Orthodontic Treatment of Impacted Teeth. Adrian Becker

Orthodontic Treatment of Impacted Teeth - Adrian Becker


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force required to elicit eruption will be in the range of 20–40 g/cm2 of root surface.

      Soft tissue resistance must also be taken into consideration. With a simple window technique exposure, the crown of the tooth is free to erupt directly to its place, with little or no interference from the soft tissues. The full traction force is transmitted to the PDL at the cementum/alveolar bone interface. By contrast, a closed eruption technique will leave the tooth covered by a soft tissue flap, which will have been firmly sutured into its former place. Some of the applied traction will then be dissipated in overcoming the tension of this soft tissue flap and must therefore be increased to reach the threshold needed for tooth movement.

      When traction is applied to a tooth following an apically repositioned flap procedure, tension is created in the tissues by virtue of the fact that the flap has been sutured superiorly to the labial side of the tooth. This tension is eruptively directed and may then cumulatively magnify the applied force. For this reason, it is sometimes advisable in the first instance to rely only on pressure from the sutured flap, leaving the application of biomechanical traction to a subsequent visit. This is particularly relevant in cases where the tooth is high and labially or buccally displaced.

       Bone anchor screw

      Treating impacted teeth largely has to do with the facility to develop vertical eruptive forces and to bring them to bear on ‘vertically challenged’ teeth. At best, there is very little bone in the same jaw coronal to an impacted tooth at the outset, and certainly less or none after the tooth has been surgically exposed. This leaves precious little opportunity to establish an ‘anchor’ against which to tie elastic modules and chains for the horizontal movement of teeth in various directions [19, 20]. As a means of obtaining skeletal anchorage, a simple titanium screw temporary implant is often used in routine orthodontics. A screw device is placed as the base, to which traction may be applied from a small distance to attempt to obtain an appreciable range of action.

      Using a TAD as a direct anchor in the opposite jaw, in the absence of an orthodontic appliance, has the clear advantage that there can be no adverse (particularly intrusive) movement of the teeth adjacent to the impacted tooth, since these are not exploited as anchor units. Nevertheless, this method demands the cooperation of the patient in the placement of intermaxillary elastics, stretching from the device to the pigtail ligature hook, which itself extends from the bonded orthodontic bracket/button/eyelet on the impacted tooth. These two rigid extremities on which to place the elastic are not always easily accessible for the patient or even for a dedicated parent, and may accordingly prove to be impractical in some cases. To circumvent this problem, it will be necessary to place a full orthodontic appliance, which is stabilized by ligation to a TAD on the affected side in the opposing dental arch. This provides an implant‐supported anchor arch configuration. Intermaxillary traction from any conveniently located hook or bracket on that appliance may then be applied directly to the attachment on the impacted tooth, without fear that the teeth in the anchor arch will over‐erupt. This will also assume that the attachment hook on the impacted tooth is accessible for the patient and is not painful to manipulate.

      Impacted second molars, which are largely inaccessible for the patient, require a more circuitous approach. This approach dictates setting up the same implant‐supported configuration in the opposing anchor arch, but in this case a full appliance also needs to be placed in the affected arch.

      The logistics are as follows:

       An accessory archwire, custom‐designed eruption spring or elastic chain is ligated in active mode between a convenient location on the main arch and the attachment on the impacted tooth, the aim being to erupt the tooth.

       In order to overcome the tendency of the reactive force to intrude the teeth on that side of the dental arch of that jaw, vertical elastics are prescribed to be placed by the patient between convenient and easily accessible hooks or buttons between upper and lower appliances.

      When a maxillary impacted canine does not respond to extrusive forces that are applied from a molar‐to‐molar, fully bracketed orthodontic set‐up, it may be due to ankylosis or to invasive cervical root resorption (ICRR). As the result, a distinct cant of the occlusal plane is produced, due to intrusion of all the teeth ligated to the archwire, but mostly of the immediately adjacent teeth (Figure 2.8), illustrating severe loss of anchorage. If the orthodontist then looks to include the mandibular dental arch to increase the anchorage, while maintaining the extrusive force on the canine, there will be no improvement, but the teeth in the lower jaw will begin to over‐erupt and a cant will develop in that jaw.

      Once the diagnosis has been made, the canine needs to be disconnected from the extrusive element and the cant must be corrected. In order to achieve this, a TAD screw should be placed in the lower jaw and linked by an elastic chain to the full lower archwire. This indirect anchorage system guarantees the anchorage potential of the mandibular dentition. The over‐eruption and asymmetry may be corrected by vertical intrusion in the mandible and, with intermaxillary up‐and‐down elastics, vertical extrusion in the maxilla, to restore the occlusal plane and the occlusion to normal. Only if the ICRR or ankylosis of the canine can be treated successfully can vertical forces then be reapplied, with the expectation of a positive outcome.

      The phenomenon of non‐eruption of a tooth in one jaw is often accompanied by over‐eruption of its antagonist, particularly in the molar region. The ostensibly successful resolution of an impacted mandibular second molar may actually be prejudiced by being prevented from reaching the occlusal plane, due to its elongated opposite number. To treat the over‐erupted tooth, a simple titanium screw implant may be inserted on the palatal side of the alveolus adjacent to the second molar and an elastic chain stretched from this TAD to the zygomatic plate, across the occlusal surface of the tooth. In this manner, intrusive force is applied by the chain and a rapid reduction in the height of the tooth may be achieved. This reduction in height will then permit the vertical elastic from the plate to the mandibular second molar to erupt the tooth to its ideal height in relation to the occlusal plane, without the need to involve conventional multibracketed orthodontics in the eruption process.


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