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In recent years, significant advancements in dental and periodontal diagnostics have paved the way for improved care. Among the available approaches, laser fluorescence (LF) is a promising method. This case report explores the utilization of a 405 nm diode laser as a diagnostic tool in the non-surgical treatment of biofilm-induced gingivitis, as well as its application in routine daily practice for diagnosing restorations and dental caries. A 24-year-old male patient and a 21-year-old female patient were included. A 405 nm diode laser (Smart M, Lasotronix, Poland) was used as a diagnostic tool with a tip diameter of 8 mm. In case one, the utilization of the 405 nm diode laser enhanced the patient's ability to perceive the presence and extent of plaque and calculus, aiding in motivation and education regarding supra-gingival dental biofilm control and it assisted the operator in precisely localizing plaque and calculus, thereby enabling more effective mechanical debridement and ultimately improving treatment outcomes. In the second case, the utilization of the laser facilitated the detection of defective composite fillings aiding in both accurate diagnosis for the operator and effective communication with the patient regarding the need for re-treatment. This study illustrates the potential of the relatively new 405 nm diode laser as a promising diagnostic tool in the daily management of periodontal patients and the detection of defective dental fillings in daily practice.

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INTRODUCTION: The application of various lasers to treat periodontal and peri-implant diseases is gaining momentum. While laser-related dental research is ongoing, it is important to determine if current periodontal training programs are keeping pace with these new treatment modalities and actively incorporating them into their training. MATERIALS AND METHODS: An electronic survey was created to evaluate the extent to which lasers are currently being used in North American periodontal programs. A brief explanation of the study and a link to the 15-question survey was emailed to 61 periodontal program directors requesting participation in the survey. The data regarding the prevalence of laser training in all the programs, which types of laser devices are used, and which surgical procedures are performed were collected and analyzed. RESULTS: The response rate was 49.1% (n = 30). Among those responding to the survey, 76.7% (n = 23) of these programs reported providing clinical training in lasers, with the diode laser being the most frequently used (65.2%), followed by carbon dioxide (39.1%), neodymium-doped yttrium aluminum garnet (26.1%), and erbium:yttrium aluminum garnet lasers (26.1%). Two major reasons for not utilizing lasers as part of regular patient care were cost and lack of evidence to support laser efficacy. Three out of seven programs that do not currently use lasers plan to provide laser training in the future. Over half (56.7%) of program directors did not think that lasers would become the standard of periodontal/implant care within the next 10 years, while 20% of them believed that they would. CONCLUSIONS: Laser training and education in postgraduate periodontal programs is still limited, and the majority of periodontal residents are not exposed to many types of laser devices.

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Background: The maxillary labial frenulum is an attachment that connects the upper lip to the gingival tissue, and when it is too closely attached to gingival margin due to inadequate plaque control, it may put gingival health at risk. Objective: This study aimed to assess postoperative pain perception and wound healing after laser-assisted frenectomy in a pediatric population retrospectively. Methods: This study is based on the clinical records of the patients who received laser-assisted frenectomy treatment due to mucogingival problems at the pediatric dentistry department. Twenty-two patients were treated with either 2780 nm Er,Cr:YSGG laser (Waterlase iPlus; Biolase Technology, Irvine, CA, USA) or 940 nm diode laser (Epic10; Biolase Technology). The analyzed data included age, gender, frenulum insertion type, type of dental laser, postoperative pain perception, and wound healing. Postoperative pain evaluation was performed using Wong-Baker Faces Pain Rating Scale after 3 h, 1 day, 1 week, and 2 weeks. Wound surface healing was assessed through photography. Images were uploaded to the software, and changes in the wound surface area were measured in square millimeters on the day of frenectomy and on postoperative first day, first week, and second week. Results: Er,Cr:YSGG group had statistically significant better wound healing results after 1 and 2 weeks, respectively (p < 0.05). No significant difference was found between 2780 nm Er,Cr:YSGG laser and 940 nm diode laser groups in terms of pain perception. Conclusions: It can be concluded that both laser wavelengths are a safe and useful tool for frenectomies in pediatric patients with less pain. Er,Cr:YSGG laser achieved faster healing than 940 nm diode laser. Clinical Registration number: Clinical Trials gov ID NCT04368715.

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Lasers in dentistry began to gain popularity in the 1990s. Lasers in dentistry are used as a treatment tool or as an adjunct tool. By using the laser in the field of dentistry, the main goal is to overcome the disadvantages, which are currently being experienced in conventional dental treatment procedures. Many specialties in dentistry including oral surgery, implants, oral medicine, periodontics, pediatrics, and operative use the current new laser technology. The ability of lasers to provide minimally invasive procedures with less discomfort to the patient has been useful in the patient delivery system in dental practice. This article describes in brief on the uses of lasers in oral mucosal lesions.

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OBJECTIVE: To evaluate the surface of glazed lithium disilicate dental ceramics after irradiation under different irradiation settings of Nd:YAG and Er:YAG lasers using a scanning electron microscope (SEM). MATERIALS AND METHODS: Three glazed-press lithium disilicate ceramic discs were treated with HF, Er:YAG, and Nd:YAG, respectively. The laser-setting variables tested were laser mode, repetition rate (Hz), power (W), time of exposure (seconds), and laser energy (mJ). Sixteen different variable settings were tested for each laser type, and all the samples were analyzed by SEM at 500× and 1000× magnification. RESULTS: Surface analysis of the HF-treated sample showed a typical surface texture with a homogenously rough pattern and exposed ceramic crystals. Er:YAG showed no effect on the surface under any irradiation setting. The surface of Nd:YAG-irradiated samples showed cracking, melting, and resolidifying of the ceramic glaze. These changes became more pronounced as the power increased. At the highest power setting (2.25 W), craters on the surface with large areas of melted or resolidified glaze surrounded by globules were visible. However, there was little to no exposure of ceramic crystals or visible regular surface roughening. CONCLUSIONS: Neither Er:YAG nor Nd:YAG dental lasers exhibited adequate surface modification for bonding of orthodontic brackets on glazed lithium disilicate ceramics compared with the control treated with 9.5% HF.

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We reviewed the indexed literature regarding the efficacy of laser therapy in the treatment of peri-implantitis (PI). Databases were searched using combinations of the following keywords: peri-implantitis, bone loss, photodynamic therapy, laser, and light-activated disinfection. Titles and abstracts of publications from these search results were screened to determine which studies fulfilled the eligibility criteria. Full texts of relevant studies were read and independently assessed against the eligibility criteria. The resulting 28 studies described the role of lasers in the treatment of PI. The erbium:yttrium-aluminum-garnet laser can be used to sterilize implant surfaces without damaging them. Likewise, the carbon dioxide laser can disinfect implant surfaces and enhance the bone-to-implant contact around previously infected sites. Photodynamic therapy exhibits high target specificity and can destroy pathogens associated with the etiology of PI. Laser therapy can significantly reduce levels of clinical markers of peri-implant tissue inflammation (i.e., bleeding upon probing and clinical attachment loss) without jeopardizing the integrity of the implant or alveolar bone. In conclusion, laser therapy as an adjunct to conventional mechanical debridement therapy can be used effectively for the treatment of PI.

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PURPOSE: The purpose of this study was to evaluate the effects of various surface-treatment techniques for enhancing the bond strength between veneering ceramic and yttria-stabilized tetragonal zirconia polycrystals (Y-TZP). MATERIALS AND METHODS: Pre-sintered Y-TZP specimens were divided into eight groups (n = 10) according to the surface-treatment technique used: (a) untreated (control); (b) air abrasion with aluminum oxide particles; (c) erbium, chromium:yttrium-scandium-gallium-garnet (Er,Cr:YSGG) laser irradiation at different energy intensities (1 to 6 W). All specimens were then sintered and veneered with veneering ceramic according to the manufacturer's instructions. The obtained zirconia-ceramic specimens were immersed in 37°C distilled water for 24 hours before a shear bond strength test using a universal testing device at a 1 mm/min crosshead speed. The average values were calculated. After debonding, the Y-TZP surfaces were examined under a stereomicroscope to determine their fracture pattern, and the surface topography was evaluated with scanning electron microscopy after surface treatments. RESULTS: The bond strength ranged from 13.24 to 20.54 MPa. All surface treatments increased the bond strength between the veneering ceramic and Y-TZP; however, the value for the 6 W irradiation group was significantly different from the values for other groups (p ˂ 0.05). CONCLUSIONS: The present study's findings showed that higher energy densities were needed for the laser irradiation to improve the bond strength between the veneering ceramic and zirconia. CLINICAL IMPLICATION: Y-TZP is commonly used as a core material in fixed restorations. The bond strength between zirconia and the veneering ceramic can be affected by various surface treatments.

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The purpose of this pilot in vitro study was to evaluate the temperature increase in the pulp chamber of the teeth, during Er,Cr:YSGG bleaching, as well as to show which teeth are the most susceptible in terms of pulp temperature increase during laser-activated bleaching treatment. Although Er:YAG studies have been published on this subject, it is the first time Er,Cr:YSGG wavelength is tested. Fifteen teeth were tested--3 each of the following--(maxillary central incisors, lateral incisors, canines, premolars and mandibular incisors). The bleaching procedure comprised an Er,Cr:YSGG laser (2780 nm, Waterlase MD, Biolase, USA) and a yellow-coloured bleaching agent with a concentration of 38 % H2O2 (Power whitening, WHITEsmile GmbH, Germany). The tip used was a 6-mm long Z-type glass tip (MZ8) of a 800 µm diameter. Average output power was set to 1.25 W, pulse duration 700 µs (S-mode), whilst the pulse repetition rate was 10 Hz. The results showed that the most susceptible teeth in terms of pulp temperature increase were the lateral maxillary incisors and the mandibular incisors. The mean temperature increase on these teeth was 1.06 and 1.00 °C, respectively, on 60 s Er,Cr:YSGG-supported bleaching.

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Lasers have been introduced in dentistry as an alternative to conventional knife surgery. The advantage to the operator includes a clean dry field that enhances visibility and reduces the procedure time. The patient benefits by minimal postoperative pain and swelling. The paper discusses use of carbon dioxide laser in five conditions commonly encountered in oral cavity.

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This study was designed to determine if orthodontic residents are being trained to use lasers in the postgraduate orthodontic residency programs of the United States and Canada. An anonymous electronic survey was sent to the program director/chair of each of the seventy orthodontic residency programs, and thirty-seven (53 percent) of the programs responded. Of these thirty-seven programs, twenty-eight (76 percent) reported providing patient treatment with lasers in the orthodontic graduate program, eight (22 percent) said they do not provide treatment in the orthodontic graduate program, and one program (3 percent) reported providing laser training but not using lasers on patients. Gingivectomy and canine exposure were reported as the most common procedures that residents perform with a laser, while debonding of orthodontic brackets was the least common procedure performed with a laser. A diode laser was the most common type of laser used. Of the eight programs (22 percent) not offering laser training, four indicated having no plans to begin using lasers or training on their use. The other four indicated that they have plans to incorporate laser use in the future.

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The introduction of lasers in the field of prosthodontics has replaced many conventional surgical and technical procedures and is beginning to replace the dental handpiece. Although lasers were introduced in dentistry as early as the 1960s it has gained widespread popularity mainly in the developed countries only from the early 90s. Today, prosthodontists can select from a variety of laser wavelengths available in dentistry. This has led to great confusion regarding laser operation and selection of the most appropriate laser wavelength for a given procedure. This article reviews literature on lasers with the aim of providing a complete understanding of the fundamentals of lasers and their applications in the various disciplines of prosthodontics. Peer reviewed literature published in English language between 1991 and 2007 obtained using Medline, and hand searches is reviewed in a series of three articles: Part 1 will describe the fundamentals of laser science, laser tissue interaction, laser wavelengths available in dentistry, laser parameters and safety measures in brief to enable the clinician to select the best laser for a certain procedure and also understand the biologic rationale for its use. Part 2 will deal in brief with the applications of lasers in the various branches of prosthodontics and their advantages over conventional techniques. Part 3 will deal with lasers in prosthodontics from an Indian perspective.