/Objectives : This numerical (finite element analysis/FEA) study aimed to analyze the internal stress distribution patterns caused by a 4 N orthodontic force during intrusion, extrusion, rotation, tipping, and translation, using four common failure criteria, in intact periodontium....
✦ Clinical Takeaway ✦
No actionable change — this orthodontic biomechanics study has no direct relevance to audiology clinical practice.
✦ Why It Matters ✦
This article does not meaningfully advance audiology knowledge and appears in this feed likely due to journal indexing overlap.
✦ Key Points ✦
- 01Finite element analysis was used to model stress on periodontal tissue from orthodontic forces.
- 02The study focuses on tooth and gum mechanics, not hearing or balance.
- 03Published in JCIM alongside audiology-relevant content but has no audiology application.
- 04No clinical implications for audiologists, hearing specialists, or hearing researchers.
✦ Research metadata ✦
- PMID
- 42123066
- DOI
- 10.3390/jcm15093335.
- Journal
- Journal of Clinical Medicine
- Publication type
- research_article
- Evidence level
- na
- Population
- Computational model of intact periodontium; no human participants
- Intervention
- Simulated orthodontic forces applied to finite element model of periodontium
Primary outcomes
Internal stress distribution patterns in periodontal tissue under orthodontic loading