ObjectiveThe aim of the present study was to evaluate the radiopacity of Portland and
MTA-based cements using the Digora TM digital radiographic system.Material and MethodsThe performed tests followed specification number 57 from the American National
Standard Institute/American Dental Association (2000) for endodontic sealing
materials. The materials were placed in 5 acrylic plates, especially designed for
this experiment, along with a graduated aluminum stepwedge varying from 1 to 10 mm
in thickness. The set was radiographed at a 30 cm focus-object distance and with
0.2 s exposure time. After the radiographs were taken, the optical laser readings
of radiographs were performed by Digora TM system. Five radiographic density
readings were performed for each studied material and for each step of the
aluminum scale.ResultsWhite ProRoot MTA (155.99±8.04), gray ProRoot MTA (155.96±16.30) and MTA BIO
(143.13±16.94) presented higher radiopacity values (p<0.05), while white
non-structural Portland (119.76±22.34), gray Portland (109.71±4.90) and white
structural Portland (99.59±12.88) presented lower radiopacity values
(p<0.05).ConclusionsIt was concluded that MTA-based cements were the only materials presenting
radiopacity within the ANSI/ADA specifications.
Introduction:The aim of this study was to evaluate, using cone-beam computed tomography (CBCT), transportation and centralization of different nickel-titanium (NiTi) rotary instruments.Methods: One hundred and twenty eight mandibular premolars were selected and instrumented using the following brands of NiTi files: WaveOne, WaveOne Gold, Reciproc, ProTaper Next, ProTaper Gold, Mtwo, BioRaCe and RaCe. CBCT imaging was performed before and after root canal preparation to obtain measurements of mesial and distal dentin walls and calculations of root canal transportation and centralization. A normal distribution of data was confirmed by the Kolmogorov-Smirnov and Levene tests, and results were assessed using the Kruskal-Wallis test. Statistical significance was set at 5%. Results:ProTaper Gold produced the lowest canal transportation values, and RaCe, the highest. ProTaper Gold files also showed the highest values for centering ability, whereas BioRaCe showed the lowest. No significant differences were found across the different instruments in terms of canal transportation and centering ability (P > 0.05).Conclusion: Based on the methodology employed, all instruments used for root canal preparation of mandibular premolars performed similarly with regard to canal transportation and centering ability.
Craniofacial defects represent alterations in the anatomy and morphology of the cranial vault and the facial bones that potentially affect an individual's psychological and social well-being. Although a variety of techniques and restorative procedures have been described for the reconstruction of the affected area, polymethyl methacrylate (PMMA), a biocompatible and nondegradable acrylic resin-based implant, is the most widely used alloplastic material for such craniomaxillofacial reconstruction. The aim of this study was to describe a technique for aesthetic and functional preoperative customized reconstruction of craniofacial bone defects from a small series of patients offered by the Brazilian public health system. Three adult male patients attended consultation with chief complaints directly related to their individual craniofacial bone defects. With the aid of multislice computed tomography scans and subsequent fabrication of the three-dimensional craniofacial prototype, custom-made PMMA implants were fabricated preoperatively. Under general anesthesia, with access to the craniofacial defects with a coronal approach, the PMMA implants were adapted and fixated to the facial skeleton with titanium plates and screws. Postoperative evaluation demonstrated uneventful recovery and an excellent aesthetic result. Customized prefabricated PMMA implants manufactured over the rapid prototyping models proved to be effective and feasible.
Aims and objectives:The behavior of polymer-matrix composite is dependent on the degree of conversion. The aim of this study was to evaluate the degree of conversion of two resin cements following storage at 37°C immediately, 24 and 48 hours, and 7 days after light-curing by FTIR analysis.
Materials and methods:The specimens were made in a metallic mold and cured with blue LED with power density of 500 mW/ cm 2 for 30 seconds. The specimens were pulverized, pressed with KBr and analyzed with FTIR following storage times.
Statistical analysis used:ANOVA (two-way) and Tukey's post hoc.
Results:To the polymer-matrix composites between 24 and 48 hours does not show a significant increase (p > 0.05), however, the highest values were found after 7 days.
Conclusion:The polymer-matrix composites used in this study showed similarity on the degree of conversion and increased of according to the time of storage.
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