Advances in the root channel: incorporation of innovative filling materials and modern techniques

Endodontic has been significant developments in recent years, especially due to the development of next generation channel filling materials and improved beach techniques. While traditional Gutta-Percha systems are still used commonly used, have some restrictions on sealing efficiency, antimicrobial activity and adaptability to the complex internal structures of root canals. These challenges have led to the introduction of innovative materials, such as hydraulic silicate seals, modified compositions based on resin or nano-strengthened, which provide better biocompatibility, enhanced physical-chemical properties and antibacterial efficiency. At the same time, modern beach techniques that use the withholding of a cone, thermoplastic techniques or injectable systems have enhanced the accuracy and effectiveness of the filling of the radical channels. This research issue aims to highlight the continuing development in the puncture of the root channels, incorporating advances in the science of materials with cutting -edge clinical methodologies.

The primary objective of this research issue is to address the clinical constraints of current materials and techniques for the root channels, while promoting the integration of innovative biomaterials and methods. A significant focus will be on the development of filling materials that not only provide mechanical durability and effective sealing, but also have active biological properties, such as antimicrobial effects and the ability to heal tissues.

We will pay particular attention to bioactive components that can enhance the effects of treatment by improving disinfection, sealing and long -term stability. Through the experimental and clinical perspectives, this collection seeks to give a complete picture of how innovation transforms the treatment of radical channels and ultimately enhancing patient care and long -term success rates.

This research theme welcomes the submissions that explore all aspects of innovation in the puncture of the radical channels. We call on the original research, comments, mini reviews and prospects that focus on:

· Development and optimization of new material violations, including bioceramics, nanomas and multifunctional sealants.
· Antimicrobial and sealing of advanced in vitro and in vivo filling materials.
· Comparative analysis of traditional and emerging technical violation.
· Incorporation of digital tools (eg AI, 3D imaging) in the programming and evaluation of the filling of the radical channels.
· Clinical trials and cases of cases that evaluate material behavior and patient results.

The authors are encouraged to submit tasks that promote understanding of -tissue material interactions, enhance clinical efficacy and Bridges laboratory findings with practical endodontic applications.