Dr. Saeed Asgary is a distinguished researcher at the Research Institute for Dental Sciences, Shahid Beheshti University of Medical Sciences in Tehran, Iran, where he has established himself as a leading authority in dental biomaterials research. As a prominent faculty member at one of Iran's premier medical institutions, he has dedicated his career to advancing the science of dental materials with particular focus on clinical applications. His academic journey at SBUMS has positioned him at the forefront of innovative endodontic research within the Iranian dental community. Currently serving as a senior researcher, Dr. Asgary has built a reputation for methodical investigation and scholarly contribution to dental science through his rigorous experimental approaches.
Dr. Asgary's most significant contribution lies in his extensive research on Mineral Trioxide Aggregate, where he stands out as the most prolific author with five publications in this specialized area. His work has advanced the understanding of MTA applications in various endodontic procedures including root canal treatments, pulp capping, and repair of dental root perforations. Through systematic comparative studies, his research has helped establish evidence-based protocols for the clinical application of mineral trioxide in dental practice across Iran. The impact of his scholarly work extends beyond academia, directly influencing clinical guidelines and treatment approaches in dental practices throughout the region.
As a respected figure in dental research, Dr. Asgary has contributed to training the next generation of dental scientists at SBUMS, mentoring students in biomaterials science and research methodology. His leadership in bibliometric analysis of mineral trioxide research has provided valuable insights into research trends and gaps in the field, establishing him as a key reference for dental materials scholarship in Iran. Currently, Dr. Asgary continues to investigate novel applications and improvements to dental biomaterials, with ongoing studies examining long-term clinical outcomes and material properties. His future research directions focus on enhancing the performance of dental cements and developing new biomaterials for regenerative dentistry, promising further significant contributions to the advancement of dental science.
