Abstract
This study investigated the marginal adaptation of mineral trioxide aggregate (MTA) as a root-end filling material, compared with commonly used root-end filling materials by scanning electron microscopy (SEM). Eighty-eight single-rooted freshly extracted human teeth were cleaned, shaped, and obturated with gutta-percha and root canal sealer. Following root-end resection and cavity preparation, the root-end cavities were filled with amalgam, Super-EBA, Intermediate Restorative Material (IRM), or MTA. Using a slow-speed diamond saw, 40 roots were longitudinally sectioned into two halves. Resin replicas of resected root ends of the remaining nonsectioned roots were also prepared. After mounting longitudinal sections of roots and resin replicas of resected roots on aluminum stubs, the distance between the test root-end filling materials and surrounding dentin was measured at four points under SEM. Examination of the original samples showed numerous artifacts in the longitudinal sections of the specimens. In contrast, the resin replicas of resected and filled root ends had no artifacts. Statistical analysis of data comparing gap sizes between the root-end filling materials and their surrounding dentin shows that MTA had better adaptation compared with amalgam, Super-EBA, and IRM.
Highlights
Comparative Investigation of Marginal Adaptation of Mineral Trioxide Aggregate and Other Commonly Used Root-End Filling Materials
This study investigated the marginal adaptation of mineral trioxide aggregate (MTA) as a root-end filling material, compared with commonly used rootend filling materials by scanning electron microscopy (SEM)
Following root-end resection and cavity preparation, the root-end cavities were filled with amalgam, Super-EBA, Intermediate Restorative Material (IRM), or MTA
Summary
Comparative Investigation of Marginal Adaptation of Mineral Trioxide Aggregate and Other Commonly Used Root-End Filling Materials. In an in vitro dye leakage study using methylene blue dye, Torabinejad et al [5] evaluated the sealing ability of amalgam, Super-EBA, Intermediate Restorative Material (IRM), and mineral trioxide aggregate (MTA) as root-end filling materials, and showed that MTA leaked significantly less than all the other materials. They determined the time needed for Staphylococcus epidermidis to penetrate around 3-mm-thick root-end fillings of amalgam, Super-EBA, IRM, or MTA, and found MTA leaked significantly less than the other materials (p < 0.05) during a 90-day period [9] In addition to these techniques, confocal microscopy [4, 13] and scanning electron microscopy (SEM) have been used to assess theadaptation and sealing ability of commonly used and potential root-end filling materials [12, 14,15,16]. Torabinejad et al [13] compared the sealing ability of MTA with those of amalgam and Super-EBA and found that MTA leaked significantly less than the others
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