Irrigation of human prepared root canal – ex vivo based computational fluid dynamics analysis

Šnjarić, Damir; Čarija, Zoran; Braut, Alen; Halaji, Adelaida; Kovačević, Maja; Kuiš, Davor

doi:10.3325/cmj.2012.53.470

Cited by 30 publications

(33 citation statements)

References 38 publications

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“…Nonetheless, this characterization may be difficult and most techniques and methodologies both in vivo and in laboratory studies are not able to provide an extensive understanding of irrigation parameters. For this reason and in order to avoid human error, computational fluid dynamics (CFD) has gained strength in the last decade (Gao et al , Boutsioukis et al , ,b,c, , Shen et al , Snjari et al ). Studies on CFD have analysed the influence of several factors during irrigation, such as the irrigation flow rate (Boutsioukis et al ), the type of needle (Gao et al ), taper and diameter of the root canal (Boutsioukis et al ) or the depth of needle insertion (Boutsioukis et al ).…”

Section: Introductionmentioning

confidence: 99%

Positive and negative pressure irrigation in oval root canals with apical ramifications: a computational fluid dynamics evaluation in micro‐CT scanned real teeth

et al. 2020

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Loroño G, Zaldivar JR, Arias A, Cisneros R, Dorado S, Jimenez-Octavio JR. Positive and negative pressure irrigation in oval root canals with apical ramifications: a computational fluid dynamics evaluation in micro-CT scanned real teeth. International Endodontic Journal, 53, 671-679, 2020.Aim To compare using computational fluid dynamics (CFD) the flow pattern, irrigant velocity, apical pressure and shear stress produced by negative (MiC) and positive pressure with different types of needles (sidevented (SV), front-vented (FV) and notched (N)) at two insertion depths in the apical ramification of oval root canals. Methodology The micro-CT of a mandibular molar with an oval root canal with an apical ramification was used for computational analysis after preparation and geometric reconstruction. Geometries with the needles in two positions (1 and 3 mm from WL) were created to run the simulations. Key parameters of irrigation were displayed with CFD and compared. Results The penetration depth of the needle in the root canal strongly influenced shear stress and apical pressure. The three needles revealed that the highest shear stress, velocity and apical pressure were 1 mm from the WL and generated medium velocities. In N simulations, the fluid flow did not reach the apical ramification and the lowest shear stress values for positive pressure needles were found. The predominant axial component for FV revealed a different pattern of irrigation with high shear stress values and higher apical pressures than those exerted by other needles. SV simulations had generalized fluid flow in most of the main canal, the highest shear stress values and lower apical pressure than the threshold determined for risk of extrusion. MiC was associated with low velocity, shear stress and apical pressure. Conclusion The SV needle demonstrated a combination of low positive pressure and high shear stress; while N had the lowest shear stress and FV the highest apical pressure. MiC generated fluid flow in part of the apical ramification with negative apical pressure values but low shear stress and velocity.

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Section: Introductionmentioning

confidence: 99%

Positive and negative pressure irrigation in oval root canals with apical ramifications: a computational fluid dynamics evaluation in micro‐CT scanned real teeth

et al. 2020

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“…The files were exported to a commercial CFD software (STAR‐CCM+) for reprocessing. The STAR‐CCM+ software has already been used in dentistry, evaluating endodontic irrigation techniques . A polyhedral mesh was developed, utilizing the overset meshing technology available in STAR‐CCM+ software to simulate the motion of the crown over the implant .…”

Section: Methodsmentioning

confidence: 99%

“…The STAR-CCM+ software has already been used in dentistry, evaluating endodontic irrigation techniques. 22 A polyhedral mesh was developed, utilizing the overset meshing technology available in STAR-CCM+ software to simulate the motion of the crown over the implant. 28 The approach used allows for relative movement of implant and crown without requiring morphing of the mesh.…”

Section: Cfd Simulation Model Constructionmentioning

confidence: 99%

“…In medicine, these have been applied to the study of the cardiovascular system and enabled the evaluation of specific parameters, such as the velocity distribution of blood flow in the aorta, wall pressure, and wall shear stress on the aortic wall, which are very difficult to measure in vivo . Recently, CFD has been used to show turbulence in the root canal during irrigation with different injection velocities . No information of cement flow characteristics of cement‐retained implant crown system has been studied.…”

Section: Introductionmentioning

confidence: 99%

“…19 Recently, CFD has been used to show turbulence in the root canal during irrigation with different injection velocities. [20][21][22] No information of cement flow characteristics of cementretained implant crown system has been studied. The purpose of this study was to evaluate cement flow in a cement-retained implant system and modeled flow using three-dimensional multiphysics numerical simulation software (STAR-CCM+, CD-adapco, Melville, NY, USA).…”

Section: Introductionmentioning

confidence: 99%

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