%0 Journal Article
%T Biomechanical Limits of Orthodontic Tooth Movement in Periodontally Compromised Dentitions: A Conceptual Model of Force Distribution, Bone Remodeling, and Attachment Stability
%A Hiroshi Tanaka
%A Yuki Sato
%A Kenji Mori
%A Rina Okabe
%J Annals of Dental Specialty
%@ 2347-2022
%D 2025
%V 13
%N 2
%R 10.51847/EgbNAPJpG0
%P 110-119
%X Orthodontic tooth movement in periodontally compromised dentitions remains constrained by the interplay between applied force magnitude, periodontal ligament integrity, and residual alveolar bone support. Conventional biomechanical principles derived from healthy periodontium fail to account for altered stress distribution and accelerated attachment loss, often leading to unintended root resorption, bone dehiscence, or treatment instability. This conceptual manuscript synthesizes contemporary evidence to propose a novel biomechanical model that delineates the limits of safe force application in reduced periodontal attachment scenarios. The model integrates four interdependent components: (1) vector-specific force transmission through a diminished periodontal ligament space, (2) threshold-modulated stress responses within the ligament fibers, (3) spatially heterogeneous alveolar bone remodeling zones governed by osteoimmunological signaling, and (4) attachment-loss-dependent stability envelopes that define tipping versus bodily movement boundaries. Drawing exclusively on peer-reviewed literature published 2018–2024, the framework predicts that forces exceeding 50–75 g in sites with ≥ 30 % attachment loss shift the remodeling equilibrium from physiologic adaptation to pathologic resorption. The model offers orthodontists and periodontists a clinically actionable roadmap for force calibration, anchorage planning, and risk stratification, thereby expanding treatment feasibility while safeguarding long-term periodontal stability.
%U https://annalsofdentalspecialty.net.in/article/biomechanical-limits-of-orthodontic-tooth-movement-in-periodontally-compromised-dentitions-a-concep-ae2qurwwkkivzdf