List of Orthodontic Functional Appliances

From Wikipedia, the free encyclopedia
Jump to navigation Jump to search
Upper and Lower Jaw Functional Expanders

This is a comprehensive list of functional appliances that are used in the field of orthodontics. The functional appliances can be divided into fixed and removable. The fixed functional appliances have to be bonded to the teeth by an Orthodontist in their practice. A removable functional appliance does not need to be bonded on the teeth and can be removed by the patient. A removal appliance is usually used by patients who have high degree of compliance with their orthodontic treatment. Fixed appliances are able to produce very accurate movement in the teeth [1]

Both fixed and removable functional appliances can be used to correct a malocclusion in 3 planes of spaces: Anterior-Posterior, Vertical and Transverse. In the Anterior-Posterior dimension, appliances such as Class II and Class III are used. Appliances used in transverse dimension are utilized to expand either the maxillary or the mandibular arch. Appliances used in vertical dimension are used to correct open or deep bite.[2][3]

History[edit]

It is important to note that the dento-facial Orthopedics was mainly done in Europe initially as United States was introduced to Fixed Orthodontics by Edward Angle. Norman William Kingsley was the first person to show "jumping the bite" by using an anterior bite plate. Hotz then developed the Vorbissplate which was modification of Kingsley's plate. Wilhelm Roux is credited to be the first person who studied the effects of functional forces on Orthodontics in 1883. His workings were used by other dentists in future to study the dental orthopedics. His teachings became known as Roux Hypothesis, which Karl Haupl later expanded. Monobloc developed by Pierre Robin (surgeon) in 1902 is considered to be one of the first functional appliances in Orthodontics. The Monobloc was a modification of Ottolengui’s removable plate. In 1908, Viggo Andersen developed the Activator appliance. This was the first functional appliance to be widely accepted, especially in Europe. This appliance became the "Norwegian" system of treatment in Orthodontics in early 1900s.

In addition, in 1905 the Herbst Appliance was introduced by Emil Herbst. This appliance did not go through much evolution until the 1970s when Hans Pancherz revived interest in this appliance. In 1950s, Wilhem Balters modified Andersen's Activator appliance and gave the new appliance the name Bionator Appliance which was designed to produce forward positioning of the mandible. Positioner Appliance was developed by Harold Kesling in 1944 in order to aid the Orthodontic treatment during the finishing stage. The Frankel Appliance were developed by Rolf Frankel in 1957 for treatment of Class I, II, III Malocclusions . William Clark also developed Twin Block Appliance in 1978 which resembled Artur Martin Schwarz double plates that he developed in 1950s.

Fixed Appliances[edit]

Distalization Appliances[edit]

  • "New" Distalizer
  • Pasin-Pin-System
  • Barrel Fixed 3-Way
  • Beneslider
  • CD Distalizer Nance Appliance with Coil Springs
  • Carriere Distalizer
  • Crickett Appliance
  • Crozat Appliance
  • Distal Jet
  • Fast Back Appliance
  • First Class Appliance
  • Greenfield Molar Distalizer (Piston Appliance)
  • Intraoral Body Molar Distalizer (IBMD)
  • Jones Jig
  • Keles Slider
  • Korn Lip Bumper
  • K Loop Appliance
  • Lokar Appliance
  • Mandibular Anterior Repositioning Appliance (MARA)
  • Molar Distalization Bow
  • Multi-Distalizing Arch
  • Pendulum appliance
  • P-Rax Molar Distalizer
  • Simplified Molar Distalizer (FROG)
  • T-Rex
  • Veltri's Distalizer
  • Vertical Holding Appliance
  • Wilson's Bimetric Distalizing Arch

Class II Appliances[edit]

  • Amoric Torsion Coil
  • Herbst Appliance
    • MiniscopeTM Telescoping Herbst
    • Malu Herbst Appliance
  • MARA Appliance
  • Jasper Jumper
  • Eureka Spring
  • Twin Force Bite Corrector
  • Churro Jumper
  • Klapper Super Spring
  • Scandee Tubular Jumper
  • Magnetic Telescopic Device
  • Bionator Appliance
  • Higgins Xbow
  • PowerScope 2
  • Forsus Appliance
  • Ventral Telescope
  • IST Appliance
  • Biopedic Appliance
  • LM-Activator
  • BioBiteCorrector

Class III Appliances[edit]

  • Quick Fix
  • Modified Tandem Appliances (MTA)
  • Class III Tandem Bow
  • Carriere® Motion™ Appliance for Class III Correction
  • Face Mask

Intrusion Appliances[edit]

  • Rapid Molar Intruder

Mesialization Appliances[edit]

  • Mesial Jet
  • T Bar Appliance

Vertical Dimension Appliances[edit]

  • Thurow Appliance
    • Modified Thurow Appliance

Removable Appliances[edit]

Components[edit]

Some of the components of removal appliances are retentive in nature. They are usually connecting by an acrylic component known as baseplate. The majority of the appliances include components such as Labial Bow and Adams Clasp, both of these components are passive in nature. Labial bow is a wire attached to the baseplate which goes around the incisor teeth to provide retention of those teeth. Labial bow usually have U-Loops at the end to allow it to activate more. Adams clasps are used for retention of these removable appliances and are usually fabricated in the molar areas. They are usually manufactured from 0.7mm hard stainless steel wire (HSSW), or 0.6mm HSSW when planned for deciduous teeth.[4] Removal of the appliance is usually performed by holding the bridge of this clasp. Other clasps that are usually used are C clasps on canines, Southend Clasp (on anteriors),[5] Ball-ended clasp (primarily for use with the Twin Block system in the lower anteriors)[6] and Plint clasp.

Active components of removable appliances include springs which provides light forces on a tooth to move it orthodontically. Components such as Palatal Finger Springs, Buccal Canine Retractor, Z-Spring, T-Spring, Coffin Spring, Active Labial Bows (Mill's Bow or Roberts retractor), Screws and Elastics are all considered to be active components of the removable functional appliances. If a spring is moving one tooth it is made of 0.5mm thick stainless steel wire. The thickness increases to 0.6 or 0.7mm wire if it is to move more teeth or a larger/multi rooted tooth.[7]

  • Palatal Finger Spring - These springs are used to move teeth buccally or lingually.
  • Buccal Canine Retractor - These springs are used to bring a buccaly placed canine more lingual.
  • Z-Spring - This spring is used to move one or two teeth labially
  • T-Spring - This spring is used to move teeth labially.
  • Coffin Spring - This spring is used for expansion and can be substituted instead of a screw in an expansion device. They apply heavy forces and is activated by flattening the spring.

Class II Appliances[edit]

Class III Appliances[edit]

Transverse Appliances[edit]

Distalization Appliances[edit]

Orthodontic/Deprogramming Splints[edit]

  • Dorsal Splint
  • Superior Repositioning Splint
  • Farrar Splint
  • Maxillary Anterior Deprogrammer
  • Maxillary Flat Plane
  • Stack Bionator
  • Luco Splint
  • Gelb Splint/MORA
  • Modified Gelb Splint
  • Tanner Repositioning Splint
  • Pull Forward Splint
  • Flat Occlusal Plane Splint
  • Mini Deprogrammer
  • "B" Splint (Wilkerson Style)
  • Cranham Deprogrammer
  • Kois Deprogrammer
  • Full Contact Splint with Anterior Guidance
    • Pankey Style
    • Brucia/FACE Style
    • Dawson Style
    • Spear Style

See also[edit]

References[edit]

  1. ^ "https://www.bos.org.uk/Public-Patients/Orthodontics-for-Children-Teens/Treatment-brace-types/Fixed-appliances/Conventional"
  2. ^ Graber, T. M.; Swain, B. F., eds. (1984-12-01). Orthodontics: Current Principles and Techniques (2nd ed.). Mosby. ISBN 9780801619663.
  3. ^ Contemporary Orthodontics, 5e (5 ed.). Mosby. 2012-04-16. ISBN 9780323083171.
  4. ^ "Luther, F. A. & Nelson-Moon, Z. A. Removable orthodontic appliances and retainers : principles of design and use"
  5. ^ "Luther, F. A. & Nelson-Moon, Z. A. Removable orthodontic appliances and retainers : principles of design and use"
  6. ^ " Fleming, P. S. E. & Lee, R. C. T. E. Orthodontic Functional Appliances: Theory and Practice."
  7. ^ "Luther, F. A. & Nelson-Moon, Z. A. Removable orthodontic appliances and retainers : principles of design and use"