Orthodontic Treatment of Impacted Teeth. Adrian Becker
treatment
The surgical elimination of pathology
The principles of the surgical exposure of impacted teeth
Partial and full‐flap closure on the palatal side
A conservative attitude to the dental follicle
Pathological pressure necrosis
Quality‐of‐life issues following surgical exposure
Cooperation between surgeon and orthodontist
The team approach to attachment bonding
A brief history of surgery in relation to the treatment of impacted teeth
Prior to the 1950s, few orthodontists were prepared to adapt their skills and their ingenuity to the task of resolving the impaction of maxillary canines and incisors, many preferring to refer these patients to the oral surgeon. The decision regarding the method of treatment of a particular impacted tooth was usually made by the oral and maxillofacial surgeon (OMFS). It was OMFSs who considered the options, chose the one they felt was appropriate and stage‐managed the treatment process.
Surgeons would raise a flap, expose the tooth widely and only then make the decision whether to save the tooth or extract it. If, in their opinion, the impacted tooth could be brought into the dental arch, it would be left open to the oral environment with or without a surgical pack. If, in their judgement, this was unlikely to happen, they would extract the tooth on the spot and then write a note to that effect to the orthodontist. As can be imagined, many potentially retrievable, impacted teeth were thereby condemned to extraction.
The development of the role of the orthodontist in the rescue of impacted teeth was due to the realization that surgical treatment was just not enough. Whereas the elimination of the cause of the impaction and the provision of optimal space (by orthodontic means) did indeed provide a favourable environment to encourage autonomous eruption, it was clear that this alone was far from being universally successful. This led to the second realization: that orthodontic treatment alone was also not enough. It was acknowledged that, in order to achieve a more affirmative and quality result, with greater predictability, surgically afforded access would be required, together with the application of active and positive forces of traction/extrusion directly to the tooth.
From the early 1970s in the Hebrew University‐Hadassah School of Dental Medicine in Jerusalem, Israel, orthodontists joined forces with the OMFS at the chairside and in the operating theatre, to adapt and cement preformed canine orthodontic bands during the surgical procedure itself. This had been the procedure prior to the era of acid‐etching enamel and direct bonding of brackets. As a result, many more of these teeth were reclaimed and, in time, took their rightful place in the dental arch. However, in order to place a band, the entire crown needed to be dissected free of its dental follicle and clear of adjacent bleeding surfaces. This demanded radical surgery and efficient isolation of the tooth during the cementation process. Not every surgeon was willing to cooperate, thereby making the orthodontist much more selective in the choice of surgeon, particularly for difficult cases [1, 2].
Although it had been proposed for use in dentistry in the mid‐1970s, direct composite bonding at the time of surgery was not adopted for use with impacted teeth until quite late after its introduction to clinical dentistry. Initially, many opinion leaders in the profession were not prepared to recommend the method, because of the inability to employ rubber dam isolation. They felt that it was not possible to achieve appropriate conditions for acid‐etch bonding in the surgical field.
Nevertheless, in 1996, the efficacy and reliability of the more modest surgical requirement of merely exposing a small area of crown enamel were investigated, recognized and finally reported in the literature [3]. Many of the cases comprising the investigated sample in that study involved impacted teeth that would earlier have been regarded as intractable and no doubt would have been extracted.
This development had a very positive effect on the role, ability and expertise of the orthodontist to treat impacted teeth. We now had a more user‐friendly method of bonding attachments, which encouraged the involvement of the surgeon in creating a more easily isolated and contamination‐free area of crown enamel. There can be no doubt that the use of composite bonding made the work of the orthodontist much simpler to perform. In addition, the more modest scope of the surgical exposure that was now required immeasurably improved the quality of the results achieved.
A half‐century has passed since the time when we, like every other orthodontist, would send patients to the surgeon to expose the tooth. Since that time, our contrasting protocol in Jerusalem has been to accompany the patient to the surgeon. Following the actual exposure of the tooth, the surgeon assumes the task of control of bleeding. The OMFS will also establish and maintain the moisture‐free area to provide the orthodontist with access to the tooth and optimum conditions for cementation. No longer does the surgeon go off to drink coffee and leave the orthodontist to struggle in the attempt to bond an attachment with inadequate moisture control! So much so, that today’s orthodontist who works in conjunction with the surgeon, has become more and more adventurous and prepared to tackle some of the most inaccessible impacted teeth [3]. This, together with the blessing of cone beam computed tomography (CBCT) imaging as a convenient tool for accurate positional diagnosis, has materially reduced the frequency of failure in the treatment of impacted teeth [4].
This subject was discussed at length in the article ‘Surgical treatment of impacted canines: what the orthodontist would like the surgeon to know’, which appeared in the August 2015 issue of Oral and Maxillofacial Surgical Clinics of North America [5]. The main thrust of the article was that it is in the interests not only of the patient, but also of the surgeon and the orthodontist, that both specialists be present and actively involved at the surgical procedure. Initially, the guest editor of that specific issue expressed concerns that the realities of practice in North America may make this impossible on a routine basis. In response, we pointed out that certain operative decisions, which are not always foreseeable until the surgical field is opened up, often need to be made chairside. Such decisions might include most or all of the following:
Whether to place an attachment.
Where to place it on the crown.
In which direction to draw the gold chain or twisted steel ligature connector.
Where it should exit the surgical area.
Whether the surgically exposed area should remain open or closed.
Whether to apply traction force to the orthodontic appliance at the time or at a subsequent appointment.
There are many ways available to the surgeon or periodontist to expose a tooth, any of which could be successfully performed in most cases. However, it is the orthodontist who should choose the most advantageous method [6–8] in order to identify the optimum attachment bonding site and the location of surgical entry to it, and to determine the type of exposure to be performed; all of the above, in order to be in a position to direct and apply the appropriate biomechanical force. Choice of surgical technique must aim to produce the healthiest and most aesthetic soft tissue architecture, which will be present after the tooth is brought