Retainer (orthodontics)

Top (left) and bottom (right) retainers
Vacuum form retainer in the foreground (used on upper); illustration of an early Hawley retainer in the background

Orthodontic retainers are custom-made devices, usually made of wires or clear plastic, that hold teeth in position after surgery or any method of realigning teeth. Once a phase of orthodontic treatment has been completed to straighten teeth, there remains a lifelong risk of relapse (a tendency for teeth to return to their original position) due to a number of factors: recoil of periodontal fibres, pressure from surrounding soft tissues, the occlusion and patient’s continued growth and development. By using retainers to hold the teeth in their new position for a length of time, the surrounding periodontal fibres adapt to changes in the bone which can help minimize any changes to the final tooth position after the completion of orthodontic treatment.[1][2] Retainers may also be used to treat overjets.

Removable Retainers

Removable retainers include Hawley, Vacuum-formed, Begg and Barrer. They provide orthodontic retention when worn and they can be taken in and out of the mouth. They can be worn part-time or full-time if required or as advised by the orthodontist. In comparison to fixed retainers, removable retainers are easier to clean.[1]

Hawley retainer

The underneath surface of an upper Wrap Around Hawley retainer resting on top of a retainer case

The best-known removable retainer is the Hawley retainer, which consists of a metal wire that typically surrounds the six anterior teeth and keeps them in place. Hawley retainers are one of the oldest types of removable retainers.[1] Named for its inventor, Dr. Charles A. Hawley, the labial wire, or Hawley bow, incorporates 2 omega loops for adjustment. It is anchored in an acrylic baseplate that sits in the palate (roof of the mouth). They are made from metal wire running along the outside of the teeth. There are many adaptations possible with Hawley retainers.[1] The advantage of this type of retainer is that the metal wires can be adjusted to finish treatment and continue minor movement of the anterior teeth as needed.[3] It also benefits from being robust and rigid, easy to construct and allows prosthetic tooth/teeth to be added onto with metal stops placed mesial and distal to the prosthetic teeth to prevent any relapse. To help fix rotations; acrylic facing can be added to the labial bow and a bite plane added to maintain the result of deep overbite correction. Also, to control the position of the canine, reverse U-loop can be employed. Additionally, to avoid occlusal interferences, the labial bow can be soldered to the cribs.[1]

The main disadvantages of this type of retainer is its inferior aesthetics, interference with speech, risk of fracture and inferior retention of lower incisors in comparison to vacuum-formed retainers.[1]

Recently, a more aesthetic version of the Hawley retainer has been developed. For this alternative, the front metal wire is replaced with a clear wire called the ASTICS. This retainer is intended to be adjustable similarly to the traditional Hawley retainer, which is not practical with vacuum-formed retainers.

Research shows that Hawley retainers are not effective for preventing incisor irregularity relapse. [4] Hawley retainers also affect speech, especially the d, s, t, and i sounds, however as they are often only worn at night time, this concern may not be so prevalent. [5] Research shows that participants that wear Hawley retainers report being more embarrassed about the appliance than wearing vacuum formed retainers and they found Hawley retainers more difficult to wear.[6] However, if the patient has concerns with regards to the visible metal wire, a clear polyethylene bow can be used to enhance aesthetics.[1]

The process of making an acrylic retainer was featured on the How It's Made TV show on the Science Channel on Season 23, Episode 16.

Vacuum-formed retainers

Another common type of removable retainer is the vacuum formed retainer (VFR). This is a polypropylene or polyvinylchloride (PVC) material. VFRs are made using a thermoforming process, using vacuum- or pressure-thermoforming.[7] This clear or transparent retainer normally fits over the entire arch of teeth, however some designs fit only from canine to canine (clip-on retainer). The retainer is clear and so virtually invisible when worn. Hence, it can offer an aesthetic advantage relative to other retainers. VFRs, if worn 24 hours per day, do not allow the upper and lower teeth to touch, as the retainers cover the occlusal (biting) surfaces of the teeth.[8] Some orthodontists feel that it is important for the top and bottom chewing surfaces to meet to allow for "favourable settling" to occur, thus the need for wearing the retainer only intermittently.[8] VFRs are most commonly worn overnight and removed while eating.[1] If worn while eating, they can behave as a reservoir enclosing the teeth with cariogenic substances and lead to decalcification of teeth over time (formation of cavities). The same can result if the retainer is inserted straight after a meal or drink. VFRs tend to be favoured as an orthodontic retainer as they are more aesthetic, interfere less with speech and are more economical than other removable retainers.[8] However, for patients with disorders such as bruxism, VFRs can be prone to rapid breakage and deterioration due to grinding of the VFR against the opposing teeth. There is, however, an increased ease of fabrication over other retainers if they do break.[8] Another advantage of VFRs is that there is evidence to suggest superior retention of lower incisors compared to other removable retainer types, but the best[9] retention was achieved with fixed retainers.[7]

Fixed retainers

Fixed retainers are often used to provide orthodontic retention and avoid relapse.[10] They commonly consist of a wire bonded with acid etch and composite to the lingual/palatal surface of the anterior teeth. In fixed retainers, composite is usually placed to bond and to cover the wire, whilst ensuring no interference in the interdental space. Fixed retainers are used in situations where instability is more likely, such as severe rotations, periodontal disease and median diastemas. Occasionally the patient will require a removable retainer as well. Fixed bonded retainers can be designed with a smooth wire or flexible spiral wire which is also known as multi-strand wire.[11] The most commonly used are multi-strand wire bonded to all six anterior teeth or a round stainless steel wire bonded to the canines only. Although fixed retainers depend less on the patient’s cooperation for regular wearing, they are more difficult to clean and therefore need more attention from the patient to prevent plaque accumulation and subsequent gingival inflammation.[11]

Other removable retainers

Types of removable retainers in addition to Hawley and vacuum-formed are Begg and Barrer retainers.[12] Begg retainers have the labial bow extending around the distal aspect of the terminal molar. They allow occlusal settling, as no wire work crosses the occlusion. Begg retainers are robust enough to be worn during eating,[13] however they are less retentive than Hawley retainers and the labial bow is more prone to distortion.[14]

Spring or Barrer retainers carry acrylic bows both labially and lingually. The original appliance extended only to the canines, however due to the risk of swallowing or aspiration, a modification which includes cribs on the first molars has been described. These retainers can be used to realign minor lower incisor relapse.[14]

Taking care of retainers

When the retainer is not being worn, it should always be kept safe in its container so it won’t be damaged or lost. Retainers are exposed to the same bacteria and plaque as the rest of a mouth, therefore they need to be cleaned after every meal. Retainers shouldn’t be placed in hot water and direct sunlight – they’ll easily warp. Retainers should always be removed before eating, because eating food with a retainer can damage it and will cause food to get stuck in hardware.[15]

Calcium and plaque deposition in fixed retainers is more common than with removable retainers. There are still concerns regarding the impact of fixed bonded retainers on long-term dental health [16] but not enough research has been conducted. The presence of plaque surrounding the fixed retainer can be associated gingivitis, periodontitis, gingival recession and alveolar bone loss.[16] Therefore, thorough cleaning with a toothbrush, toothpaste and interdental cleaning aids should be carried out regularly around a fixed retainer.

Maintenance of retainers

Relapse can occur if retainers are not worn regularly post-treatment. The orthodontist may advise wearing the retainer for a set period of time or indefinitely after orthodontic treatment. If not cleaned properly, retainers can act as a food reservoir and lead to caries and gingival inflammation. Cleaning options for removeable retainers include retainer/denture tablets, the use of a toothbrush and fragrance-free soap or non-abrasive toothpaste. If the water used to clean the retainer is too hot, it may cause shrinkage.[1]

See also

References

  1. 1 2 3 4 5 6 7 8 9 Mitchell L, Littlewood SJ, Nelson-Moon Z, Dyer F (2013). An introduction to orthodontics (4th ed.). Oxford: Oxford University Press. ISBN 978-0-19-100303-5. OCLC 854583725.
  2. "Braces Off Process Explained". Orthodontics Australia. 2021-03-24. Retrieved 2021-04-18.
  3. Lynn S. "Part Six: After the Braces Come Off". Braces 101: a primer for adults new to braces. Retrieved 2008-08-26.
  4. Outhaisavanh S, Liu Y, Song J (June 2020). "The origin and evolution of the Hawley retainer for the effectiveness to maintain tooth position after fixed orthodontic treatment compare to vacuum-formed retainer: A systematic review of RCTs". International Orthodontics. 18 (2): 225–236. doi:10.1016/j.ortho.2020.02.008. PMID 32201168.
  5. Chen J, Wan J, You L (January 2018). "Speech and orthodontic appliances: a systematic literature review". European Journal of Orthodontics. 40 (1): 29–36. doi:10.1093/ejo/cjx023. PMID 28472259.
  6. Littlewood SJ, Millett DT, Doubleday B, Bearn DR, Worthington HV (January 2016). "Retention procedures for stabilising tooth position after treatment with orthodontic braces". The Cochrane Database of Systematic Reviews. 2016 (1): CD002283. doi:10.1002/14651858.CD002283.pub4. PMC 7138206. PMID 26824885.
  7. 1 2 Bahije L, Ennaji A, Benyahia H, Zaoui F (September 2018). "A systematic review of orthodontic retention systems: The verdict". International Orthodontics. 16 (3): 409–424. doi:10.1016/j.ortho.2018.06.023. PMID 30001980.
  8. 1 2 3 4 Littlewood SJ, Mitchell L (2019). An Introduction to Orthodontics (5th ed.). Oxford University Press. pp. 208–209. ISBN 978-0-19-253959-5.
  9. Iliadi A, Koletsi D, Papageorgiou SN, Eliades T (April 2020). "Safety Considerations for Thermoplastic-Type Appliances Used as Orthodontic Aligners or Retainers. A Systematic Review and Meta-Analysis of Clinical and In-Vitro Research". Materials (Basel, Switzerland). 13 (8). doi:10.3390/ma13081843. PMC 7215465. PMID 32295303.
  10. Buzatta LN, Shimizu RH, Shimizu IA, Pachêco-Pereira C, Flores-Mir C, Taba M, et al. (August 2017). "Gingival condition associated with two types of orthodontic fixed retainers: a meta-analysis". European Journal of Orthodontics. 39 (4): 446–452. doi:10.1093/ejo/cjw057. PMID 27629261.
  11. 1 2 Cerroni S, Pasquantonio G, Condò R, Cerroni L (2018-09-28). "Orthodontic Fixed Appliance and Periodontal Status: An Updated Systematic Review". The Open Dentistry Journal. 12 (1): 614–622. doi:10.2174/1745017901814010614. PMC 6182882. PMID 30369970.
  12. Mitchell, Laura (2019). Introduction to Orthodontics (5th edition).
  13. CLINICAL GUIDELINES: ORTHODONTIC RETENTION C.Johnston, D.Burden & D.Morris (2008) Revised July 2013 published by British Orthodontic Society
  14. 1 2 Martyn T. Cobourne, Andrew T. DiBiase (2016). Handbook of Orthodontics (2nd edition).
  15. Burhenne M (March 27, 2020). "The Best 4 Ways To Clean Your Retainer (No Harsh Chemicals Required)". Retrieved 2020-05-11.
  16. 1 2 Cerroni, Silvia; Pasquantonio, Guido; Condò, Roberta; Cerroni, Loredana (2018). "Orthodontic Fixed Appliance and Periodontal Status: An Updated Systematic Review". The Open Dentistry Journal. 12: 614–622. doi:10.2174/1745017901814010614. ISSN 1874-2106. PMC 6182882. PMID 30369970.
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