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The Hall Technique is a non-invasive treatment for decayed baby back (molar) teeth. Decay is sealed under preformed (stainless steel) crowns, avoiding injections and drilling. It is one of a number of biologically orientated strategies for managing dental decay.
Contents
- History
- Decay in baby teeth
- Indications
- Contraindications
- Procedure
- Advantages
- Disadvantages
- Patient Expectations
- Alternative Therapies
- References
The technique has an evidence-base showing that it is acceptable to children, parents and dentists and it is preferred over standard filling techniques, due to the ease of application and overall patient comfort as young patient don't have to undergo traumatic injections. Preformed metal crowns are now recommended as the optimum restoration for managing carious primary molars. There are now 5 randomised control trials that have shown the Hall Technique to be superior to other methods for managing decay in baby teeth but there is a lack of evidence to conclude that the Hall technique is superior to placing preformed metal crowns in a conventional manner. Initial fears over the potential problem with sealing caries into teeth being that the caries process might only be slowed, rather than arrested and that the caries might still progress, leading to pain and infection later. This problem has not been realised with one study showing long-term data beyond 5 years, to when the baby teeth are lost, with less problems from the tooth with the crown.
Crowns placed using the Hall Technique have better long term outcomes (pain/infection and need for replacement) compared with standard fillings.
History
Preformed metal crowns have been used for restoring primary molars since the 1950s. Literature suggests preformed crowns placed on carious primary molar teeth reduce risk of major failure or pain in the long term compared to fillings. There is also evidence to suggest that fitting crowns using the Hall Technique reduces patient discomfort at the time of treatment in comparison to conventional fillings. It can also help reduce the overall time a patient spends in the dental chair due to the relatively simple and quick procedure when compared with traditional method of SSC application. The Hall Technique is named after Dr. Norna Hall, a dentist working in Scotland, who has developed a simplified technique where the crown is simply cemented over the carious primary molar, with no local anaesthesia, caries removal, or tooth preparation of any kind.
The Hall Technique has been included in a guideline of the Scottish Dental Clinical Effectiveness Programme (SDCEP) and has helped to drive change in how dentists manage decay in primary teeth from the traditional invasive surgical approach to the less-invasive biological management of decay. The traditional method for management of dental caries has evolved form the exclusive domain of techniques based on complete caries removal prior to tooth restoration. Dr. Norna Hall used pre-formed crowns and cemented over carious primary molars using a glass-ionomer luting cement, with no caries removal, tooth preparation, or local anaesthesia.
Clinical trials have shown the Hall Technique to be effective, however it is not an easy, quick fix solution to the problem of carious primary molars. The technique is not suited to every tooth, child or clinician, however it can be an effective method of managing carious primary molars. Hall technique should not be used when there are clinical or radiographic signs and symptoms of irreversible pulpitis or dental abscess. Radiographically, there should be a clear band of dentine between the carious lesion and pulp for a Hall Technique to be suitable.
Decay in baby teeth
Baby teeth are known as primary teeth or deciduous teeth. Biologically orientated strategies for managing dental decay are considered by their proponents to have advantages for child patients receiving dental care as the techniques are less invasive and often avoid having to use local anaesthesia and drilling. They are also less destructive and potentially damaging for primary teeth. Five randomised control trials with children, on decayed primary teeth, have been carried out looking at incomplete, or no removal of decay. These have looked at how much pain and infection or repeated treatment biological techniques (including the Hall Technique) compare to other treatment techniques including complete caries removal. These "minimal intervention" approaches reduce some of the adverse consequences associated with carrying out restorative treatment: conservation of tooth structure and integrity, maintenance of maximum pulpal floor dentinal thickness, which reduces the impact on pulpal health; reduced pulp exposure, and less need for local anaesthesia if no vital dentine is being removed, which has been shown to reduce children’s reported discomfort.
A Cochrane systematic review has compared biologically orientated strategies (stepwise, partial and no-caries removal), with complete caries removal for managing decay in both primary and permanent teeth. Eight trials of 934 patients (1372 teeth) with outcomes reported for 1191 teeth were included in the analyses. The conclusion of the review was that for symptomless and vital teeth, biologically orientated strategies had clinical advantages over complete caries removal in the management of dentinal caries. Not only were there no differences in restoration longevity or in the numbers of teeth (or patients) experiencing pulpal pathology (pain or infection), but there were significantly less pulp exposures. For partial caries removal in primary teeth, this was a risk ratio of 0.24 [0.06,0.90], when caries was not completely removed.
Indications
Hall technique stainless steel crowns (SSC) are indicated in the following situations:
Contraindications
Hall Technique stainless steel crowns are contraindicated in the following instances:
Procedure
The Hall Technique sometimes requires several appointments to allow separation of the teeth, in order to place the preformed crown to be fitted with no additional tooth removal or anaesthetic. A downloadable manual is available (see Further Reading at the end of this article).
Diagnostics and radiographs will be required initially. Once it has been established that the Hall Technique is indicated the following stages will be likely to occur.
Appointment 1: Separator placement
To enable the stainless steel crown to be placed on the tooth, there must be sufficient space between the teeth. If this space is not currently available, orthodontic separators may be placed between the tooth indicated for the Hall Technique and adjacent teeth (see image 1). If the placement is impaired due to interproximal breakdown a temporary restorative material may be used to build up the contact point, to allow the effective placement of separators. However temporary restorative material is not a common practice of the Hall Technique, and case selection appropriateness should be considered. The separators are generally placed 3–5 days prior to the placement of the stainless steel crown to space to be created. The clinician will provide advice on this procedure and how to proceed if these fall out prior to the next appointment. Appointment 2: Hall Technique
The stainless steel crowns are selected by tooth type, location and size (see image 2). The tooth will be measured to identify the most suitable size of stainless steel crown. The clinician will try the stainless steel crown prior to its cementation, to ensure that it fits correctly, and establish if an alternative size or contouring of the stainless steel crown is required. When placing the stainless steel crown within the mouth, the airways will generally be protected by placing gauze around the site, or the clinician may secure the stainless steel with tape/Elastoplast. Once a correct size/fit is established, the crown may be adhered to the tooth. The stainless steel crown is secured to the tooth by partially filling the stainless steel crown with a self curing glass ionomer cement and then placing over the tooth. The stainless steel crown should “click” securely into place. The patient is required to bite firmly onto a cotton roll or bite stick to secure it in the correct position whilst it sets. The excess of glass ionomer cement will be wiped off or removed with knotted floss from between the interproximal contact, and a sickle probe from the buccal gingival sulcus on the buccal and lingual/palatal surfaces.
Appointment 3: Follow up appointment
At follow up appointments the Hall technique crown will be assessed clinically and radiographically when required. The tooth will still be able to exfoliate naturally, and the tooth should exfoliate with the crown in place. However, if the patient experiences pain/discomfort after the initial few days, consult your dental professional. A dental professional should also be consulted if the crown falls off, as this will prevent the management of the decay.
Materials/Instruments