The Safety and Effectiveness of Root ZX3 for Symptomatic Irreversible Pulpitis: A Protocol for a Single-Center, Open-Label, Single-Arm Clinical Trial
Takashi Matsuura, Asuka Aka, Hidetaka Ishizaki, Atsutoshi Yoshimura

TL;DR
This study will test a new dental device, Root ZX3, to quickly and safely relieve pain from a severe tooth condition called symptomatic irreversible pulpitis.
Contribution
This is the first clinical trial to evaluate the safety and effectiveness of Root ZX3 for treating symptomatic irreversible pulpitis.
Findings
The study will assess immediate pain relief and adverse events after using Root ZX3.
Results may establish Root ZX3 as a time-efficient option for managing acute pulpal pain.
The trial could provide a foundation for optimizing emergency dental treatment protocols.
Abstract
Background Root ZX3, a high-frequency dental generator introduced in 2021, utilizes high-frequency current (HFC) within the root canal to coagulate and incinerate pulp tissue in seconds. Despite its clinical potential, evidence regarding its specific application for symptomatic irreversible pulpitis (SIP) remains scarce. This study aims to evaluate the safety and clinical effectiveness of Root ZX3 for the management of SIP in a dedicated clinical trial. Specifically, the primary objective is to assess the immediate relief of spontaneous pain (primary endpoint) and the incidence of adverse events following HFC application. Methods In this single-center, single-arm trial, we will include 10 permanent teeth diagnosed with SIP. Following infiltration anesthesia and dental dam isolation, an access cavity will be prepared to allow the Root ZX3 tip electrode to contact the pulp tissue.…
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| Criteria | Description |
| P (Participants) | Patients with a tooth diagnosed with SIP |
| I (Intervention) | Application of HFC |
| C (Control) | Not applicable (single-arm trial) |
| O (Outcome) | Proportion of spontaneous pain resolved after intervention |
| Timepoint | Enrolment & | Assessment 1 | Assessment 2 |
| intervention | (Day 1, 2, 3, or 7 | (Two weeks after intervention | |
| (Day 0) | after intervention) | range ±7 days) | |
| Enrolment | |||
| Eligibility screening | X | ― | ― |
| Informed consent | X | ― | ― |
| Intervention | |||
| Intervention | X | ― | ― |
| Clinical assessment | |||
| Inspection | X | ― | X |
| Pain during treatment | ― | ― | X |
| Percussion | X | ― | X |
| Adverse events | X | ― | X |
| Questionnaire survey | ― | X | ― |
| Inclusion criteria | Exclusion criteria |
| Participants with a tooth | Participants with pacemakers or implantable cardioverter-defibrillators |
| diagnosed with SIP requiring pulpectomy | |
| Permanent teeth | |
| Teeth with spontaneous pain | |
| Teeth with a positive response to an electric pulp test | |
| Participants aged ≥18 years | |
| Participants who can complete the VAS assessment independently | |
| Teeth without periapical lesions | |
| Periodontal pocket depth of the target tooth <4 mm | |
| Absence of furcation lesions in the target tooth | |
| Alveolar bone resorption of the target tooth | |
| < one-third of the root length | |
| Participants who provide written informed consent |
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Taxonomy
TopicsEndodontics and Root Canal Treatments · Dental Erosion and Treatment · Dental Anxiety and Anesthesia Techniques
Introduction
Pulpectomy is one of the most common treatments for symptomatic irreversible pulpitis (SIP). According to clinical guidelines published in the Journal of Endodontics, pulpectomy remains the primary treatment for SIP, alleviating symptoms such as spontaneous pain, percussion pain, and others [1]. This approach is supported by the American Association of Endodontists' position statements on treatment planning for endodontic cases [2,3]. In clinical practice, many patients with SIP present without an appointment, requiring their emergency treatment to be performed within an already busy clinical schedule. It can be challenging to completely remove dental pulp tissue due to the complex anatomy of the root canal system. Residual pulp tissue after pulpectomy may cause postoperative pain, including occlusal pain, percussion pain, or pain during root canal preparation. Furthermore, performing root canal treatment within limited time frames may increase the risk of complications, such as pulp floor perforation, ledge formation, or file fracture, due to the need to rush the procedure. Deviations in root canal morphology, such as perforations or ledges, may complicate subsequent root canal treatment and could adversely affect the outcomes of retreatment should it become necessary [4,5]. Additionally, although preservation of peri-cervical dentine and minimally invasive root canal treatment are increasingly emphasized, root canal treatment undertaken under time pressure may also lead to excessive removal of cervical dentine [6].
In 2021, J. Morita Manufacturing (Kyoto, Japan) launched the Root ZX3, a next-generation apex locator [7]. While it serves primarily as a high-precision device for root canal measurement, it features an optional high-frequency module capable of generating high-frequency current (HFC; 530 kHz). By attaching this module, the device can utilize HFC within the root canal to coagulate and incinerate dental pulp tissue within a few seconds. The device can coagulate and incinerate pulp tissue even in complex, narrow root canals that cannot be entirely removed by mechanical instrumentation; however, clinical evidence regarding the use of Root ZX3 for the management of SIP is lacking. To assess the safety and efficacy of the Root ZX3 in managing SIP, this single-center, single-arm clinical study was developed.
Materials and methods
Trial design
This is a single-center, open-label, single-arm clinical trial. The PICO (Population, Intervention, Comparison, and Outcome) framework for this study is summarized in Table 1. To ensure comprehensive reporting, this protocol adheres to the Standard Protocol Items: Recommendations for Interventional Trials (SPIRIT) criteria [8]. We have included the finalized SPIRIT checklist in the Appendix.
Participant timeline
The schedule of enrollment, interventions, and assessments is summarized in Table 2.
Study setting
All clinical trial activities will take place at Nagasaki University Hospital in Nagasaki, Japan.
Sample size
As the clinical application of Root ZX3 for SIP lacks systematic evaluation, no preliminary data are available for a formal power calculation. This study is therefore designed as an exploratory, single-arm feasibility trial to obtain initial estimates of safety, effect size, and clinical variability.
A total sample size of 10 participants was selected based on feasibility requirements for early-phase device investigations, in which small cohorts (typically 10-20) were appropriate for identifying procedural concerns before larger trials. Given the absence of prior effect-size estimates for immediate postoperative pain relief with this device, a formal calculation would lack a meaningful basis. Data from these 10 cases will provide the necessary preliminary estimates to determine the power and sample size for future multicenter randomized controlled trials.
Eligibility screening
Eligibility will be confirmed by operators in accordance with the criteria listed in Table 3.
Intervention
After enrollment, the following procedure will be performed by operators. Following infiltration anesthesia, the targeted tooth will be isolated with a dental dam, and an access cavity will be prepared in the SIP tooth's pulp chamber using a rotary cutting instrument. Only minimal pulp exposure will be created to allow insertion of the electrode tip. The tip electrode of Root ZX3 was then inserted into the pulp tissue, and HFC (Mode 4; 530 kHz) was applied three times. The access cavity will be sealed with a temporary restorative material (Caviton; GC Dental Industrial Corporation, Tokyo, Japan). Finally, a questionnaire assessing post-treatment pain will be provided to the patient.
If the target tooth presents with extensive caries and severe structural loss, it will be temporarily built up with composite resin to facilitate isolation and treatment; thereafter, the above intervention will be carried out. Any other usage of high-frequency electrosurgery instruments during treatment with Root ZX3 will be prohibited.
At 2 ± 1 weeks after the intervention, the pain questionnaires will be collected, and horizontal and vertical percussion was evaluated by operators. Then, pulpectomy was performed without infiltration anesthesia to assess pain during treatment. After the study, procedures are completed, participants were followed up as part of routine care, and appropriate treatment was provided as needed.
All intervention procedures will be documented in the electronic medical record by the operators to enhance protocol adherence. Criteria for halting the intervention include a participant’s request to withdraw or modify their assigned treatment, any clinical deterioration or onset of comorbid conditions, and any situation where the research team deems continued participation unsuitable.
Primary endpoint
The primary endpoint is the relief of spontaneous pain on postoperative day 0. The primary outcome will be expressed as the proportion of participants in whom spontaneous pain has completely resolved on postoperative day 0.
Secondary endpoints
The secondary endpoints are: (1) Relief of spontaneous pain on postoperative days 1, 2, 3, and 7; (2) Improvement in occlusal pain on postoperative days 0, 1, 2, 3, and 7; (3) Pain during pulpectomy was experienced two weeks after the intervention; (4) Improvement in percussion pain two weeks after intervention.
Safety endpoints
For devices in this category, the following adverse events require particular attention: burns, convulsions, muscle contractions, tissue and mucosal injury and inflammation, hematoma, electric shock, cardiac arrest, and perforation. To date, such adverse events have not been reported with Root ZX3. All adverse events will be recorded and assessed for severity and causality.
Data collection
After the intervention, participants will be given a pain diary to record their pain levels and the dose and frequency of any analgesic medication taken. Spontaneous, occlusal, and percussion pain will be evaluated using a questionnaire. Postoperative Pain Assessment on postoperative day 0 was conducted after the effects of local anesthesia had completely worn off, typically 4 to 6 hours following the procedure. Occlusal and percussion pain will be assessed via a 100 mm visual analog scale (VAS; endpoints defined as 100 for unbearable pain and 0 for no pain), and participants will be instructed to indicate their pain level by marking the VAS line. Operators will assess pain during pulpectomy, which will be performed two weeks after the intervention. For percussion testing, clinical operators will conduct both vertical and horizontal percussion using the blunt end of a dental mirror handle to evaluate the status of the periodontal ligament and periapical tissues. To ensure force consistency and provide a baseline for the participant, the test is first applied to an adjacent or contralateral healthy tooth with a gentle, controlled tapping force. The participant’s response is then recorded using a VAS. These assessments are conducted at baseline (Day 0) and at the two-week follow-up visit.
Data management
Upon obtaining written informed consent, the operator will complete the identification and case registration forms. These documents are subsequently integrated into the electronic medical record and forwarded to the Principal Investigator (PI), who maintains them within the secure research file. To ensure participant confidentiality, a unique research identification number, consisting of a numeric code and a symbol, is assigned to each participant upon enrollment. This identifier is deliberately kept separate from any personal information, such as initials or medical record IDs, that could directly identify an individual.
All study-related documentation, including case report forms, will be managed exclusively using these identification numbers to maintain anonymity. While the PI utilizes these codes for general data handling, a master identification list, linking names and medical record IDs to their respective study codes, will be maintained separately. This list is stored in a secure, lockable cabinet for a minimum of five years post-study, ensuring that participant identification remains possible only when strictly necessary and authorized.
Statistical design
The proportion of participants in whom spontaneous pain is resolved on postoperative days 0, 1, 2, 3, and 7 will be calculated using all enrolled cases as the denominator and the number of participants whose spontaneous pain has resolved as the numerator. The mean, standard deviation, median, minimum, maximum, and quartiles of preoperative and postoperative occlusal pain (VAS values) were calculated on days 0, 1, 2, 3, and 7, and those of percussion-induced pain (VAS values) will be calculated at 2 ± 1 weeks postoperatively. Fisher's exact test will analyze the presence or absence of occlusal pain (based on VAS values) on postoperative days 0, 1, 2, 3, and 7, as well as the presence or absence of improvement in percussion-induced pain (based on VAS values) at 2 ± 1 weeks postoperatively, compared with baseline. The proportion of participants with pain at 2 ± 1 weeks postoperatively will be calculated by using all cases as the denominator and the number of participants with pain as the numerator.
Participants who discontinue participation in the study will be excluded from the efficacy analysis. Data with missing values are not discarded and are subject to statistical analysis.
Access to data
The final dataset generated by this study will be accessible exclusively to the PI. Direct access for other research personnel is not permitted under this protocol.
Monitoring
A designated research staff member will conduct monitoring based on standard operating procedures, delivering findings to the PI within 14 days of the evaluation. Should any adverse events or unforeseen complications arise, the PI will provide medical intervention, notify the CRB, and brief the study team. Given that Root ZX3 has already received approval from the Pharmaceuticals and Medical Devices Agency, a separate data monitoring committee is not required.
Potential benefits and harms
Reducing treatment time may lessen the burden on both participants and operators. If this study demonstrates that Root ZX3 alone is effective in managing SIP, it may expand treatment options and potentially benefit a wide range of patients. Possible side effects of the intervention include: (i) burns; (ii) spasms and muscle contractions; (iii) tissue and mucous membrane damage and inflammation; (iv) tissue injury; (v) burns or injury to other parts of the body of the participants due to improper contact with the counter-rod; (vi) hematoma; (vii) hypersensitivity to electric stimulation; (viii) cardiac arrest; (ix) iatrogenic injury to surrounding tissues; and (x) perforation.
Potential device malfunctions include: (i) ignition or explosion of flammable substances or gases; (ii) unintended output; (iii) unintended power increase or configuration change; (iv) malfunction due to electromagnetic interference; (v) malfunction due to wire breakage; (vi) malfunction due to poor contact; (vii) high-frequency shunt or leakage; (viii) interference with other equipment due to electromagnetic wave; and (ix) malfunction of an implantable cardiac pacemaker or implantable defibrillator. All such risks will be explained to participants during the consent process.
Results
Trial status
This study (protocol version 1.2.0, approved on 5 March 2025) is ongoing. Participant recruitment began in August 2025 and is planned to continue until December 2027. No interim analysis is planned for this study. Once the study has concluded, the dissemination of our results will align with the Consolidated Standards of Reporting Trials (CONSORT) framework.
Anticipated results
We hypothesize that the application of HFC via Root ZX3 will lead to a high proportion of complete relief from spontaneous pain on postoperative day 0. Since HFC can rapidly coagulate and incinerate pulp tissue even in anatomically complex or narrow areas that are difficult to reach with conventional mechanical instrumentation, we expect a significant reduction in the risk of residual pulp-induced postoperative pain. Furthermore, as this technique is designed to be completed in a few seconds, we anticipate that it will demonstrate clinical feasibility as a time-efficient alternative for managing SIP in emergency settings without the need for prolonged chair time.
Dissemination plan
To maintain a high standard of transparency and reporting quality, the results of this investigation will be documented following the CONSORT criteria. We plan to disseminate the results through presentations at relevant national and international endodontic or dental research conferences. Ultimately, upon completion, the findings from this investigation will be prepared for dissemination in a reputable, peer-reviewed medical journal to provide a foundation for future multicenter randomized controlled trials. Any significant modifications to the protocol will be updated on the Japan Registry of Clinical Trials (jRCT) website to maintain public access to the study's progress.
Discussion
When a patient presents with spontaneous pain or sharp, persistent pain induced by thermal stimuli, the diagnosis is typically SIP, and pulpectomy is often performed [9]. However, histological findings by Bergenholtz et al. indicate that even in cases diagnosed as irreversible pulpitis, bacterial infection and accumulation of inflammatory cells may be confined to a portion of the coronal pulp. At the same time, other areas contain healthy tissue [10]. Wolters et al. proposed a new diagnostic system and terminology to emphasize the healing potential of the dental pulp, as pulps with reversible inflammation may currently be classified as irreversibly inflamed [11]. Thus, some cases previously diagnosed as SIP may, in fact, be suitable for vital pulp therapy (VPT), thereby avoiding unnecessary root canal therapy. However, accurately determining the potential for pulp preservation is challenging, and calcification following VPT may complicate future root canal treatment.
Endodontic emergencies due to SIP often involve unscheduled visits, which are inconvenient for patients and disrupt routine clinical schedules. In these situations, the time required for intervention is the primary concern. Incorporating Root ZX3 into the clinical workflow may enable completion of SIP treatment in a significantly shorter timeframe. This efficiency is particularly valuable in emergency settings, as it addresses the immediate pain without necessitating a reduction in chair time for other scheduled patients. Furthermore, by effectively coagulating and incinerating pulp tissue within anatomically complex areas that are often inaccessible to conventional instruments, this technique may mitigate the risks of postoperative pain and related complications. This streamlined procedural approach also serves a dual purpose: it not only minimizes iatrogenic errors, such as ledge formation or file separation caused by the pressure of rushed instrumentation, but also provides the clinician with the necessary time to perform more deliberate access cavity preparation. Such precision is, of course, vital for preserving peri-cervical dentine and preventing perforations of the pulp floor.
Conclusions
While this study provides valuable preliminary data, its single-arm design and modest sample size of 10 participants naturally restrict the broader applicability of the results. As an exploratory feasibility trial, our focus is on immediate clinical performance rather than establishing long-term definitive evidence. Consequently, the true safety profile and long-term efficacy of Root ZX3 must be validated through future multicenter randomized controlled trials with longer follow-up.
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