2024-03-28T19:04:38Z
https://jdmt.mums.ac.ir/?_action=export&rf=summon&issue=685
Journal of Dental Materials and Techniques
JDMT
2322-4150
2322-4150
2015
4
3
Apical Force Application in the Management of Dentoalveolar Fractures: Indications, Procedure and Limitations
Amin
Rahpeyma
Saeedeh
Khajehahmadi
Dentoalveolar fracture is defined as a fracture in the bone surrounding the teeth without any extension to the basal bones of the maxilla or mandible (1). As for other parts of the facial skeleton, the treatment strategy for dentoalveolar fractures consists of fracture reduction, fixation and immobilization (2); however, some dentoalveolar fractures are difficult to treat.
In some dentoalveolar fracture cases, even after proper fracture reduction, the incisal edges of the teeth in the fractured segment remain slightly above the occlusal plan. Apical force will resolve the problem by leveling the incisal edges.
Key words: Apical force application
Dentoalveolar fracture
Circummandibular wiring
2015
09
01
115
116
https://jdmt.mums.ac.ir/article_4593_7b8faaaa989713e052b8a82bdb7e477e.pdf
Journal of Dental Materials and Techniques
JDMT
2322-4150
2322-4150
2015
4
3
Influence of 10-MDP Adhesive System on Shear Bond Strength of Zirconia-Composite Interfaces
Philipp Cornelius
Pott
Meike
Stiesch
Michael
Eisenburger
Introduction: This in-vitro study investigated the initial 24h bond strength between different composites and zirconia after application of four different adhesive systems. Methods: A total of 120 specimens of zirconia (InCoris, Sirona, Germany, Bernsheim) were ground with a 165 µm grit rotating diamond disc. Thirty specimens were each additionally treated with Cimara Zircon “CZ” (VOCO GmbH, Germany, Cuxhaven), Futurabond U “FBU” (VOCO GmbH), Futurabond M+ “FBM” (VOCO GmbH) or Futurabond M+ in combination with the DCA activator “FBMD” (VOCO GmbH). One of three different types of composites – BifixSE (“BS”), BifixQM (“BQ”) or GrandioSO (“G”) (VOCO GmbH) – was bonded to ten specimens each in every group. Shear bond strength (SBS) was determined in a universal testing machine. Statistical analysis was performed with ANOVA and the Tukey test. Results: FBM and FBMD gave higher SBS than CZ and FBU in combination with all tested composites. In comparison to FBU, FBM gave statistically significant increases in SBS with BifixSE (19.4±5.7 MPa) (P<0.013) and with GrandioSO (19.1±4.4 MPa) (P<0.021). None of the other comparisons was statistically significant. Conclusion: The new 10-MDP-containing adhesive systems FBM and FBMD increases initial SBS between composites and zirconia in comparison to CZ and FBU.
Zirconia
10 MDP-containing primer
Composite Resin
chipping
Cementation
2015
09
01
117
126
https://jdmt.mums.ac.ir/article_4594_e5912af08e1a28a37f20f5575fffcc63.pdf
Journal of Dental Materials and Techniques
JDMT
2322-4150
2322-4150
2015
4
3
The Effect of Different Finishing Lines on the Marginal Fitness of Full Contour Zirconia and Glass Ceramic CAD/CAM Crowns (An in-vitro study)
ZAK
Al-Zubaidi
AMW
Al-Shamma
Purpose: The aim of this study was to evaluate the effect of two gingival finishing lines (90° shoulder and deep chamfer) on the marginal fitness of two types of full anatomic all-ceramic crowns; zirconia crowns (Zikonzhan) and glass ceramic crowns (IPS e-max CAD) milled with CAD/CAM system. Materials and Methods: Two dentoform teeth of left maxillary first molar were prepared with chamfer finishing line (CFL) and shoulder finishing line (SFL), respectively and duplicated to Nickel-Chromium master dies. Thirty two crowns were fabricated and grouped as follows: Group I: 8 zirconia crowns on CFL; Group II: 8 zirconia crowns on SFL; Group III: 8 glass ceramic crowns on CFL and Group IV: 8 glass ceramic crowns on SFL. Marginal gaps were measured at 4 indentations, each one was at center of each tooth surface and collectively 16 points were measured by using stereomicroscope (160X). The data were analyzed by One-way ANOVA and student t-tests. Results: Group I produced the least marginal gap (73.55µm); followed by Group II (92.60µm), and Group III (151.45µm) and the highest marginal gap was recorded by Group IV (162.34µm). Statistical analysis of the data showed that SFL produced significantly greater marginal gap on zirconia crowns in comparison with CFL. However, in glass ceramic crowns, CFL revealed less marginal gap compared to SFL but statistically was not significant. On the other hand, glass ceramic crowns significantly produced a greater marginal gap in comparison to zirconia crowns regardless type of finishing line. Conclusions: deep chamfer margin could be more preferable finishing line than 90° shoulder especially for zirconia full crowns. Furthermore, zirconia crowns could be more advisable than glass ceramic crowns in respect to marginal adaptation.
CAD/CAM system
Marginal fitness
Zirconia
glass ceramics
shoulder finishing lines
chamfer finishing lines
2015
09
01
127
136
https://jdmt.mums.ac.ir/article_4595_866777d2b76d83f1bbdaefd7b9fbf1db.pdf
Journal of Dental Materials and Techniques
JDMT
2322-4150
2322-4150
2015
4
3
Effect of Zirconia Thickness on the Tensile Stress of Zirconia Based All-Ceramic Restorations
Masood
Shiezadeh
Mahdie
Seyf
Hamid Reza
Rajati
Asadolah
Karazhian
Pouria
Mohammadparast
Introduction: The purpose of the presented study was to evaluate the effect of zirconia thickness on the tensile stress of zirconia based all-ceramic restorations. Methods: Twenty zirconia disks with 10mm diameter were prepared in two groups using CAD/CAM system. The thickness of zirconia was 0.5mm in first group and 0.3mm in second group. After sintering, 0.4mm glass ceramic porcelain was applied to each disk. Then, sintering and glazing of porcelain carried out. Instron testing machine with 1mm/min crosshead speed used to evaluate the failure load of the samples. Biaxial Flexural strength standard formula employed to calculate tensile stress of specimens. Statistical analysis performed using SPSS software. Results: Although data analysis showed more maximum tensile stress in 1st group, no significant differences were found between two groups. Conclusion: Zirconia with 0.5mm and 0.3mm thicknesses cause similar tensile stress in all-ceramic restorations and thickness of these laminates could be reduced to 0.7mm.
Zirconia
Tensile stress
Laminate
2015
09
01
137
142
https://jdmt.mums.ac.ir/article_4596_1b5e26bf28c5b85d5f993eee274c8cb2.pdf
Journal of Dental Materials and Techniques
JDMT
2322-4150
2322-4150
2015
4
3
Evaluation of the Effect of Surgical Crown Lengthening on Periodontal Parameters
Farzane
Vaziri
Ahmad
Haerian
Mohammad Hossein
Lotfi Kamran
Maryam
Abrishami
Background: Surgical crown lengthening is needed for teeth with subgingival caries, fractured teeth, insufficient crown length, and deep subgingival margin of failed restorations. Since there is no agreement on the effects of crown lengthening surgery on gingival parameters, the purpose of this study was to evaluate periodontal parameters in patients who needed crown lengthening surgery. Methods: Twenty patients who had healthy periodontium and needed surgical crown lengthening were included in this study. After professional dental cleaning, gingival parameters including gingival index (GI), probing depth (PD), bone level (BL), and transsulcular probing (TSP) were recorded in interproximal and keratinized gingiva (KG) in mid buccal portion. The patients were evaluated one and three months after the surgery. Results: After one and three months of the surgery, the amount of PD reduced from 2.32 mm to 1.25 mm and 1.17 mm, respectively (P=0.001). The mean of BL reduction was 0.88 mm after one month (P=0.001), but there was no reduction between 1 month and 3 months. Amounts of KG at baseline andone month later were 4.2 mm and 2.9 mm, respectively (P=0.001), and remained at the same level up to three months. TSP significantly reduced (from 3.67 mm at baseline to 2.62 mm after 1 month, and to 2.27 mm after 3 months) (P=0.001, P=0.005). Conclusion: The present study suggests that in the presence of good oral hygiene, except BW (biological width), other parameters including PD, BL, KG, and TSP had significant changes after crown lengthening surgery in the period of 1 month and 3 months (P<0.05).
Crown Lengthening Surgery
Periodontal Treatment
healthy periodontium
2015
09
01
143
148
https://jdmt.mums.ac.ir/article_4597_1b7e6b449f3a286f8f5a655eb775cc31.pdf
Journal of Dental Materials and Techniques
JDMT
2322-4150
2322-4150
2015
4
3
Clinical Parameters and Crestal Bone Loss in Internal Versus External Hex Implants at One Year after Loading
HamidReza
Arab
Amir
Moeintaghavi
Naser
Sargolzaei
MajidReza
Mokhtari
Mohammad
Derhami
Sepideh
Arab
Javad
Moosavi
Introduction: The survival of an implant system is affected by the choice of antirotational design, which can include an external or internal hex. Implant success also is affected by the maintenance of the crestal bone around implants. The aim of present study was to evaluate the crestal bone loss and clinical parameters related to bone loss in patients loaded with an external or internal hex 3i implant (3i Implant Innovation, Palm Beach Gardens, FL, USA). The evaluations were performed one year after loading. Materials and Methods: A total of 39 implants (23 external hex, 16 internal hex) were placed randomly in 23 patients (10 male, 13 female) by a submerged approach. None of patients had compromised conditions or parafunctional habits. At placement and at one year after loading, periapical radiographs were taken via the parallel method from the implant sites. Results: Crestal bone loss was -0.712±0.831 mm in implants with an internal hex connection and -0.139±0.505 mm in implants with an external hex connection (P≤0.05). No correlation was found between crestal bone loss and parameters such as age, gender, jaw, implant location (anterior, premolar, or molar), implant diameter, or implant length. Conclusions: Crestal bone loss was greater in patients with internal hex 3i implants than in those with external implants. Similar results in other clinical factors were found between the groups.
Implant
crestal bone loss
internal and external hex connections
2015
09
01
151
154
https://jdmt.mums.ac.ir/article_4598_a5e47b7097f63db09ce05979c4a106bc.pdf
Journal of Dental Materials and Techniques
JDMT
2322-4150
2322-4150
2015
4
3
Bilocular Stafne Bone Defect above And Below the Inferior Alveolar Canal Assessed by Cone Beam Computed Tomography: A Case Report
Mahrokh
Imanimoghaddam
Mansoore
Darijani
Maryam
Keshavarzi
Stafne bone defect is a bone depression containing salivary gland or fatty soft tissue on the lingual surface of the mandible. The most common location is within the submandibular gland fossa and often close to the inferior border of the mandible. This defect is asymptomatic and generally discovered only incidentally during radiographic examination of the area. Stafne bone defect appears as a well-defined, corticated, unilocular radiolucency below the mandibular canal. Although it is not uncommon for this defect to appear as a round or ovoid radiolucency, it is rarely seen as a multilocular radiolucency. This report presents a case of a developmental salivary gland defect with multilocular radiolucency above the inferior alveolar canal in a male patient
Stafne bone defect
Bilocular
inferior alveolar canal
CBCT
2015
09
01
127
132
https://jdmt.mums.ac.ir/article_4599_d952b4e447d0873cf4536c42b133b197.pdf
Journal of Dental Materials and Techniques
JDMT
2322-4150
2322-4150
2015
4
3
Mandibular Second Premolar with Four Canals
Javad
Ghiasi
Maryam
Javidi
Azade
Farhang nia
Elnaz
Shayan
A mandibular second premolar with four canals is an interesting example of anatomic variations. This report describes a case of a mandibular second premolar with three roots and four canals (one mesiobuccal, two distobuccal and one lingual). The canals were prepared using K-files and irrigated with NaOCl (5.25%) and normal saline as the final irrigant. The canals were filled laterally with gutta percha and AH26 sealer (De Trey, Dentsply, Switzerland). This case shows a rare anatomic configuration and points out the importance of looking for additional canals.
Four root canals
mandibular second premolar
three roots
2015
09
01
133
136
https://jdmt.mums.ac.ir/article_4600_a3d8127617a23e1c754c09b5e9913930.pdf