A 3D finite element analysis of stress distribution on different thicknesses of mineral trioxide aggregate applied on various sizes of pulp perforation

[1]  P. Dummer,et al.  Effect of blood contamination on the compressive strength of three calcium silicate‐based cements , 2018, Australian endodontic journal : the journal of the Australian Society of Endodontology Inc.

[2]  M. Burrow,et al.  Internal adaptation of resin composite restorations with different thicknesses of glass ionomer cement lining , 2018, Journal of investigative and clinical dentistry.

[3]  P. Dummer,et al.  Mineral trioxide aggregate and other bioactive endodontic cements: an updated overview – part II other clinical applications and complications , 2018, International endodontic journal.

[4]  P. Dummer,et al.  Mineral trioxide aggregate and other bioactive endodontic cements: an updated overview - part I: vital pulp therapy. , 2018, International endodontic journal.

[5]  J. Puryer,et al.  Prevalence of proximal caries in adults and children at Bristol Dental Hospital and South Bristol Community Hospital , 2018 .

[6]  W. Oh,et al.  Physical properties and biological effects of mineral trioxide aggregate mixed with methylcellulose and calcium chloride , 2017, Journal of applied oral science : revista FOB.

[7]  Mohammed Abu Helal,et al.  Biomechanical Assessment of Restored Mandibular Molar by Endocrown in Comparison to a Glass Fiber Post-Retained Conventional Crown: 3D Finite Element Analysis. , 2017, Journal of prosthodontics : official journal of the American College of Prosthodontists.

[8]  E. A. Abou Neel,et al.  Superfast Set, Strong and Less Degradable Mineral Trioxide Aggregate Cement , 2017, International journal of dentistry.

[9]  A. Versluis,et al.  Patient‐specific Finite Element Analysis of Fiber Post and Ferrule Design , 2017, Journal of endodontics.

[10]  S. Nagaraja,et al.  Clinical evaluation of mineral trioxide aggregate and biodentine as direct pulp capping agents in carious teeth , 2017, Journal of conservative dentistry : JCD.

[11]  F. Katge,et al.  Comparative Analysis of 2 Calcium Silicate–based Cements (Biodentine and Mineral Trioxide Aggregate) as Direct Pulp‐capping Agent in Young Permanent Molars: A Split Mouth Study , 2017, Journal of endodontics.

[12]  L. Walsh,et al.  The influence of particle size and curing conditions on testing mineral trioxide aggregate cement , 2016, Acta biomaterialia odontologica Scandinavica.

[13]  A. Negm,et al.  Physical evaluation of a new pulp capping material developed from portland cement , 2016, Journal of clinical and experimental dentistry.

[14]  F. Shiere,et al.  Guideline on Pulp Therapy for Primary and Immature Permanent Teeth. , 1961, Pediatric dentistry.

[15]  G. Eskitaşçıoğlu,et al.  Effect of Root Filling on Stress Distribution in Premolars with Endodontic-Periodontal Lesion: A Finite Elemental Analysis Study. , 2016, Journal of endodontics.

[16]  J. Yang,et al.  Evaluation of mechanical and histological properties of cryopreserved human premolars under short-term preservation: A preliminary study , 2014 .

[17]  R. F. Kaptan,et al.  Effect of acid etching procedures on the compressive strength of 4 calcium silicate-based endodontic cements. , 2013, Journal of endodontics.

[18]  M. Parafiniuk,et al.  Response of human dental pulp capped with biodentine and mineral trioxide aggregate. , 2013, Journal of Endodontics.

[19]  S. Asgary,et al.  Vital pulp therapy using calcium-enriched mixture: An evidence-based review , 2013, Journal of conservative dentistry : JCD.

[20]  F. Basturk,et al.  The effect of various mixing and placement techniques on the compressive strength of mineral trioxide aggregate. , 2013, Journal of endodontics.

[21]  M. B. Kayahan,et al.  Effect of acid-etching procedure on selected physical properties of mineral trioxide aggregate. , 2009, International endodontic journal.

[22]  C. Soares,et al.  Finite element analysis of weakened roots restored with composite resin and posts. , 2009, Dental materials journal.

[23]  J. Palamara,et al.  Sealing ability of occlusal resin composite restoration using four restorative procedures. , 2008, European journal of oral sciences.

[24]  Jay S. Kim,et al.  Direct pulp capping with mineral trioxide aggregate: an observational study. , 2008, Journal of the American Dental Association.

[25]  Beata Dejak,et al.  Three-dimensional finite element analysis of strength and adhesion of composite resin versus ceramic inlays in molars. , 2008, The Journal of prosthetic dentistry.

[26]  T. Dammaschke The history of direct pulp capping. , 2008, Journal of the history of dentistry.

[27]  S. J. Hayes,et al.  The effect of condensation pressure on selected physical properties of mineral trioxide aggregate. , 2007, International endodontic journal.

[28]  G. Glickman,et al.  The effects of various additives on setting properties of MTA. , 2006, Journal of endodontics.

[29]  G. Harris,et al.  Mineral trioxide aggregate pulpotomies: a case series outcomes assessment. , 2006, Journal of the American Dental Association.

[30]  Surendra P. Shah,et al.  Modeling the linear elastic properties of Portland cement paste , 2005 .

[31]  Antonio Apicella,et al.  Effect of adhesive layer properties on stress distribution in composite restorations--a 3D finite element analysis. , 2002, Dental materials : official publication of the Academy of Dental Materials.

[32]  S. H. Dickens,et al.  Effect of interfacial bond quality on the direction of polymerization shrinkage flow in resin composite restorations. , 2002, Operative dentistry.

[33]  M. Torabinejad,et al.  Physical and chemical properties of a new root-end filling material. , 1995, Journal of endodontics.

[34]  M. Torabinejad,et al.  Bacterial leakage of mineral trioxide aggregate as a root-end filling material. , 1995, Journal of endodontics.

[35]  T. Hilton,et al.  The effect of various bases on the fracture resistance of amalgam. , 1994, Operative dentistry.

[36]  P. H. Jacobsen,et al.  The elastic moduli of enamel and dentine , 1993 .

[37]  J. Drummond,et al.  Thermal conductivity of cement base materials. , 1993, Dental Materials.

[38]  M. Ash,et al.  Wheeler's Dental Anatomy, Physiology and Occlusion , 1992 .

[39]  J. Rees,et al.  Finite element stress analysis of restored teeth. , 1987, Dental materials : official publication of the Academy of Dental Materials.

[40]  J. Nicholls,et al.  An in vitro study of spreader loads required to cause vertical root fracture during lateral condensation. , 1983, Journal of endodontics.

[41]  F. A. Peyton,et al.  Elastic and Mechanical Properties of Human Dentin , 1958, Journal of dental research.