ABSTRACT Aim This article aims to introduce and elaborate on the innovative concept of Functional Endodontic Volume (FEV), a biologically driven approach to root canal shaping. This concept emphasizes the importance of volumetric preparation aimed at enhancing irrigation dynamics during root canal treatment, all while maintaining the tooth's structural integrity. Summary In recent years, contemporary endodontics has progressively shifted towards methods that prioritize irrigation‐based disinfection. Traditional philosophies surrounding canal preparation have predominantly revolved around standardized apical sizes and tapers, often failing to address the true objectives of modern root canal treatment. This article advocates for the FEV concept—a sophisticated and tailored shaping strategy focused on optimizing the efficacy of irrigants used in treatment, promoting mechanical safety, and conserving the structural framework of the tooth. The FEV approach moves beyond merely considering the diameter or taper of the canal; instead, it emphasizes a comprehensive three‐dimensional shaping method that is particularly beneficial in anatomically complex root canal systems. By prioritizing the effective exchange of irrigants and the delivery of energy throughout the entire canal volume, this concept not only enhances disinfection but also minimizes the risk of procedural complications. The implications of adopting the FEV concept extend to the clinical and research realms. It can guide the development and refinement of new shaping protocols, the design of endodontic instruments, and the establishment of standardized reporting metrics in endodontic studies. This holistic approach has the potential to revolutionize the way endodontic procedures are performed and assessed. Conclusion The FEV approach redefines the objectives of canal shaping by concentrating on achieving an effective disinfection‐driven canal volume rather than adherence to fixed apical dimensions. It supports a minimally invasive technique that ensures optimal irrigant exchange and agitation, thereby enhancing overall treatment outcomes. The FEV concept could serve as a valuable clinical and research framework, enabling practitioners and researchers to evaluate and compare various shaping systems with a focus on volumetric efficacy.
Turky et al. (Thu,) studied this question.