2020
DOI: 10.1007/s11223-020-00235-1
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The Effect of Different Materials and Techniques on Stress Distribution in CAD/CAM Endocrowns

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Cited by 5 publications
(8 citation statements)
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“…Another aspect of the endocrown design to think about is the walls of the central retainer in the endocrown’s pulp-chamber extension promoting an adequate load dissipation [ 32 ]. Therefore, the smoothening of the sharp edge at the base of the pulp chamber in the preparation for endocrowns is suggested to reduce the stress concentration in the cervical dentin beneath the endocrown, as well as on the cement layer [ 33 ]. This study followed this approach in the endocrown modelling and showed that the magnitude of shear stress concentration can be proportional to the restorative material elastic modulus.…”
Section: Discussionmentioning
confidence: 99%
“…Another aspect of the endocrown design to think about is the walls of the central retainer in the endocrown’s pulp-chamber extension promoting an adequate load dissipation [ 32 ]. Therefore, the smoothening of the sharp edge at the base of the pulp chamber in the preparation for endocrowns is suggested to reduce the stress concentration in the cervical dentin beneath the endocrown, as well as on the cement layer [ 33 ]. This study followed this approach in the endocrown modelling and showed that the magnitude of shear stress concentration can be proportional to the restorative material elastic modulus.…”
Section: Discussionmentioning
confidence: 99%
“…The stress distribution pattern of a tooth that is repaired with an endocrown is vital for damage and fracture analysis [ 10 ]. Several parameters can modify the endocrown’s mechanical behavior—e.g., the ferrule presence, pulp chamber extension height and different restorative materials [ 11 , 12 , 13 ].…”
Section: Introductionmentioning
confidence: 99%
“…The majority of studies with anterior teeth has the post‐core‐crown as the comparison group, and it might be assumed that the application of oblique loads associated to intracanal posts were responsible to provide deeper fractures into the root canal 3,4,9,10 . For posterior teeth, as vertical loads predominate during fatigue tests and load to failure analyses, the maximum stresses were located at cervical third of the remaining coronal structure, as shown by FEA, 14,16,19,21,26–29,32,34–36 contributing for more similar failure patterns among restorative configurations tested. Two studies have shown that using zirconia endocrowns in premolars would provide a significant higher number of non‐reparable failures comparing with lithium disilicate and resin composite endocrowns 11,12 .…”
Section: Discussionmentioning
confidence: 99%
“…11,12 This might be attributed to the greater discrepancy of elastic modulus between restorative material and tooth structure, in which the higher stiffness of zirconia results in amplified stress concentration in the supporting tooth. 19 In addition, an analysis showed that the ferule contributed for more favorable failure patterns in anterior teeth. 2 Clinical follow ups of endocrowns in molar and premolars reported biomechanical failures such as fracture of the restoration, [41][42][43][44] adhesive failure/debond, 41,42,44,45 and the facture of the supporting tooth structure; 45,46 these data corroborate with failure patterns reported by the in vitro studies (Tables 3 and 4).…”
Section: Discussionmentioning
confidence: 99%
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