The effect of pulpotomy using CO2and Nd:YAG lasers on dental pulp tissue

Clinical and Histological Study on Direct Pulp Capping With CO2 Laser Irradiation in Human Teeth

The study aimed to histologically evaluate wound healing of exposed human pulp on direct pulp capping using super-pulsed CO₂ laser preirradiation. In this single-blind clinical trial, 28 third molar teeth of 17 volunteers were randomly capped with either CO₂ laser irradiation (n=14) or Dycal (calcium hydroxide cement; n=14) and restored using resin composite. The laser was operated in super-pulsed mode (pulse duration, 0.2 ms; interval, 5.8 ms; 0.003 J/pulse). The irradiation conditions were a power output of 0.5 W, an irradiation time of 15 seconds, repeat mode (10-ms irradiation and 10-ms intervals, for a total beam exposure time of 7.5 seconds), total applied energy of 3.75 J, and an activated air-cooling system. Each tooth was extracted at six or 12 months posttreatment and prepared for histological evaluation. We evaluated the parameters of pulp tissue disorganization, inflammatory cell infiltration, reparative dentin formation (RDF), and bacterial penetration. There were no significant differences between groups for all parameters at each postoperative period (Mann-Whitney U-test, p>0.05). CO₂ laser irradiation completely controlled bleeding and exudate from the exposed pulp. The CO₂ laser group had a tendency to delay RDF compared with the Dycal group, but 4 of 7 teeth from the CO₂ laser group showed a complete dentin bridge at 12 months posttreatment.

Clinical and radiographic evaluation of diode laser pulpotomy on human primary teeth

Background and aims

The aim of this investigation was to evaluate clinical and radiographic effects of diode laser pulpotomy on young human primary molars.

Materials and methods

This double-blind, split-mouth randomized clinical trial was conducted on 14 children, aged 3-9 years. In total, 20 pairs of teeth were selected from those with pulpal exposure due to caries. Case selection was conducted based on clinical and radiographic criteria with similar teeth in each patient. One tooth was randomly assigned to diode laser pulpotomy as case and the other tooth was pulp-treated using formocresol as control. Diode laser at a 10-W power was applied on the remaining pulp tissue following coronal pulp amputation in the case group, while a cotton pellet with diluted formocresol was placed over the amputated pulp in the control group. Reinforced zinc oxide-eugenol paste was then placed over the pulp stump and the tooth was restored with stainless steel crown. A 6- and 12-month followed-up was conducted clinically and radiographically in order to assess the success rates. Data were analyzed with Fisher's exact test.

Results

Clinical failure rate was almost zero when the cases were followed and examined clinically (100% success), with 95% and 90% of the cases in the case group (diode laser) being judged as successful in radiographic examination after 6 and 12 months, respectively. Cases in the control group (formocresol) had almost the same clinical success rate (100%) with no failure judged by radiographic evaluation at 6 and 12 months. These results did not show any significant differences when analyzed using Fisher's exact test (P > 0.05).

Conclusion

There was no significant difference between diode laser pulpotomy and formocresol pulpotomy of human primary teeth after 6 and 12 months. Only a fraction of cases (5%) had radiographic problems at their follow-up in the laser group.

Pulpotomy Medicaments used in Deciduous Dentition: An Update

The aim of this paper was to review the history and the scientific literature published on pulpotomy medicaments and to present the findings of these studies. The review showed that pulpotomy of primary teeth has been treated with many different techniques and medicaments, that some of these approaches are controversial and that their results have presented variables of success rates in term of clinical, radiographic and histologic observation. It is important that all clinicians, particularly for pediatric dentists, be up to date with the recent trends in this area of dental treatment for children.

Laser-assisted pulpotomy in primary teeth: a systematic review

OBJECTIVE

The purpose of this systematic review was to identify high-quality articles comparing laser with conventional pulpotomy procedures, and to assess whether laser treatment may offer an appreciable benefit over conventional approaches.

METHODS

A systematic search was implemented for MEDLINE, WEB of SCIENCE and Cochrane's CENTRAL databases (1980-2012) to identify eligible studies. Two reviewers independently assessed the methodological quality of the articles (Κ = 0.89) using specific study design-related quality assessment forms (Dutch Cochrane Collaboration).

RESULTS

Seven articles met the inclusion criteria, of which five randomized control trials (RCT) and two case series (CS), involving Nd:YAG, Er:YAG, CO₂ and 632/980 nm diode lasers. Although heterogeneity between pulpotomy studies was high, odds ratios (OR) were generally <1, indicating that laser is less successful than conventional pulpotomy techniques.

CONCLUSION

Given the paucity and high heterogeneity of high-quality articles, general recommendations for the clinical use of laser in pulpotomy in primary teeth can yet not be formulated.

Effect of CO₂ laser irradiation on wound healing of exposed rat pulp

This study examined the effects of direct pulp capping treatment using super-pulsed CO₂ laser preirradiation on the wound healing process of exposed rat pulp on days 1, 3, 7, 14, and 28 postoperatively. Group 1 was irradiated with a CO₂ laser and directly capped with a self-etching adhesive system. The laser was operated in super-pulse mode (pulse duration, 200 μs; interval, 5800 μs; 0.003 J/pulse). The irradiation conditions were a power output of 0.5 W, an irradiation time of 3 s, and repeat mode (10 ms of irradiation at 10-ms intervals for a total beam exposure time of 1.5 s), defocused beam diameter of 0.74 mm (approximately 20 mm from the exposed pulp surface), energy density of 0.698 J/cm² per pulse, total applied energy of 0.75 J, and an activated air-cooling system. Group 2 was capped with the self-etching adhesive system. Group 3 was capped with commercially available calcium hydroxide, and the self-etching adhesive system was applied to the cavity. The following parameters were evaluated: pulp tissue disorganization, inflammatory cell infiltration, reparative dentin formation, and bacterial penetration. The results were statistically analyzed using the Kruskal-Wallis test for differences among the groups at each observation period (P < 0.05). There were no significant differences among the experimental groups in any parameters at any postoperative period (P > 0.05). CO₂ laser irradiation was effective in arresting hemorrhaging but showed a tendency to delay reparative dentin formation compared with the application of calcium hydroxide.

Clinical, radiographic, and histopathologic evaluation of Nd:YAG laser pulpotomy on human primary teeth

The purpose of this study was to compare clinical, radiographic, and histopathologic effects of Nd:YAG laser pulpotomy to formocresol pulpotomy on human primary teeth. Patients with at least two vital primary molar teeth that required pulpotomy, because of pulpal exposure to caries, were selected for this study. After hemorrhage control, complete hemostasis into the canal orifice was achieved by exposure to Nd:YAG laser (1064 nm) and an He-Ne laser (the aiming beam of the Nd:YAG laser) in noncontact mode at 2 W, 20 Hz, 100 mJ, or was achieved by applying 1:5 dilution of formocresol. Forty-two teeth in two groups were to be followed up clinically and radiographic at 1, 3, 6, 9, and 12 months. Eighteen teeth planned for serial extractions were selected for histopathologic study. The teeth were extracted at 7 and 60 days. The teeth in the laser group had a clinical success rate of 85.71% and a radiographic success rate 71.42% at 12 months. The teeth in the formocresol group had a clinical and radiographic success rate of 90.47% at 12 months. There were no statistically significant differences between laser and formocresol group with regard to both clinical and radiographic success rates. There was a statistically significant difference between 7- and 60-day laser groups with regard to inflammatory cell response criteria. Dentin bridge was absent in all samples. No stained bacteria were observed in any of these samples. In conclusion, Nd:YAG laser may be considered as an alternative to formocresol for pulpotomies in primary teeth.

Lasers in endodontics

With the rapid development of laser technology, new lasers with a wide range of characteristics are now available and being used in various fields of dentistry. In the past two decades, much experience and knowledge has been gained. This article provides an overview of the current and possible future clinical applications of lasers in endodontics, including their use in alleviating dentinal hypersensitivity, modification of the dentin structure, pulp diagnosis, pulp capping and pulpotomy, cleaning and shaping of the root canal system, and endodontic surgery. Endodontic procedures for which conventional treatments cannot provide comparable results or are less effective are emphasized.

Lasers in endodontics: a review

Since the development of the ruby laser by Maiman in 1960 and the application of the laser for endodontics by Weichman in 1971, a variety of papers on potential applications for lasers in endodontics have been published. The purpose of this paper is to summarize laser applications in endodontics, including their use in pulp diagnosis, dentinal hypersensitivity, pulp capping and pulpotomy, sterilization of root canals, root canal shaping and obturation and apicectomy. The effects of laser on root canal walls and periodontal tissues are also reviewed. The essential question is whether a laser can provide equal or improved treatment over conventional care. Secondary issues include treatment duration and cost/benefit ratio. This article reviews the role of lasers in endodontics since the early 1970s, summarizes many research reports from the last decade, and surmises what the future may hold for lasers in endodontics. With the potential availability of many new laser wavelengths and modes, much interest is developing in this promising field.

Current and potential pulp therapies for primary and young permanent teeth

OBJECTIVES

This paper aims to alert the dental practitioner to the rapidly evolving therapies for treating the pulps of primary and young permanent teeth.

DATA SOURCES

Experimental research on animals, clinical studies and case reports.

STUDY SELECTION

Indirect pulp capping, direct pulp capping, pulpotomies, and pulpectomies are standard procedures for treating primary teeth. However, direct pulp capping, heretofore not very successful, is being revisited. Based on studies in animals and clinical findings in humans, there has been a movement in pediatric dentistry to find alternatives to formocresol and calcium hydroxide for pulpotomy therapy. Venues range from eradication by cautery to the possibility of healing with growth factors. New studies with iodoform paste for pulpectomies are confirming the success rates of previous publications. The new dental adhesives are being tested as agents for direct pulp capping, as well as partial and complete pulpotomy protocols.

CONCLUSIONS

More thought is being given by clinicians to preserving pulp, either through more ambitious indirect pulp therapy or partial pulpotomy. Formocresol and calcium hydroxide pulpotomies, while still popular, may soon be challenged by other chemical treatments, electrocautery or stimulation of reparative dentine by growth factors. Iodoform pastes are promising easier and more successful pulpectomy therapy. Total etch direct bonding materials could soon transform direct pulp capping, as well as partial and complete pulpotomy protocols.