Rate My Professor Roy George

Professor Roy George is a distinguished academic in dentistry at Griffith University, serving as Acting Dean (Dentistry) in the School of Medicine and Dentistry. He holds the qualifications BDS, MDS, PhD (University of Queensland), ADC, GCHE (QLD), MRACDS (Endo), and FDS RCSEd. His doctoral research, completed between 2006 and 2009 at the University of Queensland, focused on lasers in dentistry and endodontics. Since joining Griffith University in 2009, he has held key leadership roles including Program Director for the Doctor of Clinical Dentistry (DClinDent) and Honours programs, Discipline Lead for Endodontics at undergraduate and postgraduate levels, and Managing Director at the Dentistry and Oral Health Clinic. He also convenes fourth-year courses and supervises higher-degree research students.

Professor George's research centers on endodontics, restorative dentistry, dental materials, and innovative laser applications in clinical practice. As leader of the laser dentistry and pulp biology research team, his work explores pulp tissue healing, inflammation modulation, regenerative processes, precise tissue ablation for conservative management of enamel, dentine, gingival, and mucosal tissues, laser-assisted periodontal treatments targeting biofilms, and photobiomodulation (PBM) for pain management, accelerated healing, and inflammatory response modulation in oral conditions. Notable recent publications include 'CBCT Slice Thickness Impacts Diagnostic Accuracy of Periapical Lesion Volume' (2026), 'Virtual surgical planning with dual-stage guide using internal irrigation for cortical plate access and apicectomy' (2025), 'A 3D naive biological model for high-throughput live-cell analysis of mitochondrial oxygen consumption in response to photobiomodulation treatment' (2025), 'Effects of Multiple Near-Infrared LEDs (700, 850, and 980 nm) CW-PBM on Mitochondrial Respiration and Gene Expression in MG63 Osteoblasts' (2025), and 'Assessment of dose-dependent surface modification of human enamel and dentin with ultrashort femtosecond 30-fs 800 nm laser irradiation' (2024). His scholarly impact is evidenced by over 4,463 citations and an h-index of 35 on Google Scholar. Professor George's contributions bridge fundamental science with clinical translation, advancing evidence-based protocols for general and specialist dental practice.