scholarly article | Q13442814 |
P2093 | author name string | Omid Dianat | |
Faranak Mahjour | |||
Majid Kazem | |||
Mohammad Jahankhah | |||
Saman Fallahi | |||
P2860 | cites work | Comparison of Diaket and MTA when used as root-end filling materials to support regeneration of the periradicular tissues | Q31116488 |
A comparative study of histologic response to different pulp capping materials and a novel endodontic cement | Q33362272 | ||
Cytotoxic effect of MTA and CEM cement in human gingival fibroblast cells. Scanning electronic microscope evaluation. | Q34299822 | ||
Human saliva penetration of coronally unsealed obturated root canals | Q34346540 | ||
Physical and chemical properties of a new root-end filling material | Q36672786 | ||
Cytotoxicity of calcium enriched mixture cement compared with mineral trioxide aggregate and intermediate restorative material | Q39308985 | ||
Inflammatory and immunological aspects of the pathogenesis of human periapical lesions | Q39841777 | ||
Influence of entrapped air on the accuracy of leakage studies using dye penetration methods. | Q41216660 | ||
Root end filling materials: a review | Q41347806 | ||
Ion release and pH of a new endodontic cement, MTA and Portland cement | Q41842582 | ||
Sealing ability of three commercial mineral trioxide aggregates and an experimental root-end filling material | Q41869426 | ||
Evaluation of antimicrobial effect of MTA, calcium hydroxide, and CEM cement | Q42226087 | ||
Comparative evaluation of antimicrobial activity of three cements: new endodontic cement (NEC), mineral trioxide aggregate (MTA) and Portland | Q43575137 | ||
Bacterial leakage with mineral trioxide aggregate or a resin-modified glass ionomer used as a coronal barrier | Q45125071 | ||
Bacterial leakage of mineral trioxide aggregate as a root-end filling material | Q46471862 | ||
Perforation repair comparing two types of mineral trioxide aggregate | Q49198646 | ||
Sealing ability of a novel endodontic cement as a root-end filling material | Q50461615 | ||
Comparison of the root-end sealing ability of MTA and Portland cement. | Q50483236 | ||
Sealing ability of amalgam, super EBA cement, and MTA when used as retrograde filling materials. | Q50512948 | ||
Particles and molecules in endodontic leakage. | Q50888634 | ||
Bacterial leakage versus dye leakage in obturated root canals. | Q52976076 | ||
The apical seal via the retrosurgical approach. I.A. preliminary study | Q70249140 | ||
In vitro bacterial penetration of coronally unsealed endodontically treated teeth | Q70289124 | ||
The significance of the number of absorbent paper points to positive endodontic cultures | Q71193675 | ||
A comparative analysis of Mineral Trioxide Aggregate and Portland cement | Q73448641 | ||
Microbiota of periapical lesions refractory to endodontic therapy | Q74225413 | ||
Properties of a new root-end filling material | Q81119166 | ||
Chemical differences between white and gray mineral trioxide aggregate | Q81321708 | ||
The properties of a new endodontic material | Q81657748 | ||
Periapical tissue responses and cementum regeneration with amalgam, SuperEBA, and MTA as root-end filling materials | Q81786960 | ||
Antibacterial effects of five different root canal sealing materials | Q83077282 | ||
Microbial leakage of MTA, Portland cement, Sealapex and zinc oxide-eugenol as root-end filling materials | Q83086412 | ||
Management of inflammatory external root resorption by using calcium-enriched mixture cement: a case report | Q83432015 | ||
Periradicular regeneration after endodontic surgery with calcium-enriched mixture cement in dogs | Q84103765 | ||
Apexogenesis treatment with a new endodontic cement: a case report | Q84103794 | ||
P433 | issue | 1 | |
P304 | page(s) | 46-51 | |
P577 | publication date | 2013-01-01 | |
P1433 | published in | Dental Research Journal | Q15816938 |
P1476 | title | Root-end filling with cement-based materials: An in vitro analysis of bacterial and dye microleakage | |
P478 | volume | 10 |
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