Dens evaginatus


Dens evaginatus is a rare odontogenic developmental anomaly that is found in teeth where the outer surface appears to form an extra bump or cusp.
Premolars are more likely to be affected than any other tooth. It could occur unilaterally or bilaterally. Dens evaginatus typically occurs bilaterally and symmetrically. This may be seen more frequently in Asians.
The prevalence of DE ranges from 0.06% to 7.7% depending on the race. It is more common in men than in women, more frequent in the mandibular teeth than the maxillary teeth. Patients with Ellis-van Creveld syndrome, incontinentia pigmenti achromians, Mohr syndrome, Rubinstein-Taybi syndrome and Sturge Weber syndrome are at a higher risk of having DE.

Signs and symptoms

It is important to diagnose DE early and provide appropriate treatment to help prevent periodontal disease, caries, pulpal complications and malocclusion. It occurs on the cingulum/occlusal surface of the teeth. The extra cusp can cause occlusal interference, displace of the affected tooth and/or opposing teeth, irritates the tongue when speaking and eating and decay the developmental grooves. Temporomandibular joint pain could be experienced secondarily due to occlusal trauma caused by the tubercle.
This cusp could be worn away or fractured easily. In 70% of the cases, the fine pulpal extension were exposed which can lead to infection, pulpal necrosis and periapical pathosis.

Associated anomalies

The cause of DE is still unclear. There is literature indicating that DE is an isolated anomaly. During the bell stage of tooth formation, DE may occur as a result of an unusual growth and folding of the inner enamel epithelium and ectomesenchymal cells of dental papilla into the stellate reticulum of the enamel organ.

Diagnosis

Diagnosis of DE can be difficult when there is no signs and symptoms of necrotic or infected pulp. It is a challenging task to differentiate between a true periapical lesion and a normal periapical radiolucency of a dental follicle of an immature apex.
The anterior DE tubercles have an average width of 3.5mm and length of 6.0mm, while posterior tubercles have an average 2.0mm in width and length of up to 3.5mm. If the cusp of Carabelli is present, the tooth associated are often larger mesiodistally and it is not uncommon that a DE involved tooth has an abnormal root pattern.
There are 4 different ways to classify/ categorize DE involved teeth.
  1. Schulge classification, teeth falls into 5 categories according to the location of the tubercles
  2. *
  3. * Tubercle on the inclined plane of the lingual cusp
  4. * Cone-like enlargement of the buccal cusp
  5. * Tubercle on the inclined plane of the buccal cusp
  6. * Tubercle arising from the occlusal surface obliterating the central groove
  7. Lau's classification, divide teeth into groups according to their anatomical shape
  8. * Smooth
  9. * Grooved
  10. * Terraced
  11. * Ridged
  12. Oehlers classification, teeth categorized depending on the pulp contents within the tubercle
  13. * Wide pulp horns
  14. * Narrow pulp horns
  15. * Constricted pulp horns
  16. * Isolated pulp horn remnants
  17. * No pulp horn
  18. Hattab et al. classification
  19. * Anterior teeth
  20. ** Type 1 - Talon, a well defined additional cusp that projects palatally and extends at least half the distance from the cementoenamel junction to the incisal edge
  21. ** Type 2 - Semitalon, an addisional cusp that extends less than half the distance from the CEJ to the incisal edge
  22. ** Type 3 - Trace talon, prominent cingula
  23. * Posterior teeth
  24. ** Occlusal DE
  25. ** Buccal DE
  26. ** Palatal DE/ Lingual DE

    Management

If the tooth involved is asymptomatic or small, no treatment is needed and a preventative approach should be taken.
Preventative measures include:
For teeth with normal pulp and mature apex, reduce the opposing occluding tooth. Reinforce the tubercle by applying flowable composite. Occlusion, restoration, pulp and periapex assessment should be done yearly. When there is adequate pulp recession, tubercle can be removed and tooth can be restored.
For teeth with normal pulp and immature apex, reduce the opposing occluding tooth. Apply flowable composite to the tubercle. Occlusion, restoration, pulp and periapex assessment should be done every 3–4 months until the apex matures. When there is signs of adequate pulp recession, tubercle can be removed and tooth can be restored.
For teeth with inflamed pulp and mature apex, conventional root canal treatment could be carried out and restored accordingly.
For teeth with inflamed pulp and immature apex, shallow MTA pulpotomy could be performed and then restore with glass ionomer and composite.
For teeth with necrotic pulp and mature apex, conventional root canal therapy could be done and restored.
For teeth with necrotic pulp and immature apex, MTA root-end barrier could be carried out. Glass ionomer layer and composite could be used to restore the tooth.
If there is occlusal interference, the opposing projection should be reduced. Make sure that the tubercle does not contact other teeth in all excursive movement. This is usually done over a few appointments, 6 to 8 weeks apart to allow the formation of reparative dentin to protect the pulp. Fluoride varnish should be applied onto the ground surface. Recall the patient for follow-up after 3, 6 and 12 months.
In some cases, extraction could be considered