Description: Dengen MTA Bio Identica Root Repair Material is an advanced dental solution designed for precise and effective root repair procedures. This bio-identical mineral trioxide aggregate (MTA) material is formulated to mimic the natural dentin, offering practitioners a reliable and biocompatible option for various endodontic applications.
Key Features:
Bio-Identical MTA Composition: Dengen MTA Bio Identica is composed of bio-identical MTA, closely resembling the mineral composition of dentin. This characteristic promotes excellent biocompatibility and encourages a favorable response from surrounding tissues during root repair procedures.
Optimized Handling Characteristics: The material is engineered for optimized handling characteristics, allowing for easy manipulation and precise placement during endodontic procedures. This feature supports efficient and controlled application, contributing to the success of root repair.
Biocompatible Healing Support: Dengen MTA Bio Identica actively supports biocompatible healing by creating an environment conducive to tissue repair. Its bio-identical composition promotes a positive interaction with the dentin and surrounding structures, fostering successful outcomes.
Benefits:
Natural Dentin Mimicry: The bio-identical MTA composition closely mimics natural dentin, ensuring a harmonious integration with the tooth structure. This mimicry supports the creation of a seamless and biocompatible repair, contributing to the long-term success of the procedure.
Easy Manipulation for Precise Placement: The optimized handling characteristics of Dengen MTA Bio Identica facilitate easy manipulation, allowing practitioners to achieve precise placement of the material. This ensures that the root repair is carried out with accuracy and efficiency.
Biocompatible Healing Environment: The material actively contributes to the creation of a biocompatible healing environment within the root canal. This is essential for supporting positive interactions with periapical tissues, promoting successful tissue repair, and reducing the risk of post-treatment complications.
