Abstract
Nonvital tooth bleaching is a treatment designed to enhance the cosmetic appearance of discolored teeth that have lost vitality. This procedure has become increasingly popular in contemporary dentistry due to its effectiveness. Among the various chemical agents used for this purpose, sodium perborate, when combined with hydrogen peroxide, has proven to be one of the most efficient solutions for achieving noticeable whitening outcomes. Sodium perborate is a stable oxidizing agent, frequently mixed with hydrogen peroxide to form a bleaching paste. This paste is then placed directly into the pulp chamber of a nonvital tooth. The oxidation reaction that occurs helps to break down organic pigments within the tooth, thereby reducing discoloration without causing harm to the surrounding dental tissues. Research has shown that the combined use of sodium perborate and hydrogen peroxide can effectively restore a tooth's natural color, with a low incidence of complications such as root resorption or external cervical resorption. This method has been proven to be both clinically successful and generally safe, though it is crucial to carefully monitor the concentration of the bleaching agents and the duration of their application to prevent excessive bleaching or harm to the tooth's structure. Nonvital tooth bleaching has emerged as a valuable technique for teeth that have undergone root canal treatment, providing a noninvasive and efficient alternative to more extensive restorative procedures. This review discusses the underlying mechanisms, efficacy, safety, and potential risks associated with nonvital tooth whitening using sodium perborate and hydrogen peroxide, offering a thorough overview of its role in modern dental practice.