The Use of a Chelating Agent and Ultrasonic Tips in the Retrieval of Broken Rotary Ni-Ti

[drsushant]

The purpose of this article is to correlate the importance of irrigating with chelating agents (and their chemical reaction in eliminating the debris from between the flutes of separated nickel titanium files), with the ability to retrieve and/or bypass instruments separated within the root canal system.

Several methods and techniques have been advocated over the years for the removal of solid objects such as silver points and fragments of endodontic instruments that have been separated. If the coronal aspect of the fragment to be removed is accessible, it has the ability to be withdrawn from the canal by a variety of instrument systems. Examples of such systems include but are not limited to the Masseran™ Endodontic Kit (Micro-Mega, Lynnewood, Washington), the Cancellier Instrument Removal System™ (SybronEndo, Orange, CA) and the Ruddle IRS™ (Dentsply, Tulsa, OK). Recently, the use of piezoelectric ultrasonic units with their numerous compatible tips have facililated the incremental removal of dentin surrounding separated instruments as well as their vibratory removal. The use of a chelating agent will be shown to facilitate the removal and/or the dissolving of the debris trapped between the instrument flutes and the debris caught between the instrument itself and the dentinal wall.

Materials and Methods
The irrigation protocol used in this clinical study included the alternating use of a citric acid “50%” chelating solution, distilled water and chlorhexidine 0.12 or 0.2%.

One of the most important factors prior to instrument removal is the creation of a reservoir coronal to the separated fragment in order to receive the liquid.

This reservoir can be created with the use of modified gates glidden drills, #1 and #2 sectioned at their maximum cross-sectional to obtain a flat end and a predictable caliber (gg1=50, gg2=70), and an LA access bur (Sybron Endo) of appropriate size. The objective here is to create straight line access to the coronal aspect of the separated fragment for predictable removal as well as to provide a reservoir to hold an adequate volume of solution.

Sodium hypochlorite is probably the most widely used irrigant for root canal preparation.

For this procedure sodium hypochlorite is not recommended because this irrigant targets organic tissue and not the inorganic tissue that is meant to be demineralized in this situation. Citric acid has been recommended as a canal irrigant because of its ability to demineralize and to remove the smear layer6 which is thought to be mostly inorganic. Wayman et al.6 showed that 10,25, and 50% solutions of citric acid were all effective in removing calcium when used as a root canal irrigant. The demineralization effect of citric acid is apparently very rapid. Using dentinal discs, it has been shown that a 6% solution of citric acid required only 5s to remove much of the smear layer and exposed the orifices of the dentinal tubules. The distilled water is used to wash out the citric acid and the chlorhexidine acts as an antimicrobial agent.

The stropko™ Irrigator (Sybron Endo, Orange, CA) (Fig. 1) is also a very handy instrument to dry out the canal.

Once the reservoir has been created coronal to the separated fragment, a 50% solution of citric acid is used to fill it. The solution is brought in close contact with the fragment and the dentinal wall with a small caliber hand files such as a #06 or #08. The citric acid is then activated with a #15 ultrasonic file. This sequence is repeated frequently and small caliber precurved files are used in order to assure a good penetration of the irrigant and to try to create a path between the broken file and the dentine wall. This will allow the irrigant to be worked further apically and the fragment to be bypassed.
With the use of the dental operating microscope identification of the broken file separate from the dentinal wall and obturation material will become much clearer. Ultra sonic tips can be very useful in retrieving the separated instruments. The ultra sonic (piezoelectric) tips that are most useful are 4 Series (SybronEndo) consisting of three tips. The CT4 tip is the most robust tip and can be used at the highest levels, the UT4, a tip of medium thickness can be used at medium levels, and the SJ4, the finest tip, and should be used at the lowest power levels (Fig. 2).

The 4 Series tips are used in sequence a crown down manner from large size to medium size and then finally to small size. They should be introduced into the canal in contact with the broken file, activated for one or two minutes. They should be handled with a light touch and always kept in close contact with the exposed tip. Neither push pull movement nor excessive force should be applied as the objective is only to transmit vibration to the separated fragment so that it may be dislodged or further fragmented. This maneuver can be repeated several times, until the canal space is cleared. The first step is time-consuming and may need twenty to thirty minutes depending on canal configuration, canal length and position of the broken file. This technique is used in the straight coronal portion of the canal. If the separated fragment is located apical to the curve, and straight line access can’t be achieved then adequate vibrations can’t be delivered. In these cases, we often must be content by bypassing the separated instrument if it’s possible. The use of the dental operating microscope with fibreoptic illumination is very crucial for maximum predictability.