RU2210405C1 - Method for sterilizing pulp canals before preparation for obturation - Google Patents

Abstract

FIELD: medicine, stomatology. SUBSTANCE: one should introduce laser endodontic tip into direct canals at about 3 mm before apex. Sterilization is carried out with focused ray of CO₂-laser at 3-4 W power, 5-10 msec impulse duration, 0.3 sec interval duration between impacts. Then one should slowly introduce metal cannula and sterilize canal's lateral walls with defocused ray at 3 W power in impulse mode, 50 msec impulse duration and 0.2 sec pace. The suggested method enables to increase efficiency of treatment and sterilization of pulp canals' system. EFFECT: improved results. 2 ex

Description

 The present invention relates to medicine, namely to therapeutic dentistry, and can be used in the preparation and sterilization of the root canal system for obstruction.

 For many years, dentists, speaking of successful or unsuccessful treatment of root canals, have relied on the idea that a complete three-dimensional obstruction of the root canal system is necessary for the final cure and preservation of the tooth. This approach was strongly associated with the opinion that the violation of the marginal fit of the root filling material to the wall of the prepared root canal with the accumulation of root fluid and bacteria in the resulting space is a source of irritation and chronic inflammation, and ultimately leads to ineffective treatment, leading to failure . This is confirmed by a study of the degree of sealing of the filling of the apical canal (Dow, PR, and Ingle, JI: Isotope determination of root canal failure. Oral Surg. 8: 1100, 1955) and a study of long-term results (Ingle, JI, and Taintor, JF: Endodontics , ed. 3., Philadelphia, 1985, Lea & Febiger, p. 178). In addition, studies have shown that with channel sterility, impaired marginal fitting does not necessarily lead to prolonged inflammation and irritation (Phillips, JM: Rat connective tissue response to hollow polyethylene tube implants, J. Can. Dent. Assoc. 33:59, 1967) . Therefore, although the filling of the root canal system plays an important role, nevertheless, thorough treatment and cleaning of microorganisms is the main condition for successful treatment.

 The key to successful endodontic treatment - biomechanical cleaning and shaping the root canal - depends on the physician's ability to achieve optimal canal preparation before obstruction, since 95% of all postoperative complications are associated with this phase. If the patient complains of pain either between visits or after obstruction of the canal, if the patient develops an acute process after obstruction, the most likely cause is insufficient cleaning of the canal, pushing infected particles through the apical opening. Thorough biological and mechanical treatment of the root canal with hand tools has always been a time-consuming process (Rubin, L., et al .: The effect of instrumentation and flushing of freshly extracted teeth in endodontic therapy: a scanning electron microscope study, J. Endod . 3: 194, 1977).

 Effective root canal irrigation is also difficult, since it is extremely difficult to deliver the flushing solution to the apical zone.

 Often, a narrow canal does not allow for adequate irrigation, which leaves a mixture of dentine sawdust, bacteria and pulp residues inside the canal, which helps to block sections of the root canal, including lateral tubules, preventing its biological cleaning. The quality of root canal treatment depends on the complete elimination of residues of organic matter, gangrenous cells, as well as bacteria and toxins and the density of the root canal filling. In the traditional way, root canal sterility is very difficult to achieve, so the search for new effective ways to process and sterilize canals remains relevant at present.

 Despite the fact that the cleaning of the canal is carried out by in-channel instruments, machining alone is not enough to remove tissue residues from the canal system.

 The closest analogue of the claimed method of sterilization of tooth canals before preparing for obstruction is a method of machining a canal with endodontic instruments (RU 2143244 C1 (Novgorod State University named after Yaroslav the Wise), 12/27/1999).

 The prior art method for chemomechanical treatment of the root canal, which includes washing the canals with effective irrigation solutions. The literature presents the results of studies in which the complex effectiveness of many irrigation solutions - sodium hypochlorite, hydrogen peroxide, complexones, etc., is praised. (Ingle, J.I., and Taintor, J.F .: Endodontics, ed. 3., Philadelphia, 1985, Lea & Febiger, p. 178). However, it is generally recognized that the most important irrigation solution used in endodontics is sodium hypochlorite (NaOCl). The concentration of the solution used ranges from 0.5 to 5.25%, but usually it is 2.5%. Sodium hypochlorite has the property of dissolving living, necrotic and fixed tissues well. It has a pronounced bactericidal effect, is an excellent lubricant and bleaching agent, is long-lasting and cost effective (Rosenfeld, EF, James, GA, and Burch, BS: Vital pulp tissue response to sodium hypochlorite, J. Endod. 4: 140, 1978) .

 When using either of these two irrigants, it should be remembered that their use should be limited by the channel space. The ingress of these solutions outside the channel, especially under pressure, will lead to severe toxic effects, tissue damage, as well as acute pain and swelling. These concerns encourage doctors to significantly reduce the concentration of solutions used. However, a decrease in concentration leads to a significant deterioration in the effectiveness of the irrigant.

The disadvantages of this method are:
- hydrogen peroxide does not dissolve tissue and is not effective as a lubricant;
- when combining sodium hypochlorite with 3% hydrogen peroxide, their individual antibacterial properties are inhibited;
- it is extremely difficult to deliver the washing solution to the apical part of the canal;
- ingress of irrigants outside the channel leads to severe toxic effects, tissue damage, as well as the occurrence of acute pain and swelling;
- a decrease in the concentration of irrigants leads to a significant deterioration in the effectiveness of the irrigant.

 Tasks: Improving the efficiency of processing and sterilization of the root canal system.

The essence of the invention lies in the fact that the method of sterilization of the tooth canals in preparation for obstruction is carried out by a focused beam of a CO ₂ laser with a power of 3-4 W and a pulse duration of 5-10 ms, with an interval between exposures of 0.3 s.

 The method is as follows.

After trepanation, extirpation of the pulp or residual pulp tissue and mechanical expansion of the root canal to an ISO size 40, the canal is, as usual, washed with EDTA, sodium hypochlorite or hydrogen peroxide, cleaned and dried with paper pins. Then, the root canal is sterilized using a laser. To do this, the channel length, determined by X-ray or using an apex locator, is transferred to a laser endodontic tip with a length of 30 mm and a diameter of 0.4 mm (with a rubber stop), which is introduced into the direct channels, not reaching 3 mm to the apex, thereby purposefully the CO energy ₂ -laser is sent to the apical zone. To do this, repeating pulses with a power of 3-4 W and a duration of 5-10 ms are issued every 0.3 s. The total number of pulses should not exceed 20. This leads to the evaporation of fluid, organic tissue residues, bacteria and sterilizes the apical region of the root canal with its branches. The temperature in the apical region or in the periodontium should not exceed the physiological range. After that, slowly removing the metal cannula with a defocused beam of 3 W power in a pulsed mode with a pulse duration of 50 ms, the side walls of the channel are sterilized in 0.2 s increments.

 If the doctor does not have sufficient experience with the laser, sterilization of the root canal is recommended without anesthesia. In this case, the patient should be warned of possible painful sensations when the temperature rises, which he should inform the doctor about without making any sudden movements of his head so as not to provoke a cannula breakage. To cool between the individual stages of laser processing, you must pause. After sterilization of the root canal, it is no longer washed or cleaned with paper pins, as this can only lead to a new infection. Immediately after this, a traditional root canal filling is performed.

 It should be remembered that the laser beam should move exclusively in the direction from the apical position - out of the channel. This prevents the jamming of the laser cannula in the root canal. When the cannula is fixed, a strong temperature increase can occur in the corresponding section of the root canal, which threatens the occurrence of necrosis in the periodontal tissues. If a lot of organic material is left in the channel, then under the influence of the laser, having undergone coagulation and carbonization, it can fix the cannula and lead to breakage when trying to remove it.

 When preparing the root canals for obstruction (sterilization), the application of the proposed method was tested in 100 patients, 50 patients made up the control group, the treatment of which was carried out in the traditional way.

 In 52% of patients in the control group, the treatment of which was carried out in the traditional way, for 4-5 days, pain was felt when biting in the area of the causative tooth. The pain was sometimes aggravated by eating, especially hard. And in patients with the initial stages of periodontal disease - and longer.

 Patients who were preparing root canals for obstruction using the proposed method did not complain of pain (discomfort). In 4 patients, inconvenience occurred only when taking solid food, for 2-3 days.

 A follow-up examination 12 months after filling the canals in 5 (10%) patients of the control group revealed slightly painful percussion. In 4 (8%) patients, control x-rays showed an increase in the width of the periodontal gap and foci of rarefaction of bone tissue in the apical part of the roots.

 In patients of the main group, during the follow-up examination after 1 year, after treatment using the proposed method, the clinical picture was more favorable. There was no discomfort or pain. Radiologically, no changes were found in periodontal tissues.

 Example 1. Patient X., 49 years old, complained of spontaneous pain in the 45th tooth, occurring mainly at night. Soreness was aggravated by eating and from thermal stimuli. According to the patient, spontaneous pains appeared 7 days ago. The tooth was previously treated for tooth decay.

 An objective examination of the 45 tooth revealed the remains of an old seal. The sounding of the cavity 45 of the tooth is sharply painful. The reaction to cold is sharply positive. Percussion is weakly positive. On the R-gram, a carious cavity is visible, communicating with the cavity of the tooth, bone rarefaction is not detected.

 Diagnosis: Chronic pulpitis of 45 teeth.

Treatment: Under Mand. Anesthesia Sol. Ultracain DS forte, 1.7 ml, 45 tooth cavity was prepared. The tooth cavity is open. After trepanation, extirpation of the pulp or residual pulp tissue and mechanical expansion of the root canal to an ISO size 40, the canal was, as usual, washed with EDTA and sodium hypochlorite, and the cavity was cleaned and dried with paper pins. Then, the root canal was sterilized using a laser. To do this, the channel length, determined by x-ray and using apex locator, was transferred to a laser endodontic tip with a length of 30 mm and a diameter of 0.4 mm (with a rubber stopper), which was inserted into the direct channels, not reaching 3 mm to the apex, thereby purposefully the CO energy ₂ laser was directed to the apical zone. To do this, repeating pulses with a power of 3 W and a duration of 5 ms were issued every 0.3 s. The total number of pulses was 20. This led to the evaporation of fluid, organic tissue residues, bacteria and sterilized the apical region of the root canal with its branches. The temperature in the apical region or in the periodontium did not exceed the physiological range. After that, slowly withdrawing the metal cannula, a defocused beam with a power of 3 W in a pulsed mode, a pulse duration of 50 ms, a step of 0.3 s, sterilized the side walls of the channel.

 Channel 45 of the tooth was sealed with Sealapex material using lateral condensation using hook-shaped pins.

 The crown of the tooth was reconstructed with SYNERGY (Coltene, Swiss quality for Dentistry).

 When viewed after 3 days, the patient did not complain of pain and discomfort.

 At the control examination 1 year after treatment, the clinical picture was favorable. There was no discomfort or pain. Radiologically, no changes were found in periodontal tissues.

 Example 2. Patient V., 34 years old, complained of spontaneous pain in the 12th tooth, occurring mainly at night. Soreness was aggravated by eating and from thermal stimuli. According to the patient, spontaneous pains appeared 5 days ago. The tooth was previously treated for tooth decay.

 An objective examination of the 12 tooth revealed a carious cavity. The sounding of the cavity 12 of the tooth is sharply painful. The reaction to cold is sharply positive. Percussion is weakly positive. On the R-gram, a carious cavity is visible, communicating with the cavity of the tooth, bone rarefaction is not detected.

 Diagnosis: Chronic pulpitis of 12 teeth.

Treatment: Under Mand. Anesthesia Sol. Ultracain DS forte, 1.7 ml, 12 tooth cavity was prepared. The tooth cavity is open. After trepanation, extirpation of the pulp or residual pulp tissue and mechanical expansion of the root canal up to ISO size 40, the canal was, as usual, washed with EDTA, hydrogen peroxide, cleaned and dried with paper pins. Then, the root canal was sterilized using a laser. To do this, the channel length, determined by X-ray and using apex locator, was transferred to a laser endodontic tip with a length of 30 mm and a diameter of 0.4 mm (with a rubber stopper), which was inserted into the direct channels, not reaching 3 mm to the apex, thereby providing targeted energy CO ₂ laser in the direction of the apical zone. To do this, repeating pulses with a power of 4 W and a duration of 10 ms were issued every 0.3 s. The total number of pulses was 20. This led to the evaporation of fluid, organic tissue residues, bacteria and sterilization of the apical region of the root canal with its branches. The temperature in the apical region or in the periodontium did not exceed the physiological range. After that, slowly removing the metal cannula with a defocused beam of 2 W power in a pulsed mode, a pulse duration of 50 ms, a step of 0.2 sec, sterilized the side walls of the channel.

 The tooth canal 12 is sealed with Sealapex material using gutter pins and lateral condensation method.

 The crown of the tooth was reconstructed with SYNERGY (Coltene, Swiss quality for Dentistry).

 When viewed after 3 days, the patient did not complain of pain and discomfort.

 At the control examination 1 year after treatment, the clinical picture was favorable. There was no discomfort or pain. Radiologically, no changes were found in periodontal tissues.

 Thanks to additional sterilization of the root canals after vital extirpation, good results can be achieved. Even with gangrenous pulpitis, in many cases, if time and circumstances permit, teeth can be filled in one visit. But usually after sterilization, the drug substance is left in the root canal, and during the second visit, the canal is filled. Thus, it is possible to carry out successful root canal treatment and to preserve teeth important for prosthetics. The carbonated layer remains in the lumen of the channel. After that, the canal can be sealed without causing further postoperative complaints. Thanks to the sterilization effect in the apical region, a reduction of bacteria by 99% is achieved. High-quality filling of the canal completely closes the lumen of the canal and completes the treatment.

 Laser treatment of the root canal effectively, easily and quickly creates the conditions for optimal preparation of the canal with subsequent obturation. Laser-assisted root canal treatment reduces the frequency of postoperative complications associated with root canal preparation to zero. The sensitivity when biting after obturation of the root canal is minimal and lasts no more than 2-3 days.

 Analyzing the results of testing the method, we can conclude that the proposed method is convenient for use, well tolerated by patients, has no side effects and contraindications.

 The clinical advantages of using the proposed method are the ease and speed of use, the sterility of the treated surface. The method can be recommended to improve the quality of therapeutic treatment of root canals, especially in conditions of insurance medicine.

Claims (1)

A method of sterilizing tooth canals before preparing for obturation, characterized in that a laser endodontic tip is inserted into the direct canals without reaching 3 mm to the apex, sterilization is carried out by a focused beam of a CO ₂ laser with a power of 3-4 W, a pulse duration of 5-10 ms, with an interval between exposures of 0.3 s, then the metal cannula is slowly withdrawn and the side walls of the channel are sterilized with a defocused beam with a power of 3 W in a pulsed mode, a pulse duration of 50 ms, a step of 0.2 s.