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VOL. 7, ISSUE 4 (2025)
Biomechanics in Implant Dentistry: Current concepts and clinical implications
Authors
Anjali Yadav, Lokesh Yadav
Abstract
Biomechanics in implant dentistry plays a
pivotal role in ensuring long-term functional and esthetic success of dental
implant therapy. Understanding the complex interactions among implant design,
bone quality, occlusal forces, and prosthetic materials is essential for
optimizing load distribution and promoting peri-implant bone preservation. Key
biomechanical factors-including implant geometry, surface characteristics,
connection type, and prosthesis design-directly influence primary stability,
stress transmission, and osseointegration. Advances in digital workflows,
finite element analysis, and dynamic occlusal assessment have enhanced
clinicians’ ability to predict and control mechanical behavior under functional
loading. Despite technological progress, biomechanical complications such as
overload, screw loosening, and prosthetic fractures remain challenges requiring
comprehensive planning and evidence-based occlusal strategies. A
biomechanically driven approach ultimately contributes to improved implant survival,
reduced complications, and more predictable rehabilitation outcomes.
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Pages:124-127
How to cite this article:
Anjali Yadav, Lokesh Yadav "Biomechanics in Implant Dentistry: Current concepts and clinical implications". International Journal of Dental Sciences, Vol 7, Issue 4, 2025, Pages 124-127
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