closure is needed.[5] In some orthodontic cases, teeth have to be removed in order to either relieve dental crowding or reduce a large overjet or overbite. Therefore, the space created after removing teeth is usually closed during an orthodontic treatment. A space can be closed by either moving back teeth forward or front teeth backward.

Group A Anchorage

This type is considered critical anchorage, which involves 75% movement of anterior teeth and 25% posterior teeth into the space created by extraction. Thus the expectation in this type of anchorage is to bring front teeth back.

Group B Anchorage

This type of anchorage is considered moderate, which involves 50% movement of both anterior and posterior teeth into the extraction space. The expectation in this type of anchorage is to see posterior teeth moving forward equally as compared to anterior teeth moving backwards.

Group C Anchorage

This type of anchorage is considered non-critical, which involves posterior teeth moving forward 75% of the time and front teeth moving backwards 25% of the time into the extraction space. Greater movement of back teeth is seen in this case.

Absolute Anchorage

This type of anchorage is needed in a treatment when there is 0% movement of posterior teeth forward and 100% movement of anterior teeth backwards. This type of anchorage is usually produced by using mini-implants or temporary anchorage devices.

Classification based on implant

Orthodontic mini-implants can be used for the purpose of anchorage in an orthodontic treatment. The implants can be used to provide either direct or indirect anchorage.[6]

Direct anchorage

In this type of setup, orthodontic force is applied directly from the implant to one or multiple teeth. In this type of anchorage, the location of the implant plays a very important role due to different force vectors being affected.

Indirect anchorage

In this type of setup, an implant is used to stablize one or multiple teeth into a unit. An orthodontic force is then used against this unit to move single or multiple teeth. In this setup, the location of the implant is not as important as long as the implant is stable.

References

  1. aa (1994-01-01). By Ravindra Nanda – Temporary Anchorage Devices in Orthodontics (23379th ed.). Elsevier Health Sciences.
  2. Prezzano, Wilbur J. (1951-09-01). "Anchorage and the mandibular arch". American Journal of Orthodontics. 37 (9): 688–697. doi:10.1016/0002-9416(51)90180-7.
  3. Rachala, Madhukar Reddy (2011-12-12). Microimplants in Orthodontics: Temporary Anchorage Device. S.l.: LAP LAMBERT Academic Publishing. ISBN 9783847312062.
  4. Roberts-Harry, D.; Sandy, J. (2004-03-13). "Orthodontics. Part 9: Anchorage control and distal movement". British Dental Journal. 196 (5): 255–263. doi:10.1038/sj.bdj.4811031. ISSN 0007-0610.
  5. Nanda, Ravindra (2005-04-12). Biomechanics and Esthetic Strategies in Clinical Orthodontics. Elsevier Health Sciences. ISBN 1455726117.
  6. Wehrbein, Heiner; Göllner, Peter (2007-11-01). "Skeletal anchorage in orthodontics--basics and clinical application". Journal of Orofacial Orthopedics = Fortschritte Der Kieferorthopädie: Organ/Official Journal Deutsche Gesellschaft Für Kieferorthopädie. 68 (6): 443–461. doi:10.1007/s00056-007-0725-y. ISSN 1434-5293. PMID 18034286.
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