Comparative study of white and gray mineral trioxide aggregate (MTA) simulating a one- or two-step apical barrier technique.
about
Tailor-made endodontic obturator for the management of Blunderbuss canal.Nonsurgical endodontic treatment of type II dens invaginatus.Use of mineral trioxide aggregate in the treatment of large periapical lesions: reports of three cases.Boon of MTA Apexification in Young Permanent Posterior Teeth.Sealing ability of grar MTA AngelusTM, CPM TM and MBPc used as apical plugs.The evaluation of interfaces between MTA and two types of GIC (conventional and resin modified) under an SEM: An in vitro studyManagement of single-rooted maxillary central incisor with two canals: a case reportLong-term observation of the mineral trioxide aggregate extrusion into the periapical lesion: a case series.Effect of acid etching on marginal adaptation of mineral trioxide aggregate to apical dentin: microcomputed tomography and scanning electron microscopy analysisMineral trioxide aggregate as a pulpotomy medicament: a narrative review.Bioactive materials in endodontics.Sealing ability, marginal adaptation and their correlation using three root-end filling materials as apical plugs.Resorption: part 2. Diagnosis and management.Effect of dentin bonding agent on the prevention of tooth discoloration produced by mineral trioxide aggregate.Direct contact with mineral trioxide aggregate activates and differentiates human dental pulp cells.In vitro sealing ability of white and gray mineral trioxide aggregate (MTA) and white Portland cement used as apical plugs.An in vitro study of different material properties of Biodentine compared to ProRoot MTAAn ex-vivo comparative study of root-end marginal adaptation using grey mineral trioxide aggregate, white mineral trioxide aggregate, and Portland cement under scanning electron microscopy.Comparing gray and white mineral trioxide aggregate as a repair material for furcation perforation: an in vitro dye extraction study.Connective Tissue Reaction to White and Gray MTA Mixed With Distilled Water or Chlorhexidine in RatsMTA versus Biodentine: Review of Literature with a Comparative AnalysisSealing ability of mineral trioxide aggregate and calcium-enriched mixture cement as apical barriers with different obturation techniques.Evaluation of tissue reaction, cell viability and cytokine production induced by Sealapex PlusComparative evaluation of sealing ability of four different restorative materials used as coronal sealants: an in vitro study.The Effect of One-Step or Two-Step MTA Plug and Tooth Apical Width on Coronal Leakage in Open Apex Teeth.Comparison of endodontic biomaterials as apical barriers in simulated open apices.Successful apexification with resolution of the periapical lesion using mineral trioxide aggregate and demineralized freeze-dried bone allograft.MTA apical barrier: In vitro study of the use of ultrasonic vibration.Surface microhardness of three thicknesses of mineral trioxide aggregate in different setting conditions.In Vitro Spectrophotometry of Tooth Discoloration Induced by Tooth-Colored Mineral Trioxide Aggregate and Calcium-Enriched Mixture Cement.Effects of various mixing techniques on physical properties of white mineral trioxide aggregate.X-ray diffraction analysis of MTA mixed and placed with various techniques.RUNX-2, OPN and OCN expression induced by grey and white mineral trioxide aggregate in normal and hypertensive rats.Long-term assessment of the seal provided by root-end filling materials in large cavities through capillary flow porometry.Behavior of mineral trioxide aggregate apical plugs and root fillings under cyclic loading.Effect of containing silica fume on cytotoxicity of white mineral trioxide aggregate.Mineral trioxide aggregate in the treatment of external invasive resorption: a case report.Comparing the Coronal Seal of Different Thicknesses of MTA with Gutta-Percha after Post Space Preparation.The Effect of a Mineralized Bone Graft on the Surface Microhardness of Mineral Trioxide Aggregate and Biodentine.Comparative evaluation of microleakage of mineral trioxide aggregate and Geristore root-end filling materials in different environments: An in vitro study.
P2860
Q30474598-71E638A2-2587-4E33-B677-FFF79CC54E52Q33966015-24F4D745-C667-4427-9C8B-B307923162B7Q34169157-BD48C3D8-883C-409F-ADC2-471DBE10E4E7Q34560534-B01E0902-C86E-4C81-9E8F-7719ECE297FBQ35081390-6D4FD69C-DAFB-4DC2-9493-384553F912ADQ36027624-42A939A8-0D76-4795-81E9-9A77F72821D3Q36305828-D570AC76-D860-4A85-8AB3-75D1B15C80ACQ36785522-FB4B7F94-48C9-4207-9B8F-592B172C8AF0Q36786229-0A2FE3C6-BA55-4322-8BE1-4E8C2D738E75Q37104931-11F7AEAE-F044-4708-809D-F451BEC69460Q37197943-111B9DDE-432D-4373-AC94-BB5AB945B14BQ37698972-BB4EE380-8F55-485F-B036-0E3CE9984445Q38109054-58F6FF5E-23BA-4192-B1DE-AC0CBB731453Q39113145-CC882D2D-E295-45D6-805B-EE9D67859A5FQ39348822-8C6006F8-1C75-4C8A-BF20-AA1A971A9FDFQ39866418-E12F4224-C6B6-4C6F-8343-4513224FD210Q40448225-025544E2-CB1E-4A0E-B9F8-68186F0E7B84Q40474325-73372930-4533-41C8-8F7E-43C934C694F5Q41724192-58B5949E-76B0-4859-A87C-5CD4056ADD4BQ41781687-2780959F-9E88-4285-9BD9-48FF91F8B014Q41812064-C28B1752-E985-4BF0-9ECA-B89C5753BCA6Q41867224-501FB3A1-A832-492E-AF84-7C526BC6954FQ41912365-76CE5947-CCFE-4951-8078-C8691C78CFE8Q41965908-8B7C38AD-7317-4B2C-A67A-AFA962FD48FBQ41977258-D0FDD978-B4FA-4523-B723-FCB25C8A01FAQ42131240-1F303BF7-F749-4C60-BAAE-11404753FED5Q42429496-16C047EC-374F-42E1-B8D2-EDBB28AC49C3Q42438976-5923E410-5845-4782-8D72-1A997D019F06Q42982166-2450A3A4-FF20-4BBD-AB28-699B25FCCE9DQ43214995-48A903FA-00EA-4BB6-A5B4-082E11FEAEB4Q43493442-290EE562-E494-47D2-824A-2EE8D2854090Q47232174-5EA7ED96-A0AF-4726-8CD7-6E0A2479AAFEQ47397439-663F172B-E5FF-46B8-8A3B-C9395B49FF35Q49084750-DC50E7EE-43A9-4CE1-A969-4C5462ABBD5CQ51278415-97214E83-5B2C-4467-8CA1-EA3369C0F64AQ51735040-755CF3F2-1690-4FDB-810C-9155D9CE97C9Q51971207-F21B453F-2261-463E-879A-B07CA0DA9189Q53501832-E0EA6275-2E36-441C-B4B0-5EADA376F28AQ55014833-853273A3-E234-4AD6-8FB8-C44D59B458D9Q55278824-D2B6FD59-AAD2-4A16-9D44-CF87978EB646
P2860
Comparative study of white and gray mineral trioxide aggregate (MTA) simulating a one- or two-step apical barrier technique.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Comparative study of white and ...... step apical barrier technique.
@en
Comparative study of white and gray mineral trioxide aggregate
@nl
type
label
Comparative study of white and ...... step apical barrier technique.
@en
Comparative study of white and gray mineral trioxide aggregate
@nl
prefLabel
Comparative study of white and ...... step apical barrier technique.
@en
Comparative study of white and gray mineral trioxide aggregate
@nl
P2093
P1476
Comparative study of white and ...... step apical barrier technique.
@en
P2093
Gary D Matt
James M Strother
Jeffery R Thorpe
Scott B McClanahan
P304
P356
10.1097/01.DON.0000136213.93171.45
P407
P577
2004-12-01T00:00:00Z