Efficacy of Lasers in Debonding Ceramic Brackets: Exploring the Rationale and Methods

• Published in: Curēus (Palo Alto, CA) Vol. 16; no. 5; p. e61050
• Main Authors: Khalil, Ahmed S, Baowideen, Fisal A, Alhujaili, Ashraf S, Alotaibi, Nasser F, Almanjhi, Waleed A, Yassin, Hanouf Y, Nasser, Mohammad M, Alzahrani, Ahmed F, Alrehaili, Rawan S
• Format: Journal Article
• Language: English
• Published: United States Springer Nature B.V 25.05.2024; Cureus
• Subjects: Adhesives; Aluminum; Bond strength; Carbon dioxide; Dentistry; Enamel; Etching; Healthcare Technology; Lasers; Shear tests; Teeth; bracket; ceramic bracket; laser; debonding; laser-aided debonding
• ISSN: 2168-8184; 2168-8184
• DOI: 10.7759/cureus.61050

The development of ceramic brackets in orthodontics three decades ago emerged as a response to the increasing patient demand for less visible orthodontic appliances. While these brackets provide superior aesthetics, they are characterized by lower fracture toughness and higher bond strength in contrast to metal brackets. These properties present challenges during the debonding step, including the risk of enamel micro-fractures and cracks. Historically, various strategies have been developed to address challenges associated with debonding, reduce patient discomfort, and ensure that the bond failure site is confined to the bracket-adhesive interface. This included the use of specially designed debonding pliers, electrothermal debonding, ultrasonic technique, and chemical agents. Recently, there has been a shift towards utilizing different types of laser irradiation for this purpose. The burgeoning strategy, however, requires diligent scientific scrutiny to establish a standardized protocol with particular laser parameters and ultimately achieve the goal of enhancing the patient experience by reducing discomfort. This article offers a narrative review of laser-aided debonding of ceramic brackets, aimed at comparing different laser types, presenting their benefits and downsides, validating the efficiency of each method, and summarizing the published literature on this subject. It also provides insights for orthodontists on reducing patient discomfort that usually accompanies debonding ceramic brackets by delving into the science behind the use of lasers for this purpose.