The Effect of Antimicrobial Photodynamic Therapy on the Success of Root Canal Treatment

Not Applicable

Completed

• Conditions: Antimicrobial Photodynamic Therapy
• Interventions: Procedure: Standard Needle Irrigation (SNI); Procedure: Passive Ultrasonic Irrigation (PUI; Procedure: EndoActivator (EA); Procedure: EDDY

• Registration Number: NCT06634745
• Lead Sponsor: Saglik Bilimleri Universitesi

Brief Summary

The decontamination of the root canal system from pathological microflora is essential for the success of endodontic treatment. Mechanical instrumentation and irrigation solutions, known as the chemomechanical process, are typically used for this purpose. However, due to the complex anatomy of teeth, residual microorganisms can remain, potentially affecting treatment success and weakening dentin walls. This has led to the development of more effective irrigation and disinfection systems.

Antimicrobial photodynamic therapy (aPDT) has emerged as a promising adjunct to traditional methods. aPDT is used to eliminate resistant microorganisms in various medical fields, including dentistry, and has been shown to effectively destroy oral bacteria in both planktonic and biofilm forms. However, aPDT is not a replacement for traditional endodontic procedures but can be used as an adjunct in root canal disinfection.

aPDT works through the presence of a photosensitizer, a radiation source with a sufficient wavelength, and oxygen, producing reactive oxygen species (ROS) that have a bactericidal effect. Methylene blue (MB) is a common photosensitizer, but it can cause tooth discoloration and is difficult to remove. Alternatives to MB are being sought.

Different activation techniques, such as passive ultrasonic irrigation (PUI) and sonic activation systems (SAS), have been developed to enhance the effectiveness of irrigation solutions. Studies have shown that PUI and SAS have similar effectiveness in traditional endodontic irrigation. Enterococcus faecalis is a particularly resistant bacterium involved in endodontic infections. While MB's effectiveness against E. faecalis is documented, there is a lack of studies comparing its effectiveness with ultrasonic and sonic systems in necrotic and periapical lesion teeth. There is also limited research on the discoloration potential and postoperative pain of MB when used with various activation systems. The study hypothesizes that there will be no significant difference in lesion healing, postoperative pain, and discoloration potential with different activation systems using aPDT.

Detailed Description

It is well known that the decontamination of the root canal system from pathological microflora is a prerequisite for the success of endodontic treatment. In addition to mechanical instrumentation, various irrigation solutions and intracanal medications are used to decontaminate the root canal from microorganisms. The combined use of mechanical instrumentation and irrigation solutions is referred to as the chemomechanical process. However, due to the complex anatomy of the tooth structure, such as lateral canals, isthmuses, dentinal tubules, and accessory canals, residual microorganisms may remain despite the completion of the chemomechanical process. This can negatively affect the success of the treatment. Additionally, it is noted that the dentin walls may weaken as a result of chemomechanical preparation. Therefore, researchers often emphasize the need for more effective irrigation and disinfection systems.

Recently, the application of antimicrobial photodynamic therapy (aPDT) has been shown to be a promising addition to traditional methods. Today, aPDT is used to eliminate resistant microorganisms in cancer treatment, macular degeneration, arterial plaque, arthritis treatment, and dentistry. aPDT has been reported to effectively destroy oral bacteria present in both planktonic and biofilm forms. However, researchers state that aPDT cannot replace traditional endodontic procedures but can be used as an adjunct in root canal disinfection.

The working principle of aPDT is based on the presence of a specific photosensitizer, a radiation source with a sufficient wavelength, and the presence of oxygen in the environment. As a result of the reaction caused by aPDT, reactive oxygen species (ROS) such as singlet oxygen and free radicals are produced, leading to a bactericidal effect. Thus, a wide range of microorganisms can be eliminated without encountering the resistance problem of current bacterial strains. Additionally, aPDT offers various advantages due to its repeatability, low toxicity, and minimally invasive approach.

Various photosensitizers and light sources with different wavelengths are available for use in aPDT. One of the most widely used photosensitizers in the literature is methylene blue (MB) from the phenothiazine salts group. However, it is known that MB is difficult to remove after application and can cause tooth discoloration. Therefore, alternative photosensitizers to MB are being sought. Today, the antimicrobial efficacy of MB is well recognized. Due to the low absorption exhibited by phenothiazine dyes, which are among the most commonly used photosensitizers, multiple applications are required for a high drug dose and effective treatment outcome. The effectiveness of solutions is not solely dependent on the properties of the solution but also varies with the method used. Although the traditional needle irrigation method (GII) is still in use, its effectiveness is limited. Another method, manual dynamic activation (MDA), involves creating a hydrodynamic force in the irrigation solutions by moving a gutta-percha that fits well into a shaped root canal in a corono-apical direction at the working length. This method is frequently used as it does not require additional materials.

With technological advancements, different methods have been developed to enhance the effectiveness of solutions. The passive ultrasonic irrigation (PUI) method shows effectiveness by causing acoustic streaming through the vibration it generates. The solution is activated during the application without any contact with the root canal walls. Another method, the sonic activation system (SAS), has been used in endodontics for years and has proven its effectiveness. Several SAS devices from different manufacturers have been developed. One commonly used device, Endoactivator, has a polymer tip and works through sinusoidal oscillation. Another widely used device, EDDY (VDW, Munich, Germany), oscillates at 5000-6000 Hz, causing three-dimensional movement in the root canal and triggering cavitation and acoustic streaming. Studies have shown that the effectiveness of PUI and SAS on traditional endodontic irrigation solutions is similar. Enterococcus faecalis (E. faecalis) is a gram-positive facultative bacterium. It is among the most resistant strains involved in the development of anaerobic and endodontic infections. Although detailed literature reviews have shown studies proving the effectiveness of MB on E. faecalis bacteria, there is no study comparing the effectiveness of MB solution in necrotic and periapical lesion teeth using ultrasonic and sonic systems. It has been found that there is no comprehensive study in the literature comparing the discoloration potential and postoperative pain of MB applied with various activation systems. The null hypothesis of the study is that there will be no significant difference in lesion healing, postoperative pain, and discoloration potential with different activation systems using aPDT.

Study Timeline

• Status Verified: 2023-05
• Study Start: 2023-06-20
• Primary Completion: 2024-03-15
• Study Completion: 2024-07-14
• Study First Submitted: 2024-09-27
• Study First Submitted QC: 2024-10-08
• Last Update Submitted: 2024-10-08
• Study First Posted: 2024-10-10
• Last Update Posted: 2024-10-10

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 60

Inclusion Criteria

• Teeth that had not undergone previous root canal treatment.
• Teeth with a single root and a single canal.
• Teeth with apical periodontitis.
• Teeth with periodontal lesion size less than 5 mm.
• Teeth without sinus tract or acute apical abscess.
• Patients without systemic diseases.
• Patients not pregnant.
• Patients who volunteered to participate in the study.
• Patients who agreed to attend follow-up sessions.

Exclusion Criteria

• Patients using medications such as antihypertensives or antidiabetics that could affect root canal treatment outcomes.
• Patients using corticosteroids or antibiotics.
• Patients with acute pain or extraoral swelling.
• Patients with a history of sinus tract or acute apical abscess.
• Patients with systemic diseases.
• Patients who are pregnant.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Standard Needle Irrigation (SNI) with MB Activation	Standard Needle Irrigation (SNI)	In this group, the activation of MB (Merck KgaA) was performed using a 30G NaviTip (Cermaked) with 1 activation cycle. The 30G NaviTip (Cermaked) was placed in the root canal 1 mm short of the working length and used with a 3-4 mm amplitude. The MB (Merck KgaA) solution was activated for 1 minute and renewed during the treatment
Passive Ultrasonic Irrigation (PUI) with MB Activation	Passive Ultrasonic Irrigation (PUI	In this group, the activation of MB (Merck KgaA) was performed using Ultra X (Eighteeth, Changzhou, China) and a #25 ultrasonic endodontic tip (Eighteeth) at a frequency of 45 kHz. The ultrasonic endodontic tip was placed in the root canal 1 mm short of the working length and the MB (Merck KgaA) solution was activated for 1 minute. During the activation process, care was taken to ensure the ultrasonic endodontic tip moved freely within the canal, and the MB solution was renewed during the treatment.
EndoActivator(EA) with MB Activation	EndoActivator (EA)	In this group, the activation of MB (Merck KgaA) was performed using a polymer EA tip (Dentsply, Tulsa, OK) with a 25.04 tip diameter, which was placed into the canal 2 mm short of the working length. The activation procedure was carried out for 1 minute using the EA sonic irrigation device at 10,000 cycles, and the MB (Merck KgaA) solution was renewed during the treatment.
EDDY with MB Activation	EDDY	In this group, the activation of MB (Merck KgaA) was performed using a polymer EDDY tip (VDW, Munich, Germany) with a 25.04 tip diameter and the Sonicmax sonic device (Maximum Dental Inc., Secaucus, NJ, USA) with one activation cycle. The EDDY (VDW) tip was placed in the canal 1 mm short of the working length and moved in a corono-apical direction at a frequency of 6 kHz and an amplitude of 5 mm for 1 minute to achieve MB activation. The MB (Merck KgaA) solution was renewed during the treatment.

Primary Outcome Measures

Name	Time	Method
Reduction in Bacterial Load	Up to 6 months	This study aims to evaluate the effectiveness of antimicrobial photodynamic therapy (aPDT) using different irrigation activation techniques in teeth with apical periodontitis. The study will be conducted as a randomized, parallel-group clinical trial with four intervention groups: Standard Needle Irrigation (SNI), Passive Ultrasonic Irrigation (PUI), EndoActivator (EA), and EDDY.

Trial Locations

Locations (1)

University of Health Sciences Gulhane; 🇹🇷 Ankara, Turkey