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Influence of needle working length and root canal curvature on irrigation: a computational fluid dynamics analysis based on a real tooth

Na Zhou, Zhengqiu Huang, Mingzhou Yu, Shuli Deng, Baiping Fu, Hanhui Jin

2022BMC Oral Health20 citationsDOIOpen Access PDF

Abstract

BACKGROUNDS: To compare the irrigation efficiency with different needle working length and different root canal curvature based on a real unshaped root canal using computational fluid dynamics (CFD) method. METHODS: Images of the root canal of the maxillary first molar after being prepared to .04/15 were scanned using micro-CT, and then imported into the software for three-dimensional reconstruction. A palatal root canal with a curvature of 23.4° was selected as the experiment canal. The needle working length of the 30-G flat needle was 4.75 mm, 5 mm, 5.25 mm and 5.5 mm short of apical foramen respectively, the flow pattern, irrigation velocity, shear stress were compared. The modified curved canals with a curvature of 0°, 5°, 10°, 20° and 30°were reconstructed via software. The flat needle was replaced at the optical inserted depth, and key parameters of irrigation efficiency were analyzed. RESULTS: Decreased needle working length had a positive impact on irrigation efficiency. With the optimal needle working length, the replacement of the apical irrigation fluid, the effective velocity, and wall shear stress were significantly improved in more severely curved root canals. With the same needle working depth and analogous canal curvature, irrigation efficiency is higher in real canal than that of modified canal. CONCLUSIONS: Short needle working depth, large curvature and the anomalous inner wall of canals help to improve irrigation efficiency.

Topics & Concepts

Root canalApical foramenCurvatureComputational fluid dynamicsMedicineIrrigationOrthodonticsMechanicsMathematicsGeometryPhysicsBiologyEcologyEndodontics and Root Canal TreatmentsDental materials and restorationsDental Radiography and Imaging
Influence of needle working length and root canal curvature on irrigation: a computational fluid dynamics analysis based on a real tooth | Litcius