Surgical Repair of Post Perforation

Surgical Repair of Post Perforation

This patient presented without pain but presence of draining sinus tract in the buccal attached tissue over #7. The position of the draining sinus tract directly at the level of the post, normal periodontal probings and evaluation of the radiograph made me suspicious of a post perforation. (note the widened ligament to the level of the post, and completely normal appearance at the periapex)
Options discussed included retreatment or apical surgery. Since the crown is all porcelain, we decided to treat surgically.

Ochsenbein-Luebke surgical flap was selected to prevent recession of marginal gingival, and minimal loss of crestal bone. The periodontal attachment was still in tact following flap reflection despite the loss of buccal bone adjacent to the perforation.


Metal tip of the post was visible without any removal of any buccal bone.

The post was counter-sunk using a high speed handpiece.

Preparation of the root. Note that this was not the apex of the root. This repair was being done on the mid-root surface.


Geristore was selected as the restorative material. Since Geristore is a bonded material, moisture control is important. Astringedent was used for hemostasis and the root was acid etched, primed and bonded.

Geristore placed in the preparation and cured.

Geristore was contoured to the root surface.


Final film. This will be an interesting case to follow. Expect a good result and repair of boney defect. We'll continue to monitor this tooth over time. Endodontic surgery has provided a valuable service to this patient prolonging the life of this tooth, the crown and hopefully regenerating the boney defect

Removing a Broken Endodontic File

Removing a Broken Endodontic File

Anyone performing endodontics occasionally has a separated instrument. This case was referred for removal of a separated instrument.

The file is in the MB#2 canal. Since it is in the upper third of the canal, good visualization with a microscope and proper ultrasonic technique will make this file removal possible.

After finding the file, careful ultrasonic instrumention is used to remove dentin around the file - opening up the MB groove. This is done carefully without touching the file itself. We want to expose 2-3 mm of the file before we begin vibrating the file itself.

Too much contact with the file in this early stage can cause a coronal piece of the file to break off, making it more difficult.

Once the coronal coronal 2-3mm of the file has been accessed, the ultrasonic is placed on the most apical part of the file to begin vibrating it. This should loosen the file and vibrate it out. If the file breaks again, then repeat step one.

The file was removed and the MB#2 canal instrumented.

Removal of the separated instrument complete.

Use of an operating microscope is essential in effective removal of a separated instrument.

Regenerative Endodontics - New Frontiers in Endodontics

Regenerative endodontics is an exciting new concept that seeks to apply the advances in tissue engineering to the regeneration of the pulp-dentin complex. Multiple case reports have shown the ability for previously necrotic, immature teeth to "regenerate" pulp-like tissue allowing for continued development of the tooth.

Traditionally, when an immature tooth became necrotic, root development was arrested and the endodontic goal was to create some kind of calcific barrier against which we could obturate. This is known as Ca(OH)2 apexification. The downside to this treatment was length of treatment time and weak, short, thin roots that remained.

More recently, MTA apexification has become more common. This consists of debridement of the immature root and immediate obturation with MTA. This shortened the treatment time, but the problem of short, thin roots still remained.

Multiple case reports have shown the ability to remove the necrotic tissue and stimulate regeneration of pulpal-like tissue into the canal. This allows for the continued growth of the immature root. The dentinal walls thicken, the length of root increases, periapical lesions heal and the open apex closes.

This is a completely new way of approaching apexification and provides a glimpse at exciting new horizons in endodontics and tissue engineering. I was recently asked by a colleague if I had interest in placing implants. I explained to him that while implants provide a valuable service to replace missing teeth, as an endodontist, I am dedicated to preserving the natural tooth. I am grateful to work with so many great implant surgeons, but I expect there will come a day when real teeth are replaced with real, bioengineered teeth.

Here is an example of pulpal regeneration

This young patient had tooth #8 avulsed. The tooth was stored in milk <1hr>

Tooth #8 was accessed, pulpal tissue removed with minimal filing and copious NaOCl irrigation.

Coronal MTA plug placed w/ cotton & resin access filling.

At 2 months, the periapical lesion is gone and tooth is asymptomatic.

At 4 year recall, the apex has closed, the dentinal walls of the root have thickened and the tooth is asymptomatic and functional.