365 results on '"Bicuspid physiology"'
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2. Above or below 14 years? An orthopantomographic study based on chronological course of eruption of mandibular premolars and second molars in a sample of south Indian children.
- Author
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Thomas LA, Thomas LR, Balla SB, Gopalaiah H, Kanaparthi A, Sai Sravanthi G, Palla A, and Galic I
- Subjects
- Adolescent, Age Factors, Child, Female, Humans, India, Male, Sensitivity and Specificity, Age Determination by Teeth methods, Bicuspid diagnostic imaging, Bicuspid physiology, Mandible diagnostic imaging, Radiography, Panoramic, Tooth Eruption physiology
- Abstract
In the context of dental age assessment, two significant factors can be studied; tooth mineralisation and tooth emergence. Little is known about the role of a second molar eruption in forensic age estimation. This paper aims to contribute to forensic age estimation using an age threshold of 14 years, studying the eruption stages of permanent mandibular premolars and second molars. Totally 640 orthopantomograms (OPGs) of south Indian children, aged between 10 and 18 years, were evaluated using Olze et al. staging of tooth eruption stages (A-D). Spearman's rho correlation showed a strong, positive, and statistically significant correlation between the chronological age and the eruption stages of both sexes' teeth. Accuracy, sensitivity, specificity, likelihood ratios, and post-test probability values were calculated for all tested teeth. The best performance to discriminate individuals above or below 14 years showed stage D in second molars. The sensitivity varied between 89% and 94% and specificity between 75% and 84%, respectively. Receiver operating characteristic curve analysis revealed high diagnostic performance for stage D, with area under the ROC curve (AUC) values of 84% and 85% for tooth 37 and 85% and 83% for tooth 47 in males and females, respectively. In conclusion, it is possible to predict age over 14 years in south Indian children using tooth emergence stages from OPGs with a relatively high interobserver agreement and good diagnostic accuracy. However, there are some limitations and, therefore, must be used in conjunction with other methods., (Copyright © 2020 Elsevier B.V. All rights reserved.)
- Published
- 2021
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3. The effect of a root-dentin pretreatment technique combining PIPS with MTAD aiming to improve the bond strength of glass fiber post.
- Author
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Wan S, Tan Y, Xie J, Huang X, and Guo L
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- Bicuspid physiology, Dental Cements chemistry, Dentin, Glass, Humans, Photoacoustic Techniques, Resin Cements chemistry, Root Canal Irrigants, Smear Layer metabolism, Post and Core Technique, Root Canal Preparation methods, Root Canal Therapy methods, Tooth Root surgery
- Abstract
The aim of this study was to evaluate the combined effect of MTAD and photon-induced photoacoustic streaming (PIPS) technique on the smear layer removal and the bond strength of glass fiber post. Fifty-five human mandibular premolars were chosen. After root canal therapy and post space preparation, the teeth were equally divided to five groups according to the methods of root-dentin pretreatment: G1: distilled water (control); G2: 2.5% NaOCl+17% EDTA; G3: MTAD; G4: PIPS; G5: MTAD+PIPS. One sample was randomly selected from each group, and scanning electron microscope (SEM) was used to observe the microscopic morphology of the coronal, middle and apical level of the root-dentin. The remaining ten samples from each group were glued to glass fiber posts, and the bond strength was assessed by push-out test. SEM evaluation showed that the most complete smear layer removal was found in MTAD + PIPS group, especially in coronal third. Push-out test results exhibited that there was a statistically significant interaction between the experimental groups and root canal third (p < .0005). Significant differences could be found among five groups (p < .05): G5 > G4 > G3 > G2 > G1. G5 had the highest bond strength. In conclusion, post space pretreatments with MTAD or PIPS technique can significantly remove smear layer and improve the bond strength of glass fiber post, and combination of them works best., (© 2020 Wiley Periodicals, Inc.)
- Published
- 2020
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4. Clarifying relationships between cranial form and function in tapirs, with implications for the dietary ecology of early hominins.
- Author
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DeSantis LRG, Sharp AC, Schubert BW, Colbert MW, Wallace SC, and Grine FE
- Subjects
- Animals, Anisotropy, Bicuspid physiology, Ecology, Facial Muscles physiology, Hardness, Herbivory, History, Ancient, Mandible physiology, Mastication, Molar, Third physiology, Perissodactyla physiology, Species Specificity, Diet history, Facial Muscles anatomy & histology, Feeding Behavior, Frontal Bone anatomy & histology, Hominidae anatomy & histology, Mandible anatomy & histology, Perissodactyla anatomy & histology, Tooth Wear
- Abstract
Paleontologists and paleoanthropologists have long debated relationships between cranial morphology and diet in a broad diversity of organisms. While the presence of larger temporalis muscle attachment area (via the presence of sagittal crests) in carnivorans is correlated with durophagy (i.e. hard-object feeding), many primates with similar morphologies consume an array of tough and hard foods-complicating dietary inferences of early hominins. We posit that tapirs, large herbivorous mammals showing variable sagittal crest development across species, are ideal models for examining correlations between textural properties of food and sagittal crest morphology. Here, we integrate dietary data, dental microwear texture analysis, and finite element analysis to clarify the functional significance of the sagittal crest in tapirs. Most notably, pronounced sagittal crests are negatively correlated with hard-object feeding in extant, and several extinct, tapirs and can actually increase stress and strain energy. Collectively, these data suggest that musculature associated with pronounced sagittal crests-and accompanied increases in muscle volume-assists with the processing of tough food items in tapirs and may yield similar benefits in other mammals including early hominins.
- Published
- 2020
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5. Influence of cavity depth and restoration of non-carious cervical root lesions on strain distribution from various loading sites.
- Author
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Du JK, Wu JH, Chen PH, Ho PS, and Chen KK
- Subjects
- Bicuspid physiology, Compressive Strength, Dental Cavity Preparation, Dental Materials, Dental Stress Analysis, Humans, Tooth Abrasion physiopathology, Tooth Erosion physiopathology, Bicuspid pathology, Composite Resins, Dental Enamel physiology, Dental Restoration, Permanent, Tooth Abrasion therapy, Tooth Cervix pathology, Tooth Erosion therapy
- Abstract
Background: We aimed to investigate the load-induced strain variation in teeth with unrestored and resin-based composite restored non-carious cervical lesions (NCCLs)., Methods: Twelve extracted premolars were provided for measuring buccal-side root NCCLs. Strain gauges were fixed at four measuring sites of each tooth, two at the buccal surface and two at the lingual surface. NCCLs were prepared with occlusal margins at the cemento-enamel junction. A static 9-kg load was applied at seven occlusal loading points: buccal cusp tip (BC), inner inclination of the BC, lingual cusp tip (LC), inner inclination of the LC, center of the mesial marginal ridge or distal marginal ridge, and center of the central groove. The strain was detected at each site in teeth with NCCL depths of 0 (control), 0.5, 1.0, and 1.5 mm. Each NCCL was restored using an adhesive composite resin, and the strains were re-measured., Results: The strains at the NCCL occlusal and gingival margins decreased with increasing defect depths, and the effect was significant when the depth of the defect was 1.5 mm. Loading on the buccal and lingual cusps induced prominent strain variation. The strains at all depth distribution recovered to nearly intact conditions when the NCCLs were restored., Conclusions: NCCLs at 1.5 mm depth are detrimental, but they can be restored using resin composites., Clinical Significance: The existence of NCCLs should not be ignored. The depth of the NCCL may affect the progression of the lesion. Resin composite restoration is an appropriate method for preventing persistent NCCL deterioration.
- Published
- 2020
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6. Enamel chipping in Taï Forest cercopithecids: Implications for diet reconstruction in paleoanthropological contexts.
- Author
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Fannin LD, Guatelli-Steinberg D, Geissler E, Morse PE, Constantino PJ, and McGraw WS
- Subjects
- Animals, Bicuspid physiology, Cote d'Ivoire, Feeding Behavior, Fossils, Molar physiology, Anthropology, Cercopithecinae physiology, Colobinae physiology, Dental Enamel physiology, Diet veterinary, Paleontology
- Abstract
Antemortem enamel chipping in living and fossil primates is often interpreted as evidence of hard-object feeding (i.e., 'durophagy'). Laboratory analyses of tooth fracture have modeled the theoretical diets and loading conditions that may produce such chips. Previous chipping studies of nonhuman primates tend to combine populations into species samples, despite the fact that species can vary significantly in diet across their ranges. Chipping is yet to be analyzed across population-specific species samples for which long-term dietary data are available. Here, we test the association between enamel chipping and diet in a community of cercopithecid primates inhabiting the Taï Forest, Ivory Coast. We examined fourth premolars and first molars (n = 867) from naturally deceased specimens of Cercocebus atys, Colobus polykomos, Piliocolobus badius,Procolobus verus, and three species of Cercopithecus. We found little support for a predictive relationship between enamel chipping and diet across the entire Taï monkey community. Cercocebus atys, a dedicated hard-object feeder, exhibited the highest frequencies of (1) chipped teeth and (2) chips of large size; however, the other monkey with a significant degree of granivory, Co. polykomos, exhibited the lowest chip frequency. In addition, primates with little evidence of mechanically challenging or hard-food diets-such as Cercopithecus spp., Pi. badius, and Pr. verus-evinced higher chipping frequencies than expected. The equivocal and stochastic nature of enamel chipping in the Taï monkeys suggests nondietary factors contribute significantly to chipping. A negative association between canopy preference and chipping suggests a role of exogenous particles in chip formation, whereby taxa foraging closer to the forest floor encounter more errant particulates during feeding than species foraging in higher strata. We conclude that current enamel chipping models may provide insight into the diets of fossil primates, but only in cases of extreme durophagy. Given the role of nondietary factors in chip formation, our ability to reliably reconstruct a range of diets from a gradient of chipping in fossil taxa is likely weak., (Copyright © 2020 Elsevier Ltd. All rights reserved.)
- Published
- 2020
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7. Influence of Surface Conditioning on the Repair Strength of Bioactive Restorative Material.
- Author
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Awad MM, Almutairi N, Alhalabi F, Robaian A, Vohra FA, Ozcan M, Maawadh A, and Alrahlah A
- Subjects
- Adolescent, Air, Aluminum Oxide chemistry, Animals, Bicuspid physiology, Cattle, Cell Differentiation, Cell Survival, Ceramics, Child, Dental Materials, Dentin metabolism, Equipment Design, Humans, Materials Testing, Mice, Mice, Nude, Microscopy, Electron, Scanning, Osteogenesis, Resin Cements chemistry, Stress, Mechanical, Surface Properties, Tissue Scaffolds, Biocompatible Materials chemistry, Regeneration, Shear Strength
- Abstract
Objective: To evaluate the effects of surface treatment and repair material on the repair shear bond strength (SBS) of the bioactive restorative material., Methods: A total of 240 Activa BioActive Restorative (Activa) discs were prepared, aged, and polished, and divided randomly into eight groups ( n = 30). Groups 1-4 discs were repaired with bulk-fill flowable resin-based composite (Bulk-RBC), and Groups 5-8 discs with Activa. Surface treatment used for each repair material type were air abrasion with silica-coated 30-m Al
2 O3 particles (air abrasion) (Groups 2 & 6), Air abrasion with universal primer (Groups 3 & 7), and Air abrasion with universal adhesive (Groups 4 & 8). Groups 1 and 5 were controls without surface treatment. SBS test was performed, and the failure mode and surface topography were assessed., Results: Surface treatment with air abrasion significantly improved the SBS for repair using both Activa and Bulk-RBC. Repair SBS using Activa was significantly higher compared with Bulk-RBC. Cohesive failure in substrate and mixed failures were most common in the surface-treated groups (2-4, 6-8). Air abrasion produced prominent surface topography changes compared with polishing., Conclusion: Air abrasion enhances the repair SBS of aged bioactive restorative material. The use of the same material (Activa) for repair affords a higher bond strength compared with the use bulk-RBC.- Published
- 2020
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8. Occlusal Stress Distribution on the Mandibular First Premolar - FEM Analysis.
- Author
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Ahmić Vuković A, Jakupović S, Zukić S, Bajsman A, Gavranović Glamoč A, and Šečić S
- Subjects
- Bicuspid diagnostic imaging, Finite Element Analysis, Humans, Mandible, Tooth Cervix physiology, Weight-Bearing physiology, X-Ray Microtomography, Bicuspid physiology, Bite Force
- Abstract
Objective: The aim of this paper was to analyze the distribution of stress and deformation on the mandibular first premolar under two types of loading (axial and para-axial load of 200 N) using the FEM computer method., Materials and Method: For this research a µCT scan of the first mandibular premolar was used, and the method used in this research was FEM analysis under two types of loading., Results: The values of the von Mises stress measured in the cervical part of an intact tooth under axial load were up to 12 MPa, and under paraaxial load over 50 MPa. The values of the stress measured on the bottom of the noncarious lesion are very high ≈ 240 Mpa. Stress values in the cervical part of the intact tooth are higher in the zone of the sub-surface enamel. The deformation values of the tooth under para-axial loading were ≈ 10 times higher than the value of the deformation under axial load. The greatest deformations were seen in the area of the tooth crown., Conclusions: Occlusal loading leads to significant stress in the cervical part of teeth. The values of the measured stress are greater under the action of paraxial load. The values of stress in abfraction lesions measured under a paraxial load are extremely high. Exposing the lesion to further stress will lead to its deepening. The total deformation of the entire tooth under paraxial load was ≈ 10 times higher compared to the deformation value of the tooth under axial load., (Copyright © 2019 by Academy of Sciences and Arts of Bosnia and Herzegovina.)
- Published
- 2019
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9. A novel thymol-doped enamel bonding system: Physico-mechanical properties, bonding strength, and biological activity.
- Author
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Rezaeian Z, Beigi-Boroujeni S, Atai M, Ebrahimibagha M, and Özcan M
- Subjects
- Anti-Bacterial Agents pharmacology, Colorimetry, Composite Resins chemistry, Elasticity, Fibroblasts metabolism, Humans, Materials Testing, Microscopy, Electron, Scanning, Shear Strength, Spectroscopy, Fourier Transform Infrared, Streptococcus mutans, Stress, Mechanical, Tensile Strength, Tetrazolium Salts chemistry, Thiazoles chemistry, Viscosity, Acid Etching, Dental methods, Bicuspid physiology, Dentin-Bonding Agents chemistry, Methacrylates chemistry, Resin Cements chemistry, Resins, Synthetic chemistry, Thymol chemistry
- Abstract
Purpose: Over the past decades, the preparation of antibacterial restorative dental adhesives has obtained increasing attention in order to prevent secondary caries. In the present study, a novel essential oil-based antibacterial resin adhesive was prepared and evaluated for dental applications. In this regards, thymol, which is a major phenolic component of thyme essential oil, was incorporated into methacrylate resin matrix and its effect on the physico-mechanical and biological properties of the experimental bonding agent was investigated., Materials and Methods: Mechanical properties were evaluated via measuring flexural strength, flexural modulus and fracture toughness. Degree of conversion (DC%) of monomers was measured using FTIR spectroscopy. Viscoelastic properties of the samples were also determined by dynamic mechanical thermal analysis (DMTA). The bactericidal activity of composite specimens against Streptococcus mutans (ATCC 35668) was determined based on ASTM E 2180-07.MTT assay was performed to investigate the cytocompatibility of samples. Furthermore, the bonding strength of the adhesives was evaluated through microshear bond test on the caries-free extracted human premolar teeth and the mode of failure was investigated by scanning electron microscopy., Results: Thymol-doped resin adhesive exhibited comparable degree of conversion to the control resin adhesive. The plasticizing behavior of thymol slightly decreased the flexural modulus and glass transition temperature of the thymol containing specimens, even though; it caused significant increases in fracture toughness of adhesive. The results represented appropriate antibacterial activity as well as suitable cytocompatibility. Furthermore, the thymol-doped resin adhesive showed comparable adhesive strength to the control., Conclusion: The thymol is extremely compatible with the methacrylate resin restorative system and completely fulfills all requirements of a good bactericidal component in construction of an ideal enamel bonding system., (Copyright © 2019. Published by Elsevier Ltd.)
- Published
- 2019
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10. A Novel Etchant System for Orthodontic Bracket Bonding.
- Author
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Ibrahim AI, Thompson VP, and Deb S
- Subjects
- Adhesiveness, Adolescent, Adult, Bicuspid chemistry, Bicuspid physiology, Calcium Phosphates chemistry, Child, Citric Acid chemistry, Humans, Microscopy, Confocal, Microscopy, Electron, Scanning, Molar chemistry, Molar physiology, Phosphoric Acids chemistry, Shear Strength, Surface Properties, X-Ray Diffraction, Young Adult, Dental Bonding methods, Orthodontic Brackets
- Abstract
Orthodontic treatment is widely used to correct irregular teeth and/or jaw discrepancies to improve oral function and facial aesthetics. However, it is frequently associated with enamel damage that include chipping, demineralisation, and white spot formation. So far, current bonding systems that can maintain shear bond strengths (SBS) suitable for clinical performance are unable to limit enamel demineralisation, adhesive remnants and damage caused on removal of brackets after treatment. This study reports a novel "safe enamel etch" clinically viable procedure that was accomplished via application of novel etchant pastes developed with β-tricalcium phosphate and monocalcium phosphate monohydrate powders mixed with citric acid (5 M) or phosphoric acid (37% PA) to yield BCA and BPA etchants respectively. Although enamel etched with clinically used PA gel yielded higher SBS than the BCA/BPA etchants, it exhibited greater adhesive remnants with evidence of enamel damage. In contrast, the experimental etchants resulted in unblemished enamel surfaces with zero or minimal adhesive residue and clinically acceptable SBS. Furthermore, the BPA etchant caused lower enamel decalcification with extensive calcium-phosphate precipitation. The study conclusively showed that BPA facilitated in vitro enamel adhesion without detrimental effects of the aggressive PA gel with potential for remineralisation and saving time at the post-debonding step.
- Published
- 2019
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11. Brain activation patterns during unilateral premolar occlusion.
- Author
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Feng CZ, Li JF, Hu N, Jiang H, Wang YY, and Liu HC
- Subjects
- Adult, Bicuspid diagnostic imaging, Cerebral Cortex physiology, Female, Humans, Magnetic Resonance Imaging, Male, Mastication physiology, Motor Cortex physiology, Prefrontal Cortex physiology, Sensorimotor Cortex physiology, Thalamus physiology, Young Adult, Bicuspid physiology, Brain physiology, Dental Occlusion
- Abstract
Objective: To observe the characteristics of brain activation during unilateral premolar occlusion., Methods: Functional magnetic resonance imaging was collected from 10 healthy volunteers during occlusion of the left first premolar (L1), left second premolar (L2), and right first premolar (R1). The brain activation patterns were analyzed, and the primary sensorimotor cortex, supplementary motor area, insula, thalamus, and prefrontal cortex were chosen as regions of interest., Results: Single premolar occlusion activated the precentral gyrus, postcentral gyrus, cerebellum, thalamus, frontal lobe, hippocampus, cingulate gyrus, and parietal lobe. The brain areas showing activation during single premolar occlusion were similar to those activated by chewing. The activation pattern of L1 was more similar to that of L2 than R1. No significant left and right hemisphere differences in signal intensity were detected within the regions of interest., Conclusion: Brain activation patterns from two ipsilateral premolars were more similar than the pattern from a contralateral premolar.
- Published
- 2019
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12. Effect of Two Remineralizing Agents on Initial Caries-like Lesions in Young Permanent Teeth: An in Vitro Study.
- Author
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Talaat DA, Abdelrahman AA, Abdelaziz RH, and Nagy D
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- Caseins administration & dosage, Collagen administration & dosage, Dental Caries physiopathology, Dental Enamel drug effects, Dental Enamel ultrastructure, Durapatite administration & dosage, Hardness, Humans, In Vitro Techniques, Microscopy, Electron, Scanning, Ointments, Surface Properties, Bicuspid physiology, Caseins pharmacology, Collagen pharmacology, Dental Enamel physiology, Durapatite pharmacology, Tooth Calcification drug effects, Tooth Remineralization methods
- Abstract
Aim: To compare the effect of nano-hydroxyapatite (9000 ppm F) and casein phosphopeptide-amorphous calcium phosphate fluoride (900 ppm F) pastes on initial enamel carious lesions of young permanent teeth., Materials and Methods: Sixty extracted young premolars with a standardized window on enamel were immersed in a demineralizing solution for 48 hours to produce subsurface enamel lesions. They were divided into three groups according to remineralizing agents (n = 20) group I: nano-hydroxyapatite paste; group II: casein phosphopeptide-amorphous calcium phosphate fluoride paste; and group III: control (without an agent). The enamel surface microhardness (SMH) was measured at baseline, after the incipient enamel lesion, and after treatment. Additional twenty young premolars were selected and prepared as mentioned above for surface morphology evaluation by scanning electron microscope (SEM)., Results: No significant difference was found in mean surface microhardness in teeth treated with nano-hydroxyapatite paste and those treated with casein phosphopeptide-amorphous calcium phosphate fluoride p = 0.26. SEM showed improvement in surface defects of demineralized enamel in the two test groups., Conclusion: Nano-hydroxyapatite and casein phosphopeptide-amorphous calcium phosphate fluoride pastes were effec -tive in rehardening the initial enamel caries lesions in young permanent teeth., Clinical Significance: The best strategy for caries management is to focus on the methods of improving the reminer-alization process with the aid of the remineralizing agents. The current study compared the remineralizing effect of two remineralizing agents. Within the limitations of the study, both remineralizing agents were effective for remineralization of early caries-like lesions.
- Published
- 2018
13. The evaluation of the transport medium for extracted premolars prior to cryopreservation: a systematic literature review.
- Author
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De Roo NMC, Thierens LAM, Temmerman L, and De Pauw GAM
- Subjects
- Animals, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, Antifungal Agents chemistry, Antifungal Agents pharmacology, Bacterial Infections prevention & control, Bicuspid physiology, Culture Media chemistry, Culture Media pharmacology, Humans, Mycoses prevention & control, Serum chemistry, Tissue Banks, Transplantation, Autologous, Transportation, Bicuspid microbiology, Bicuspid transplantation, Cryopreservation methods, Disinfection methods
- Abstract
Prior to cryopreservation, a tooth is transported from a contaminated oral environment to the tooth bank. Our objective was to identify all studies reporting or investigating a transport protocol prior to the cryopreservation of teeth, in terms of decontamination of the subjects. The systematic literature search (1970-2017) was based on MEDLINE via PubMed, Web of Science and the Cochrane Library. The reference lists of the included studies and the Science Citation Index were used for hand searching (snowballing). Only studies reporting the transport conditions of the transplant were included. Language restrictions for English, Dutch or French were applied. The search led to 14 eligible studies. Almost all studies were laboratory studies, so the methodological quality of evidence was low. The majority of the included studies was performed by only five different research groups and the number of subjects varied between 1 and 120 teeth. In general, the teeth were stored in a tissue culture medium supplemented with fetal calf serum and/or different combinations of antibiotics and/or antimycotics. The teeth were transported cooled (4 °C) or at room temperature, for a period of time not exceeding 24 h. Only three studies reported the irrigation of the teeth with phosphate buffered saline prior to the transport. The optimisation of the decontamination during transport was investigated in three studies (from 1971, 1980 and 1982). It was concluded that the literature on this topic is scarce, and the decontamination protocol for teeth, prior to cryopreservation has not been validated recently.
- Published
- 2018
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14. Validation of contralateral premolars as the substrate for endodontic comparison studies.
- Author
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Johnsen GF, Sunde PT, and Haugen HJ
- Subjects
- Bicuspid anatomy & histology, Endodontics methods, Humans, Tooth Root, Bicuspid physiology
- Abstract
Aim: To use micro-CT technology and metrology software to validate the use of contralateral premolars as samples in endodontic comparison studies by comparing them before and after canal instrumentation with one instrumentation system. Furthermore, to determine whether contralateral premolar roots (CPRs) will yield non-significantly different outcomes regarding shaping ability (volume), degree of twisting and three-dimensional shape changes. The null-hypothesis (H
0 ) is that there are no differences between the CPRs pre- or post-instrumentation., Methodology: Twenty-eight extracted human contralateral premolars (n = 44 contralateral roots) from 12 donor patients were scanned with microcomputed tomography before and after instrumentation. Root canal lengths (RCLs) were measured visually using a dental-operating microscope, electronic apex locator and micro-CT scans. Data were analysed statistically for differences between pre- and post-instrumentation., Results: Instrumentation increased the volume of the canals significantly (P < 0.05). Degree of twisting for a majority (83%) of the contralateral roots pairs did not change significantly (P > 0.05). There was no significant difference (P > 0.05) in the shape deviation analysis between contralateral pairs. There was no significant difference (P > 0.05) for RCL between the contralateral pairs for any of the three endometric methods., Conclusion: Contralateral premolar root canals were associated with similar changes in terms of volume, three-dimensional shape and degree of twisting from pre- to post-instrumentation. There was no difference between the CPR pairs pre- and post-instrumentation, and the study validates contralateral premolars as samples for root canal comparison studies. The null-hypothesis (H0 ) could not be rejected., (© 2018 International Endodontic Journal. Published by John Wiley & Sons Ltd.)- Published
- 2018
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15. Interrelationships Between Morphometric, Densitometric, and Mechanical Properties of Teeth in 5-Month-Old Polish Merino Sheep.
- Author
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Tatara MR, Szabelska A, Krupski W, Tymczyna B, Łuszczewska-Sierakowska I, Bieniaś J, and Ostapiuk M
- Subjects
- Animals, Bicuspid anatomy & histology, Bicuspid physiology, Biomechanical Phenomena, Cuspid anatomy & histology, Cuspid physiology, Densitometry veterinary, Incisor anatomy & histology, Incisor physiology, Mandible, Poland, X-Ray Microtomography veterinary, Sheep anatomy & histology, Sheep physiology, Tooth, Deciduous anatomy & histology, Tooth, Deciduous physiology
- Abstract
Interrelationships between morphological, densitometric, and mechanical properties of deciduous mandibular teeth (incisors, canine, second premolar) were investigated. To perform morphometric, densitometric, and mechanical analyses, teeth were obtained from 5-month-old sheep. Measurements of mean volumetric tooth mineral density and total tooth volume were performed using quantitative computed tomography. Microcomputed tomography was used to measure total enamel volume, volumetric enamel mineral density, total dentin volume, and volumetric dentin mineral density. Maximum elastic strength and ultimate force of teeth were determined using 3-point bending and compression tests. Pearson correlation coefficients were determined between all investigated variables. Mutual dependence was observed between morphological and mechanical properties of the investigated teeth. The highest number of positive correlations of the investigated parameters was stated in first incisor indicating its superior predictive value of tooth quality and masticatory organ function in sheep. Positive correlations of the volumetric dentin mineral density in second premolar with final body weight may indicate predictive value of this parameter in relation with growth rate in sheep. Evaluation of deciduous tooth properties may prove helpful for breeding selection and further reproduction of sheep possessing favorable traits of teeth and better masticatory organ function, leading to improved performance and economic efficiency of the flock.
- Published
- 2018
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16. Biomechanical Effects of Bonding Pericervical Dentin in Maxillary Premolars.
- Author
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Huynh N, Li FC, Friedman S, and Kishen A
- Subjects
- Biomechanical Phenomena, Composite Resins adverse effects, Composite Resins therapeutic use, Dental Stress Analysis, Humans, Maxilla, Root Canal Therapy adverse effects, Root Canal Therapy methods, Tooth Fractures etiology, Tooth Fractures prevention & control, Bicuspid physiology, Dental Bonding adverse effects, Dentin physiology, Tooth, Nonvital physiopathology
- Abstract
Introduction: Pericervical dentin (PCD) loss may increase root fracture propensity in root-filled teeth. This study evaluated the impacts of bonding PCD with composite resin (CR) on radicular microstrain distribution and load at failure of root-filled maxillary premolars., Methods: Ten single-canal maxillary premolars decoronated 2 mm coronal to the cementoenamel junction (CEJ) had canals enlarged with ProTaper Universal instruments (Dentsply Tulsa Dental Specialties, Tulsa, OK) to F3. They were root filled with gutta-percha (GP) to the CEJ and restored with Cavit (3M Deutschland GmbH, Neuss, Germany) (GP group, n = 5) or 6 mm apical to the CEJ and restored with bonded CR to simulate bonding of PCD (bonded PCD group, n = 5). Digital moiré interferometry was used to evaluate pre- and postoperative whole-field microstrain distribution in the root dentin under physiologically relevant loads (10-50 N). Another 30 premolars, similarly treated as groups 1 and 2 or left untreated as controls (n = 10/group), were subjected to cyclic loads (1.2 million cycles, 45 N, 4 Hz) followed by uniaxial compressive load to failure. Mechanical data were analyzed with 1-way analysis of variance and the post hoc Tukey test at a 5% level of significance., Results: Microstrain distribution showed bending and compressive patterns at the coronal and apical root dentin, respectively. In the GP group, microstrain distribution was unaltered. In the bonded-PCD group, different microstrain distribution suggested stiffening at the PCD. The load at failure did not differ significantly for the GP, bonded PCD, and control groups (P > .05)., Conclusions: CR bonding of PCD might impact the biomechanical responses in maxillary premolar roots at low-level continuous loads. The effect of this impact on root fracture loads when subjected to cyclic load warrants further investigation., (Copyright © 2018 American Association of Endodontists. Published by Elsevier Inc. All rights reserved.)
- Published
- 2018
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17. Analysis of masticatory muscle coordination during unilateral single-tooth clenching using muscle functional magnetic resonance imaging.
- Author
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Yamaguchi S, Okada C, Watanabe Y, Watanabe M, and Hattori Y
- Subjects
- Adult, Bicuspid diagnostic imaging, Biomechanical Phenomena, Bite Force, Female, Healthy Volunteers, Humans, Male, Mandibular Condyle diagnostic imaging, Molar diagnostic imaging, Pterygoid Muscles diagnostic imaging, Bicuspid physiology, Magnetic Resonance Imaging, Mandibular Condyle physiology, Molar physiology, Muscle Contraction physiology, Pterygoid Muscles physiology
- Abstract
In a previous study, we used muscle functional magnetic resonance imaging to show that the anterior movement of the occlusal point increased the activity of the superior head of the ipsilateral lateral pterygoid muscle (ipsilateral SHLP) during unilateral single-tooth clenching. The purpose of this study was to verify the hypothesis that the increased activity of the ipsilateral SHLP described above serves to antagonise the occlusal force acting on the condyle. In total, 9 healthy volunteers were requested to perform left unilateral clenching at the first molar or first premolar region for 1 minute at 20% or 40% maximum voluntary clenching force. Changes in the mean proton transverse relaxation time (∆T2) were examined from the magnetic resonance images obtained before and after each clenching act as an index of the activity in all masticatory muscles. Correlation analyses of the mean ΔT2 for each volume of interest were performed with the first molar or premolar clenches to analyse the correlation between the activities in each muscle. A statistically significant correlation was exhibited between the ipsilateral temporal and ipsilateral SHLP (r = .651, P = .003) during first premolar clenching. However, no significant correlations were observed in the ipsilateral SHLP during first molar clenching. The results of this study suggest that the ipsilateral SHLP may contribute to the pulling of the mandibular condyle forward against the occlusal force generated by the ipsilateral temporal muscle., (© 2017 John Wiley & Sons Ltd.)
- Published
- 2018
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18. Odontoblast-like differentiation and mineral formation of pulpsphere derived cells on human root canal dentin in vitro.
- Author
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Neunzehn J, Pötschke S, Hannig C, Wiesmann HP, and Weber MT
- Subjects
- Adult, Bicuspid physiology, Cell Differentiation, Dental Pulp cytology, Dental Pulp Cavity, Female, Humans, In Vitro Techniques, Male, Middle Aged, Minerals chemistry, Molar physiology, Odontoblasts physiology, Regeneration physiology, Tissue Scaffolds, Cell Movement physiology, Dentin physiology, Odontoblasts cytology, Root Canal Therapy methods, Tissue Engineering methods
- Abstract
Background: The revitalization or regeneration of the dental pulp is a preferable goal in current endodontic research. In this study, human dental pulp cell (DPC) spheres were applied to human root canal samples to evaluate their potential adoption for physiological tissue-like regeneration of the dental root canal by odontoblastic differentiation as well as cell-induced mineral formation., Methods: DPC were cultivated into three-dimensional cell spheres and seeded on human root canal specimens. The evaluation of sphere formation, tissue-like behavior and differentiation as well as mineral formation of the cells was carried out with the aid of optical light microscopy, immunohistochemical staining and scanning electron microscopy (SEM)., Results: Spheres and cells migrated out of the spheres showed an intense cell-cell- and cell-dentin-contact with the formation of extra cellular matrix. In addition, the ingrowth of cell processes into dentinal tubules and the interaction of cell processes with the tubule walls were detected by SEM-imaging. Immunohistochemical staining of the odontoblast specific matrix proteins, dentin matrix protein-1, and dentin sialoprotein revealed an odontoblast-like cell differentiation in contact with the dentin surface. This differentiation was confirmed by SEM-imaging of cells with an odontoblast specific phenotype and cell induced mineral formation., Conclusions: The results of the present study reveal the high potential of pulp cells organized in spheres for dental tissue engineering. The odontoblast-like differentiation and the cell induced mineral formation display the possibility of a complete or partial "dentinal filling" of the root canal and the opportunity to combine this method with other current strategies.
- Published
- 2017
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19. The Effect of Composite Thickness on the Stress Distribution Pattern of Restored Premolar Teeth with Cusp Reduction.
- Author
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Panahandeh N, Torabzadeh H, Ziaee N, Mahdian M, Tootiaee B, and Ghasemi A
- Subjects
- Cuspid anatomy & histology, Cuspid physiology, Dental Caries surgery, Dental Stress Analysis, Humans, Models, Dental, Bicuspid physiology, Cuspid surgery, Dental Restoration, Permanent adverse effects
- Abstract
Purpose: Different thicknesses of restorative material can alter the stress distribution pattern in remaining tooth structure. The assumption is that a thicker composite restoration will induce a higher fracture resistance. Therefore, the present study evaluated the effect of composite thickness on stress distribution in a restored premolar with cusp reduction., Materials and Methods: A 3D solid model of a maxillary second premolar was prepared and meshed. MOD cavities were designed with different cusp reduction thicknesses (0, 0.5, 1, 1.5, 2.5 mm). Cavities were restored with Valux Plus composite. They were loaded with 200 N force on the occlusal surface in the direction of the long axis. Von Mises stresses were evaluated with Abaqus software., Results: Stress increased from occlusal to gingival and was maximum in the cervical region. The stressed area in the palatal cusp was more than that of the buccal cusp. Increasing the thickness of composite altered the shear stress to compressive stress in the occlusal area of the teeth., Conclusion: The model with 2.5 mm cusp reduction exhibited the most even stress distribution., (© 2015 by the American College of Prosthodontists.)
- Published
- 2017
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20. Repeatability of strain magnitude and strain rate measurements in the periodontal ligament using fibre Bragg gratings: An ex vivo study in a swine model.
- Author
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Romanyk DL, Guan R, Major PW, and Dennison CR
- Subjects
- Animals, Bicuspid physiology, Biomechanical Phenomena, Mandible physiology, Stress, Mechanical, Swine, Periodontal Ligament physiology
- Abstract
Measurement of periodontal ligament (PDL) strain in an ex vivo or in vivo setting of a complete tooth-PDL-bone complex (TPBC) has yet to be achieved in the literature. The objective of this study was to investigate inter- and intra-TPBC PDL strain measurement using fibre Bragg grating (FBG) strain sensors. Second and third premolars from the left and the right side of four swine mandibles were removed to yield sixteen TPBC samples. Samples were secured in a miniature load-frame equipped with a digital actuator used to apply apical-directed displacement to the tooth. The same tooth on left and right sides of the mouth were exposed to the same loading condition over ten trials allowing for comparisons in a split-mouth study. Displacements of 0.2 and 0.3mm were considered along with displacement rates of 0.025, 0.05, and 0.1mm/s, yielding six loading combinations. Hypothesis testing between left and right teeth revealed FBGs did not always measure the same strain between left and right TPBCs. For all strain measures, the average coefficient of variation (CV) (all data collected) was 2.16 (range: 0.274-10.71). For repeated measures in single TPBCs, the minimum CV ranged from 0.037 to 0.449, and generally coincided with the time of maximum strain measured over the test duration. Based on the findings of this study, it is suggested that FBGs can provide repeatable ex vivo strain measures in the PDL of complete TPBCs., (Copyright © 2017 Elsevier Ltd. All rights reserved.)
- Published
- 2017
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21. The influence of occlusal morphology on occlusion time.
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Sierpinska T, Kropiwnicka A, Kuc J, Jacunski P, and Gołębiewska M
- Subjects
- Adolescent, Bicuspid physiology, Female, Humans, Imaging, Three-Dimensional, Male, Malocclusion, Angle Class I physiopathology, Mastication, Molar physiology, Time Factors, Young Adult, Bicuspid pathology, Dental Occlusion, Malocclusion, Angle Class I pathology, Molar pathology
- Abstract
Objectives: The aim of the study was to assess how the morphology of the occlusal surfaces of premolars and molars influenced the occlusion time in a mixed gender group of young adults with full natural dentition., Methods: Fifty healthy volunteers with Angle's Class I occlusion were included in the study. After clinical examination, the alginate impressions of both arches were taken, and plaster casts were prepared. To assess the morphology of lateral teeth, the digital models were measured. Occlusal analysis was performed with the T-Scan
® III to assess occlusion time., Results: A direct correlation was found between the cusp distance for the first upper premolar and occlusion time (r = -0.29, p<0.05) and the distance between distal buccal and distal lingual cusps of the first lower premolar and occlusion time (r = 0.33, p<0.05). The parameters that had their impact on occlusion time were the opening angle of lingual cusps for the lower molars and the furrow angle of aperture between cusps for first upper premolar., Discussion: Occlusal surface morphologies of premolars may have direct impact on occlusion time. However, anterior guidance parameters and morphologies of molars could also influence the time teeth are in contact coming to maximal intercuspation.- Published
- 2017
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22. Effects of Stem Cell Factor on Cell Homing During Functional Pulp Regeneration in Human Immature Teeth.
- Author
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Ruangsawasdi N, Zehnder M, Patcas R, Ghayor C, Siegenthaler B, Gjoksi B, and Weber FE
- Subjects
- Adolescent, Child, Dental Pulp cytology, Female, Humans, Male, Up-Regulation drug effects, Bicuspid injuries, Bicuspid physiology, Cell Movement drug effects, Dental Pulp metabolism, Mesenchymal Stem Cells metabolism, Regeneration drug effects, Stem Cell Factor pharmacology
- Abstract
Conventional root canal treatment in immature permanent teeth can lead to early tooth loss in children because root formation is discontinued. We investigated whether the stem cell factor (SCF) could facilitate cell homing in the pulpless immature root canal and promote regeneration of a functional pulp. In vitro, human mesenchymal stem cells (hMSCs) were exposed to SCF at various concentrations for assessing cell migration, proliferation, and differentiation toward odonto/osteoblasts by 3D-chemotaxis slides, WST-1 assay, and alkaline phosphatase activity, respectively. Fibrin gels were used to deliver 15 μg/mL SCF for in vivo experiments. The release kinetic of SCF was assessed in vitro. Two corresponding human immature premolars, with or without SCF, were placed at rat calvariae for 6 and 12 weeks. All tooth specimens were either analyzed histologically and the percentage of tissue ingrowth determined or the cells were extracted from the pulp space, and the mRNA level of DMP1, DSPP, Col1, NGF, and VEGF were assessed by quantitative polymerase chain reaction. In the presence of SCF, we saw an increase in hMSCs directional migration, proliferation, and odonto/osteogenic differentiation. SCF also increased the extent of tissue ingrowth at 6 weeks but not at 12 weeks. However, at this time point, the formed tissue appeared more mature in samples with SCF. In terms of gene transcription, DMP1, Col1, and VEGF were the significantly upregulated genes, while DSPP and NGF were not affected. Our results suggest that SCF can accelerate cell homing and the maturation of the pulp-dentin complex in human immature teeth.
- Published
- 2017
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23. Experimental quantification of the mechanical forces and moments applied on three adjacent orthodontic brackets.
- Author
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Wagner D, Bolender Y, Rémond Y, and George D
- Subjects
- Bicuspid anatomy & histology, Bicuspid physiology, Biomechanical Phenomena, Bone Remodeling, Computer Simulation, Humans, Incisor anatomy & histology, Incisor physiology, Models, Biological, Orthodontic Appliance Design, Tooth anatomy & histology, Dental Stress Analysis methods, Orthodontic Brackets, Stress, Mechanical, Tooth physiology
- Abstract
Orthodontic appliances deliver forces and moments that will determine movement of teeth. To analyze this latter, we developed an experimental setup to measure the mechanical forces applied on the teeth and to calculate, through a simplified theoretical analysis, the reactive forces and corresponding moments onto the brackets of three adjacent teeth. To validate the theoretical and experimental results, we use a simplified clinical situation of a maxillary canine in infraclusion and surrounded by its corresponding upper lateral incisor and first premolar. Forces are then measured experimentally and compared with the calculated results. From this, we show the specific dissymmetry of the mechanical forces on each side of the maxillary canine due to the applied mechanical forces and the undesirable induced generated moments occurring on each tooth that will directly impact the bone remodeling process and the final tooth repositioning.
- Published
- 2017
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24. Electrode Placing Sites affect Pulp Vitality Test of Human Incisors and Premolars.
- Author
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Tian SY, Tang L, and Zheng CY
- Subjects
- Adult, Female, Healthy Volunteers, Humans, Male, Young Adult, Bicuspid physiology, Dental Pulp physiology, Dental Pulp Test methods, Electrodes, Incisor physiology
- Abstract
Objective: To investigate electric pulp test thresholds at different sites on healthy incisors and premolars and determine appropriate test sites., Methods: Overall, 47 volunteers aged 20 to 30 years were recruited, and 163 incisors and 140 premolars were tested at several sites with an Electric Pulp Tester. One-way analysis of variance and a Tukey test were used to analyse the threshold values among different tooth types and sites., Results: The lowest threshold value for incisors was identified on the incisal edge. The difference of threshold on the incisal edge and other sites was statistically significant in mandibular incisors. For maxillary premolars and the mandibular second premolar, the lowest response was obtained with the tester tip on the lingual slope of the buccal cusp. For the mandibular first premolar, the response at the lingual slope of the buccal cusp, as the second lowest, was slightly higher than that at the buccal cusp., Conclusion: The incisal edge for incisors and the lingual slope of the buccal cusp for premolars was favoured as the optimal sites for electric pulp test.
- Published
- 2017
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25. Effects of non-carious cervical lesion size, occlusal loading and restoration on biomechanical behaviour of premolar teeth.
- Author
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Zeola LF, Pereira FA, Machado AC, Reis BR, Kaidonis J, Xie Z, Townsend GC, Ranjitkar S, and Soares PV
- Subjects
- Adult, Biomechanical Phenomena, Composite Resins, Dental Restoration, Permanent methods, Dental Stress Analysis methods, Finite Element Analysis, Humans, Bicuspid physiology, Mandible, Tooth Cervix physiology, Tooth Fractures surgery
- Abstract
Background: Information on fracture biomechanics has implications in materials research and clinical practice. The aim of this study was to analyse the influence of non-carious cervical lesion (NCCL) size, restorative status and direction of occlusal loading on the biomechanical behaviour of mandibular premolars, using finite element analysis (FEA), strain gauge tests and fracture resistance tests., Methods: Ten buccal cusps were loaded on the outer and inner slopes to calculate the strain generated cervically. Data were collected for healthy teeth at baseline and progressively at three lesion depths (0.5 mm, 1.0 mm and 1.5 mm), followed by restoration with resin composite. The magnitude and distribution of von Mises stress and maximum principal stress were simulated at all stages using FEA, and fracture strength was also determined (n = 7 per group)., Results: There were significant effects of the lesion size and loading directions on stress, strain and fracture resistance (p < 0.05). Fracture resistance values decreased with increase in lesion size, but returned to baseline with restorations., Conclusions: Combined assessment of computer-based and experimental techniques provide an holistic approach to characterize the biomechanical behaviour of teeth with both unrestored and restored NCCLs., (© 2016 Australian Dental Association.)
- Published
- 2016
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26. Fiber Bragg Grating based bite force measurement.
- Author
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Umesh S, Padma S, Asokan S, and Srinivas T
- Subjects
- Adult, Bicuspid physiology, Diagnostic Equipment, Female, Humans, Incisor physiology, Male, Mastication physiology, Molar physiology, Muscle Strength, Young Adult, Bite Force
- Abstract
The present study reports an in vivo, novel methodology for the dynamic measurement of the bite force generated by individual tooth using a Fiber Bragg Grating Bite Force Recorder (FBGBFR). Bite force is considered as one of the major indicators of the functional state of the masticatory system, which is dependent on the craniomandibular structure comprising functional components such as muscles of mastication, joints and teeth. The proposed FBGBFR is an intra-oral device, developed for the transduction of the bite force exerted at the occlusal surface, into strain variations on a base plate, which in turn is sensed by the FBG sensor bonded over it. The FBGBFR is calibrated against a Micro Universal Testing Machine (UTM) for 0-900N range and the resolution of the developed FBGBFR is found to be 0.54N. 36 volunteers (20 males and 16 females) performed the bite force measurement test at molar, premolar and incisor tooth on either side of the dental arch and the obtained results show clinically relevant bite forces varying from 176N to 635N. The bite forces obtained from the current study for a substantial sample size, show that the bite forces increases along the dental arch from the incisors towards the molars and are found to be higher in male than in female. The FBG sensor element utilized in FBGBFR is electrically passive, which makes it a safe in vivo intra-oral device. Hence the FBGBFR is viable to be employed in clinical studies on biomechanics of oral function., (Copyright © 2016 Elsevier Ltd. All rights reserved.)
- Published
- 2016
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27. Residual Microstrain in Root Dentin after Canal Instrumentation Measured with Digital Moiré Interferometry.
- Author
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Lim H, Li FC, Friedman S, and Kishen A
- Subjects
- Bicuspid physiology, Dental Stress Analysis, Humans, Interferometry, Stress, Mechanical, Dentin physiology, Root Canal Therapy adverse effects, Root Canal Therapy instrumentation, Tooth Root physiology
- Abstract
Introduction: Residual microstrain influences the resistance to crack propagation in a biomaterial. This study evaluated the residual microstrain and microdefects formed in dentin after canal instrumentation in teeth maintained in hydrated and nonhydrated environments., Methods: Canals of 18 extracted human premolars with single-root canals were instrumented in accordance with 3 groups: the ProTaper Universal (Dentsply Maillefer, Ballaigues, Switzerland) group: ProTaper Universal (S1, S2, F1, and F2) used in rotation, the WaveOne Primary (Dentsply Maillefer) group: the WaveOne (Primary) used in reciprocal motion, and the control group: hand files. Half the specimens (3/group) were maintained in deionized water (hydrated) and half in ambient relative humidity conditions (22°C, 55% RH) for 72 hours (nonhydrated). Customized high-sensitivity digital moiré interferometry was used to qualitatively evaluate pre- and postinstrumentation dentinal microstrain. Subsequently, specimens were examined for dentinal microdefects with micro-computed tomographic imaging and polarized light microscopy., Results: Digital moiré interferometry showed only minor changes in postinstrumentation microstrain in hydrated dentin in all groups, suggestive of a stress relaxation behavior. Nonhydrated dentin in all groups showed localized concentration of postinstrumentation microstrain, which appeared higher in the WaveOne group than in the other groups. No dentinal microdefects were detected by micro-computed tomographic imaging and polarized light microscopy in hydrated and nonhydrated specimens in all groups., Conclusions: This study suggested that the biomechanical response of root dentin to instrumentation was influenced by hydration. Reciprocating, rotary, and hand instrumentation of well-hydrated roots did not cause an increase in residual microstrain or the formation of microdefects in root dentin., (Copyright © 2016 American Association of Endodontists. Published by Elsevier Inc. All rights reserved.)
- Published
- 2016
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28. Effect of material variation on the biomechanical behaviour of orthodontic fixed appliances: a finite element analysis.
- Author
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Papageorgiou SN, Keilig L, Hasan I, Jäger A, and Bourauel C
- Subjects
- Bicuspid physiology, Biomechanical Phenomena, Composite Resins, Computer Simulation, Dental Cements chemistry, Finite Element Analysis, Humans, Materials Testing methods, Models, Anatomic, Models, Dental, Periodontal Ligament physiology, Stress, Mechanical, Titanium, Orthodontic Appliance Design, Orthodontic Brackets, Orthodontic Wires, Tooth Movement Techniques instrumentation
- Abstract
Introduction: Biomechanical analysis of orthodontic tooth movement is complex, as many different tissues and appliance components are involved. The aim of this finite element study was to assess the relative effect of material alteration of the various components of the orthodontic appliance on the biomechanical behaviour of tooth movement., Methods: A three-dimensional finite element solid model was constructed. The model consisted of a canine, a first, and a second premolar, including the surrounding tooth-supporting structures and fixed appliances. The materials of the orthodontic appliances were alternated between: (1) composite resin or resin-modified glass ionomer cement for the adhesive, (2) steel, titanium, ceramic, or plastic for the bracket, and (3) β-titanium or steel for the wire. After vertical activation of the first premolar by 0.5mm in occlusal direction, stress and strain calculations were performed at the periodontal ligament and the orthodontic appliance., Results: The finite element analysis indicated that strains developed at the periodontal ligament were mainly influenced by the orthodontic wire (up to +63 per cent), followed by the bracket (up to +44 per cent) and the adhesive (up to +4 per cent). As far as developed stresses at the orthodontic appliance are concerned, wire material had the greatest influence (up to +155 per cent), followed by bracket material (up to +148 per cent) and adhesive material (up to +8 per cent)., Limitations: The results of this in silico study need to be validated by in vivo studies before they can be extrapolated to clinical practice., Conclusion: According to the results of this finite element study, all components of the orthodontic fixed appliance, including wire, bracket, and adhesive, seem to influence, to some extent, the biomechanics of tooth movement., (© The Author 2015. Published by Oxford University Press on behalf of the European Orthodontic Society. All rights reserved. For permissions, please email: journals.permissions@oup.com.)
- Published
- 2016
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29. Ipsilateral Molar Clenching Induces Less Pain and Discomfort than Contralateral Molar Clenching in Patients with Unilateral Anterior Disc Displacement of the Temporomandibular Joint.
- Author
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Kumazaki Y, Kawakami S, Hirata A, Oki K, and Minagi S
- Subjects
- Adolescent, Adult, Aged, Bicuspid physiology, Female, Humans, Male, Mandible, Masticatory Muscles physiopathology, Middle Aged, Muscle Contraction physiology, Neck Muscles physiopathology, Range of Motion, Articular physiology, Young Adult, Arthralgia physiopathology, Bite Force, Joint Dislocations physiopathology, Molar physiology, Pain Threshold physiology, Temporomandibular Joint Disc physiopathology, Temporomandibular Joint Disorders physiopathology
- Abstract
Aims: To assess the influence of clenching side and location (ie, tooth) on the bite force necessary to induce pain or discomfort in patients with unilateral anterior disc displacement (ADD) of the temporomandibular joint (TMJ)., Methods: A total of 17 patients with unilateral ADD diagnosed clinically and with magnetic resonance imaging were included. A bite force meter was positioned at each of four experimental positions: the mandibular first premolars and first molars, bilaterally. Subjects were instructed to clench on the bite force meter until they felt pain or discomfort in the orofacial area and to report the location of the pain. Differences in pain location (ADD side versus contralateral side) and in the bite force thresholds for eliciting pain or discomfort were assessed by means of the paired t test and Wilcoxon signed-rank test., Results: Only 18% of subjects (3 out of 17) reported pain in the TMJ with ADD during clenching at the ipsilateral molar, whereas 65% (11 out of 17) reported joint pain during clenching on the contralateral molar (P = .005). At the molars, the mean ± standard deviation bite force necessary to induce pain was 241.2 ± 135.5 N on the side with ADD and 160.9 ± 78.0 N on the contralateral side. The mean molar bite force necessary to induce pain on the side with ADD was significantly higher than that on the contralateral side (P = .002)., Conclusion: Patients with unilateral ADD had fewer reports of TMJ pain and discomfort when they were molar clenching on the ipsilateral side compared to molar clenching on the contralateral side.
- Published
- 2016
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30. Quantitative sensory testing of dentinal sensitivity in healthy humans.
- Author
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Wang K, He T, Luo YI, Bentsen B, and Arendt-Nielsen L
- Subjects
- Adolescent, Adult, Bicuspid physiology, Case-Control Studies, Cold Temperature, Dentin Sensitivity physiopathology, Electric Stimulation, Female, Hot Temperature, Humans, Incisor physiology, Male, Pain Threshold physiology, Physical Stimulation, Stress, Mechanical, Young Adult, Dentin physiology, Sensory Thresholds physiology
- Abstract
Objective: The study was to provide information on quantitative sensory testing (QST) of normal teeth to establish a sensory profile and investigate the possible gender and regional differences., Materials and Methods: A modified QST protocol was applied on both left and right upper-jaw incisors and pre-molar sof 14 healthy men and 14 age-matched healthy women (18-25 years). Mechanical stimulus sensitivity (MSS), cold detection threshold (CDT), cold pain threshold (CPT), warm detection threshold (WDT), heat pain threshold (HPT), electrical detection threshold (EDT) and electrical pain threshold (EPT) were determined from the four teeth (labial side of incisor and buccal side of the first premolar). The QST parameters were analysed by ANOVA., Results: The applied mechanical or thermal stimuli did not evoke any pain sensation. A normal tooth did not seem to be able to distinguish between the warm or cold stimuli applied. No significant differences were found between genders (p > 0.099) or teeth (p > 0.053) regarding mechanical and thermal stimuli. The EDT and EPT were significantly higher in the pre-molar compared with incisor (p < 0.002) without gender differences (p > 0.573)., Conclusion: The established methods and results provided important information on diagnosis and treatment evaluation of dentinal hypersensitivity.
- Published
- 2016
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31. Analysis of Shear Bond Strength and Morphology of Er:YAG Laser-Recycled Ceramic Orthodontic Brackets.
- Author
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Han RQ, Yang K, Ji LF, and Ling C
- Subjects
- Bicuspid physiology, Ceramics radiation effects, Dental Cements, Humans, Lasers, Solid-State, Materials Testing, Shear Strength, Spectrum Analysis, Raman, Ceramics chemistry, Orthodontic Brackets
- Abstract
Objective: The aim of this study was to compare the recycling of deboned ceramic brackets via an Er:YAG laser or via the traditional chairside processing methods of flaming and sandblasting; shear bond strength and morphological changes were evaluated in recycled brackets versus new brackets., Materials and Methods: 3M Clarity Self-Ligating Ceramic Brackets with a microcrystalline base were divided into groups subjected to flaming, sandblasting, or exposure to an Er:YAG laser. New ceramic brackets served as a control group. Shear bond strengths were determined with an Electroforce test machine and tested for statistical significance through analysis of variance. Morphological examinations of the recycled ceramic bracket bases were conducted with scanning electron microscopy and confocal laser scanning microscopy. Residue on the bracket base was analyzed with Raman spectroscopy., Results: Faded, dark adhesive was left on recycled bracket bases processed via flaming. Adhesive was thoroughly removed by both sandblasting and exposure to an Er:YAG laser. Compared with new brackets, shear bond strength was lower after sandblasting (p < 0.05), but not after exposure to an Er:YAG laser. The Er:YAG laser caused no damage to the bracket., Conclusion: Er:YAG lasers effectively remove adhesive from the bases of ceramic brackets without damaging them; thus, this method may be preferred over other recycling methods.
- Published
- 2016
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32. Cytokine measurements in gingival crevicular fluid and periodontal ligament: Are they correlated?
- Author
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Madureira DF, da Silva JM, Teixeira AL, Abreu MH, Pretti H, Lages EM, and da Silva TA
- Subjects
- Adolescent, Bicuspid physiology, Biomechanical Phenomena, Child, Female, Follow-Up Studies, Humans, Interferon-gamma analysis, Interleukin-10 analysis, Interleukin-17 analysis, Interleukin-2 analysis, Interleukin-4 analysis, Interleukin-6 analysis, Male, Orthodontic Brackets, Stress, Mechanical, Tumor Necrosis Factor-alpha analysis, Young Adult, Cytokines analysis, Gingival Crevicular Fluid immunology, Periodontal Ligament immunology
- Abstract
Introduction: Mechanical stress can induce molecular changes in gingival crevicular fluid (GCF) and the periodontal ligament (PDL). It is still not clear whether changes in the PDL and GCF are linked. In this study, we aimed to analyze the expression of cytokines in GCF and PDL after mechanical stress., Methods: Twenty-three healthy patients were included. The experimental group consisted of premolars subjected to a force of 0.980 N for 1, 3, 7, 14, 21, or 28 days. The contralateral teeth were the controls. GCF and PDL samples were collected at the same time points for analysis of cytokines using the cytometric bead array., Results: Interleukin (IL)-6 (IL-6) production was significantly elevated in the PDL on day 1 after force application. Significantly strong positive correlations between GCF and PDL in experimental group were seen on days 3 (interferon-gamma), 7 (IL-10), 14 (IL-17A), and 28 (IL-17A, tumor necrosis factor-alpha), and significantly strong negative correlation were seen on days 14 (interferon-gamma) and 21 (IL-2, IL-10)., Conclusions: Different patterns of IL-6 expression were seen in the PDL and GCF after mechanical stress. Despite occasional correlations between GCF and PDL, the molecular contributions of the PDL to the GCF changes could not be clearly defined by our model., (Copyright © 2015 American Association of Orthodontists. Published by Elsevier Inc. All rights reserved.)
- Published
- 2015
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33. Stress distribution in a premolar 3D model with anisotropic and isotropic enamel.
- Author
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Munari LS, Cornacchia TP, Moreira AN, Gonçalves JB, De Las Casas EB, and Magalhães CS
- Subjects
- Anisotropy, Bicuspid diagnostic imaging, Biomechanical Phenomena, Dental Enamel diagnostic imaging, Dental Stress Analysis, Finite Element Analysis, Humans, Imaging, Three-Dimensional, Stress, Mechanical, Tomography, X-Ray Computed, Bicuspid physiology, Dental Enamel physiology, Models, Dental
- Abstract
The aim of this study was to compare the areas of stress concentration in a three-dimensional (3D) premolar tooth model with anisotropic or isotropic enamel using the finite element method. A computed tomography was imported to an image processing program to create the tooth model which was exported to a 3D modeling program. The mechanical properties and loading conditions were prescribed in Abaqus. In order to evaluate stresses, axial and oblique loads were applied simulating realistic conditions. Compression stress was observed on the side of load application, and tensile stress was observed on the opposite side. Tensile stress was concentrated mainly in the cervical region and in the alveolar insertion bone. Although stress concentration analyses of the isotropic 3D models produced similar stress distribution results when compared to the anisotropic models, tensile stress values shown by anisotropic models were smaller than the isotropic models. Oblique loads resulted in higher values of tensile stresses, which concentrate mainly in the cervical area of the tooth and in the alveolar bone insertion. Anisotropic properties must be utilized in enamel stress evaluation in non-carious cervical lesions.
- Published
- 2015
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34. Angulations of Anterior Teeth With Reference to the Alveolar Bone Measured by CBCT in a Chinese Population.
- Author
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Zhang S, Shi X, and Liu H
- Subjects
- Adult, Bicuspid diagnostic imaging, Bicuspid physiology, China, Cuspid diagnostic imaging, Cuspid physiology, Dental Implantation, Endosseous, Female, Humans, Incisor diagnostic imaging, Incisor physiology, Male, Middle Aged, Young Adult, Alveolar Process anatomy & histology, Alveolar Process diagnostic imaging, Cone-Beam Computed Tomography methods, Maxilla anatomy & histology, Maxilla diagnostic imaging
- Abstract
Objective: To analyze angulations of anterior teeth with reference to the alveolar bone., Methods: Cone-beam computed tomographic (CBCT) images of 105 participants were taken with the same machine (ProMax 3D Max CBCT), showing the intact anterior teeth. The angulations formed between the long axis of the anterior teeth and the alveolus were measured using cross-sectional images. The thicknesses of alveolar bone on different area of root surfaces were also measured., Results: Maxillary anterior teeth were found to be close to the buccal alveolar surface in apical level with the angulations referred to alveolar bone in center incisor, lateral incisor, and canine were 17.65 ± 6.8, 18.79 ± 7.4, and 23.82 ± 6.96 degrees, respectively. Means of angulations of mandibular anterior teeth were less than 8 degree. The thicknesses of buccal bone at mid-root level in 77% to 90% maxillary anterior teeth were less than 1 mm. The determinations provided high intrarater/interrater reliability., Conclusions: The application of CBCT is reliable for a complete calculation of angulations and thicknesses in a Chinese Han population. As a result, adequate planning combined with image examination preoperatively would contribute to a favorable outcome.
- Published
- 2015
- Full Text
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35. Effect of Base and Inlay Restorative Material on the Stress Distribution and Fracture Resistance of Weakened Premolars.
- Author
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Souza AC, Xavier TA, Platt JA, and Borges AL
- Subjects
- Dental Cavity Preparation, Dental Restoration, Permanent, Finite Element Analysis, Humans, In Vitro Techniques, Materials Testing, Tensile Strength, Tooth Preparation, Prosthodontic, Bicuspid injuries, Bicuspid physiology, Dental Materials, Dental Stress Analysis, Tooth Fractures prevention & control
- Abstract
The purpose of this study was to evaluate the influence of direct base and indirect inlay materials on stress distribution and fracture resistance of endodontically treated premolars with weakened cusps. Forty healthy human premolars were selected; five were left intact as controls (group C+), and the others were subjected to endodontic treatment and removal of buccal and lingual cusp dentin. Five teeth were left as negative controls (group C-). The remaining 30 teeth were divided into two groups according to the direct base material (glass ionomer [GIC] or composite resin [CR]). After base placement, each group was subjected to extensive inlay preparation, and then three subgroups were created (n=5): no inlay restoration (GIC and CR), restored with an indirect composite resin inlay (GIC+IR and CR+IR), and restored with a ceramic inlay (GIC+C and CR+C). Each specimen was loaded until fracture in a universal testing machine. For finite element analysis, the results showed that the removal of tooth structure significantly affected fracture resistance. The lowest values were presented by the negative control group, followed by the restored and based groups (not statistically different from each other) and all lower than the positive control group. In finite element analysis, the stress concentration was lower in the restored tooth compared to the tooth without restoration, whereas in the restored teeth, the stress concentration was similar, regardless of the material used for the base or restoration. It can be concluded that the inlay materials combined with a base showed similar behavior and were not able to regain the strength of intact tooth structure.
- Published
- 2015
- Full Text
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36. Ideal orthodontic alignment load relationships based on periodontal ligament stress.
- Author
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Viecilli RF and Burstone CJ
- Subjects
- Bicuspid physiology, Biomechanical Phenomena, Computer Simulation, Cuspid physiology, Finite Element Analysis, Humans, Incisor physiology, Models, Biological, Molar physiology, Orthodontic Wires, Stress, Mechanical, Tooth Movement Techniques instrumentation, Tooth Root physiology, Periodontal Ligament physiology, Tooth Movement Techniques methods
- Abstract
Objectives: To test the hypothesis that periodontal ligament (PDL) stress relationships that yield resistance numbers representing load proportions between different teeth depend on alignment load type., Materials and Methods: Finite element models of all teeth, except the third molars, were produced. Four different types of loads were applied, and the third principal stresses of different teeth in standardized areas of most compression were calculated. Based on these results, resistance numbers, representing the load proportions for each tooth derived from PDL stress, were determined., Results: The third principal stress values for typical alignment loads in the areas of most stress were very different for different load types for each tooth. Differences in resistance numbers between teeth also varied with different loads., Conclusion: Resistance numbers, that is, load proportion numbers between teeth to achieve similar stress at the compressive PDL zone, depend on the type of applied load., (© 2015 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)
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- 2015
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37. The effect of tooth age on colour adjustment potential of resin composite restorations.
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Tanaka A, Nakajima M, Seki N, Foxton RM, and Tagami J
- Subjects
- Adult, Aged, Bicuspid drug effects, Color, Dentin chemistry, Humans, Middle Aged, Young Adult, Acrylic Resins pharmacology, Aging physiology, Bicuspid physiology, Composite Resins pharmacology, Dental Restoration, Permanent, Polyurethanes pharmacology
- Abstract
Objectives: The purpose of this study was to investigate the effect of tooth age on colour adjustment potential of resin composite restorations in human teeth., Methods: Twenty extracted human premolars with an A2 shade, extracted for orthodontic reasons from younger patients (20-28yrs) (younger teeth) and periodontal reasons from older patients (45-69yrs) (older teeth), were used in this study. Cylindrical shaped cavities (3.0mm depth; 2.0mm diameter) were prepared in the centre of the crowns on the buccal surface. One of four resin composites of A2 shade (Kalore, KA; Solare, SO; Clearfil Majesty, MJ; Beautifil II, BF) was placed in the cavity, and the colour was measured at four areas (0.4mm×0.4mm) on the restored teeth (area 1; tooth area 1.0mm away from the border of resin composite restoration: area 2; tooth border area 0.3mm away from margin of resin composite restoration: area 3; resin composite border area 0.3mm away from margin of resin composite restoration: area 4; resin composite area at the centre of resin composite restoration) using a spectrophotometer (Crystaleye). The colour of each area was determined according to the CIELAB colour scale. Colour differences (ΔE*) between the areas of 1 and 2, 2 and 3, 3 and 4 and 1 and 4 were calculated, and also the ratio of ΔE*area2-3 to ΔE*area1-4 (ΔE*area2-3/1-4), ΔE*area3-4 to ΔE*area1-4 (ΔE*area3-4/1-4) and ΔE*area1-2 to ΔE*area1-4 (ΔE*area1-2/1-4) as a parameter of the colour shift in resin composite restoration, were determined. Moreover, the light transmission characteristics of the resin materials and dentine discs from the younger and older teeth were measured using a goniophotometer. The data were statistically analyzed using two-way ANOVA, and Dunnett's T3 and t-test for the post hoc test., Results: ΔE*area2-3 (colour difference between resin composite and tooth at the border) and ΔE*area1-4 (colour difference between resin composite and tooth) of the older teeth groups were significantly larger than those of younger teeth groups (p<0.05). The ΔE*area2-3/1-4 (mis-match rate in colour shifting at the border) of the older teeth groups was larger than that of the younger teeth groups (p<0.05). ΔE*area3-4/1-4 (colour shifting rate of resin composite side) was significantly larger in older teeth than younger teeth (p<0.05), while ΔE*area1-2/1-4 (colour shifting rate of tooth side), was significantly smaller in older teeth than younger teeth (p<0.05). In each tooth group, there were no significant differences in ΔE*area2-3, ΔE*area1-4, ΔE*area2-3/1-4, ΔE*area3-4/1-4 and ΔE*area1-2/1-4 between the materials (p>0.05). Analysis of the light transmission properties indicated that older dentine transmitted more light, while younger dentine exhibited greater light diffusion and transmitted less light., Conclusions: The colour shifting effects at the border of the resin composite restorations were influenced by the age of the tooth. This behaviour might be influenced by the light transmission characteristics of dentine in restored teeth., Clinical Significance: The potential for colour adjustment of resin composite restorations may be less in older teeth than younger teeth., (Copyright © 2014 Elsevier Ltd. All rights reserved.)
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- 2015
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38. Strain measurements and fracture resistance of endodontically treated premolars restored with all-ceramic restorations.
- Author
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Seow LL, Toh CG, and Wilson NH
- Subjects
- Bicuspid physiology, Ceramics therapeutic use, Dental Cavity Preparation, Dental Porcelain therapeutic use, Humans, Inlays methods, Root Canal Therapy, Tooth Crown surgery, Tooth Fractures pathology, Tooth, Nonvital pathology, Tooth, Nonvital surgery, Bicuspid surgery, Dental Restoration, Permanent, Dentin-Bonding Agents therapeutic use, Tooth Fractures surgery
- Abstract
Objectives: The aim of this study was to investigate the recovery of cuspal stiffness and fracture resistance in endodontically treated maxillary premolars restored with bonded ceramic inlays and onlays of various designs., Methods: Seventy intact premolars were selected for this study; six cavity designs were investigated: (i) mesio-occlusal-distal (MOD) inlay (I), (ii) MOD inlay with palatal cusp coverage (IPC), (iii) MOD onlay (O), (iv) MOD inlay with pulp chamber extension (IPE), (v) MOD inlay with palatal cusp coverage and pulp chamber extension (IPCPE), and (vi) MOD onlay with pulp chamber extension (OPE). Intact teeth acted as control. Strain gauges were attached to the buccal and palatal surfaces of the teeth to measure cuspal stiffness under static loading. All specimens were eventually subjected to compressive load to failure. Cuspal stiffness and fracture resistance data were analyzed using ANOVA and Tukey test., Results: The I and IPE restorations restored cuspal stiffness to 75% of the sound tooth value. The O and OPE restored teeth had stiffness values greater than that of a sound tooth. The I, IPC, O, IPE, IPCPE and OPE restored teeth demonstrated fracture strength values of 938N±113 N (s.d.), 1073N±176 N and 1317N±219 N, 893N±129 N, 1062N±153 N and 1347N±191 N respectively., Conclusions: Within the limitations of this study, it was concluded that the all-ceramic onlay or inlay with palatal cusp coverage provided best biomechanical advantage in restoring an endodontically treated maxillary premolar tooth., Clinical Significance: The onlay approach which is more conservative compared to full coverage restoration is considered an appropriate approach to the restoration of endodontically treated maxillary premolars. The addition of a pulpal extension to the all-ceramic restorations, apart from being technically challenging, was not found to offer any biomechanical advantage to the restored teeth., (Copyright © 2014 Elsevier Ltd. All rights reserved.)
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- 2015
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39. Single-beam, dual-view digital holographic interferometry for biomechanical strain measurements of biological objects.
- Author
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Pantelić DV, Grujić DŽ, and Vasiljević DM
- Subjects
- Bicuspid physiology, Equipment Design, Finite Element Analysis, Humans, Image Processing, Computer-Assisted, Mastication physiology, Biomechanical Phenomena physiology, Holography instrumentation, Holography methods, Interferometry instrumentation, Interferometry methods
- Abstract
We describe a method for dual-view biomechanical strain measurements of highly asymmetrical biological objects, like teeth or bones. By using a spherical mirror, we were able to simultaneously record a digital hologram of the object itself and the mirror image of its (otherwise invisible) rear side. A single laser beam was sufficient to illuminate both sides of the object, and to provide a reference beam. As a result, the system was mechanically very stable, enabling long exposure times (up to 2 min) without the need for vibration isolation. The setup is simple to construct and adjust, and can be used to interferometrically observe any object that is smaller than the mirror diameter. Parallel data processing on a CUDA-enabled (compute unified device architecture) graphics card was used to reconstruct digital holograms and to further correct image distortion. We used the setup to measure the deformation of a tooth due to mastication forces. The finite-element method was used to compare experimental results and theoretical predictions.
- Published
- 2014
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40. Stress distributions in human teeth modeled with a natural graded material distribution.
- Author
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Chen Y and Fok A
- Subjects
- Adolescent, Bicuspid chemistry, Biomechanical Phenomena, Dental Enamel chemistry, Dental Enamel physiology, Dentin chemistry, Dentin physiology, Elastic Modulus, Humans, Materials Testing, Minerals chemistry, Models, Anatomic, Models, Biological, Stress, Mechanical, Tooth Calcification physiology, X-Ray Microtomography methods, Bicuspid physiology, Durapatite chemistry, Finite Element Analysis
- Abstract
Objective: This study aimed to investigate how the structural stress distribution in human teeth could be affected by the presence of a graded material distribution often found in nature using the finite element (FE) method., Methods: Hydroxyapatite (HA) tablets with different densities were scanned using a Micro-CT scanner to obtain a relationship between the attenuation coefficient and the elastic modulus via the mineral density. Two maxillary premolars were scanned to provide the geometries and material distributions for constructing the FE models. Stress analyses were then performed to compare the stress distributions between the models with uniform material properties and those with a graded material layout., Results: The attenuation coefficients and densities of the HA tablets measured ranged from 109.77 to 175.01cm(-1) and 0.99 to 1.54gcm(-3), respectively. A linear relationship was found between them and applied to the premolars to derive the elastic modulus via the mineral density. Stress analysis showed that, with a graded material layout, the peak maximum principal stress in the enamel was reduced by about 50% and the overall stress distribution was more uniform. Along the DEJ, two stress peaks were found near the dentin horns, but again they were much lower in magnitude in the models with a graded material distribution., Significance: The results from this study support the hypothesis that the material layout in human enamel is optimized for distributing the external load evenly. They also point to the importance of taking into account the graded material distribution in nature when performing stress analysis for tooth structures., (Copyright © 2014 Academy of Dental Materials. Published by Elsevier Ltd. All rights reserved.)
- Published
- 2014
- Full Text
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41. A histomorphometric and radiographic study of replanted human premolars.
- Author
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Fiane JE, Breivik M, and Vandevska-Radunovic V
- Subjects
- Adolescent, Bicuspid diagnostic imaging, Bicuspid physiology, Child, Dental Pulp physiology, Dentin diagnostic imaging, Dentin physiology, Female, Humans, Male, Radiography, Regeneration, Root Resorption diagnostic imaging, Root Resorption pathology, Tooth Root diagnostic imaging, Tooth Root physiology, Young Adult, Bicuspid pathology, Tooth Replantation methods
- Abstract
Summary Objectives: The purpose of this study was to investigate time-related dental tissue reactions to tooth replantation in mature and immature human premolars by histomorphometric and radiographic methods., Material and Methods: Sixty premolars were extracted, immediately replanted (T0), and left without intervention for 1, 2, 3, 6, 12, and 24 weeks before re-extraction (T1). Periapical radiographs were taken at T0 and T1 in all groups except for the 24 week group. Paraffin-embedded teeth were sectioned buccolingually at 5 µm, stained with haematoxylin-eosin, and prepared for histological analysis. Root resorption, tertiary dentine, and root and crown length were recorded and compared on both radiographs and paraffin sections., Results: Initial degeneration of the odontoblast layer and disturbance of vasculature and normal architecture of the pulp were seen in both mature and immature teeth within the first 3 weeks. Revascularization and tertiary dentine formation was visible on histological sections in immature teeth at 6 weeks. After 24 weeks, most immature teeth had pulps partly or completely obliterated. Abundant tertiary dentine observed on histological slides was not easily seen on periapical radiographs. Likewise, surface root resorption found in both immature and mature teeth was not visible on the radiographs up to 6 weeks after replantation., Conclusion: Within the limits of this study it can be concluded that the dental pulp of immature teeth has the ability to regenerate and produce tertiary dentine after replantation. Root resorptions and tertiary dentine seen on histological sections are not visible on corresponding radiographs 6 and 12 weeks after replantation., (© The Author 2013. Published by Oxford University Press on behalf of the European Orthodontic Society. All rights reserved. For permissions, please email: journals.permissions@oup.com.)
- Published
- 2014
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42. The effect of ferrule height on stress distribution within a tooth restored with fibre posts and ceramic crown: a finite element analysis.
- Author
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Juloski J, Apicella D, and Ferrari M
- Subjects
- Alveolar Process physiology, Biomechanical Phenomena, Dental Abutments, Humans, Imaging, Three-Dimensional methods, Materials Testing, Maxilla physiology, Periodontal Ligament physiology, Stress, Mechanical, Surface Properties, Tooth Root physiology, Tooth, Nonvital physiopathology, Bicuspid physiology, Ceramics chemistry, Composite Resins chemistry, Crowns, Dental Materials chemistry, Dental Prosthesis Design, Finite Element Analysis, Glass chemistry, Post and Core Technique instrumentation, Tooth Preparation, Prosthodontic instrumentation
- Abstract
Objectives: To evaluate via finite element analysis the effect of different ferrule heights on stress distribution within each part of a maxillary first premolar (MFP) restored with adhesively luted glass fiber-reinforced resin (GFRR) posts and a ceramic crown., Methods: The solid models consisted of MFP, periodontal ligament and the corresponding alveolar bone process. Four models were created representing different degrees of coronal tissue loss (0mm, 1mm, 2mm and 3mm of ferrule height). First set of computing runs was performed for in vivo FE-model validation purposes. In the second part, a 200-N force was applied on the buccal cusp directed at 45° to the longitudinal axis of the tooth. Principal stresses values and distribution were recorded within root, abutment, posts, crown and related adhesive interfaces., Results: All FE-models showed similar stress distribution within roots, with highest stress present in the chamfer area. In composite abutments higher stress was observed when no ferrule was present compared to ferruled FE-models. Stress distribution within crown and GFRR posts did not differ among the models. Stress values at the adhesive interfaces decreased with increasing ferrule height., Significance: The stress state at abutment-crown and post-root interfaces was very close to their strength, when ferrule was not present. Similarly, higher ferrule produced more favorable stress distribution at post-abutment and abutment-root interfaces. Endodontically treated teeth with higher ferrule exhibit lower stress at adhesive interfaces that may be expected to lower the probability of clinical failure., (Copyright © 2014 Academy of Dental Materials. Published by Elsevier Ltd. All rights reserved.)
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- 2014
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43. Influence of occlusal contact and cusp inclination on the biomechanical character of a maxillary premolar: a finite element analysis.
- Author
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Liu S, Liu Y, Xu J, Rong Q, and Pan S
- Subjects
- Bicuspid physiology, Biomechanical Phenomena, Bite Force, Computer Simulation, Dental Prosthesis Design, Dental Pulp Cavity anatomy & histology, Dental Pulp Cavity physiology, Dentin physiology, Glass chemistry, Gold Alloys chemistry, Humans, Image Processing, Computer-Assisted methods, Imaging, Three-Dimensional methods, Materials Testing, Maxilla, Models, Biological, Stress, Mechanical, Tooth Crown anatomy & histology, Tooth Preparation, Prosthodontic instrumentation, Tooth, Nonvital physiopathology, Bicuspid anatomy & histology, Dentin anatomy & histology, Finite Element Analysis, Post and Core Technique instrumentation, Tooth Preparation, Prosthodontic methods, Tooth, Nonvital pathology
- Abstract
Statement of Problem: Restoring teeth with large amounts of dentin loss is challenging, especially for posterior teeth with high cusps. However, strategies for reducing the lateral forces are based on clinical experience instead of than scientific evidence., Purpose: The purpose of this study was to analyze the biomechanical characteristics of maxillary premolars with different ferrule configurations and to investigate the influence of occlusal contact and cusp inclination on stress distribution with the finite element method., Material and Methods: Five numerical casts of a maxillary premolar were generated; each adopted 1 of the 5 coronal dentin configurations: i (access cavity with 4-mm dentin height) and ii to v (2-mm complete ferrule, 2-mm facial ferrule, 2-mm palatal ferrule, 2-mm proximal ferrule, and restored with a post and core, respectively). Both gold-alloy and glass-fiber posts were modeled. An oblique load of 200 N was applied to the top, middle, and bottom of the 45-degree facial cusps. The cusp inclination was remodeled to 60 degrees, followed by the application of a 200-N load to the top. The values of the maximum principal stress and von Mises stress were calculated to assess overload risk., Results: When the top of 45-degree facial cusps was loaded, the maximum local stress concentration on dentin was found in teeth with a facial ferrule and restored with a gold-alloy post. When the middle of 45-degree facial cusps were loaded, the principal stresses of teeth with a complete ferrule, palatal ferrule, and proximal ferrule were similar to those of the access cavity teeth. In contrast, the principal stress of a tooth with a facial ferrule was close to that of the access cavity tooth after remodeling the facial inclination to 60 degrees., Conclusions: Maxillary premolars with only facial dentin remaining show higher local stress on root dentin. Altering the loading position and reducing the facial cusp inclination can reduce local stresses., (Copyright © 2014 Editorial Council for the Journal of Prosthetic Dentistry. Published by Elsevier Inc. All rights reserved.)
- Published
- 2014
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44. Effect of thermal stresses on the mechanism of tooth pain.
- Author
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Oskui IZ, Ashtiani MN, Hashemi A, and Jafarzadeh H
- Subjects
- Bicuspid physiology, Biomechanical Phenomena, Cold Temperature, Dental Enamel physiology, Dental Pulp physiology, Dentin physiology, Diffusion, Elastic Modulus, Hot Temperature, Humans, Hydrodynamics, Imaging, Three-Dimensional methods, Stress, Mechanical, Thermodynamics, Finite Element Analysis, Toothache physiopathology
- Abstract
Introduction: Daily hot and cold thermal loadings on teeth may result in structural deformation, mechanical stress, and pain signaling. The aim of this study was to compare the adverse effects of hot and cold beverages on an intact tooth and, then, to provide physical evidence to support the hydrodynamic theory of tooth pain sensation mechanism., Methods: Three-dimensional finite element analysis was performed on a premolar model subjected to hot and cold thermal loadings. Elapsed times for heat diffusion and stress detection at the pulp-dentin junction were calculated as measures of the pain sensation., Results: Extreme tensile stress within the enamel resulted in damage in cold loadings. Also, extreme values of stress at the pulpal wall occurred 21.6 seconds earlier than extreme temperatures in hot and cold loadings., Conclusions: The intact tooth was remarkably vulnerable to cold loading. Earlier changes in mechanical stress rather than temperature at the pulp-dentin junction indicate that the dental pain caused by hot or cold beverages may be based on the hydrodynamic theory., (Copyright © 2014 American Association of Endodontists. Published by Elsevier Inc. All rights reserved.)
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- 2014
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45. Change in the pulp chamber temperature with different stripping techniques.
- Author
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d'Ornellas Pereira JC Jr, Weissheimer A, de Menezes LM, de Lima EM, and Mezomo M
- Subjects
- Bicuspid physiology, Enamel Microabrasion methods, Humans, Incisor physiology, Molar physiology, Thermometers, Body Temperature physiology, Dental Pulp Cavity physiology, Enamel Microabrasion instrumentation
- Abstract
Background: The aim of this study is to evaluate the change in pulp chamber temperature during the stripping technique., Methods: Seventy-eight proximal surfaces of 39 extracted human teeth were stripped by two techniques: double-sided perforated stripping disk (PSD) and handheld stripper (HS). The teeth were divided into three groups: incisors (group 1), premolars (2), and molars (3). A J type thermocouple was inserted into the pulp chamber for temperature evaluation during the stripping procedure., Results: Temperature rise was observed in all groups. The average temperature increase for the incisors was 2.58°C (±0.27°C) with PSD and 1.24°C (±0.3°C) with HS; for the premolars, 2.64°C (±0.29°C) with PSD and 0.96°C (±0.39°C) with HS; and for the molars, 2.48°C (±0.38°C) with PSD and 0.92°C (±0.18°C) with HS. There was significant difference (p<0.001) in pulp temperature variation among the stripping techniques evaluated. Greater variations in the temperature were observed for the stripping technique with PSD for all groups (3.1°C in incisors and premolars, 3.2°C in molars). Stripping performed with HS had minor differences in pulp temperature (1.7°C in incisors, 1.9°C in premolars, and 1.2°C in molars) than those in PSD group. However, the temperature variation was less than the critical threshold (5.5°C) in all groups. The results for teeth group comparison showed no significant difference in the temperature variation., Conclusions: The stripping technique with PSD produced significant increase in pulp temperature, with no differences between the types of teeth. However, it may not be clinically relevant, and both stripping techniques can be used safely.
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- 2014
- Full Text
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46. Effects of post core materials on stress distribution in the restoration of mandibular second premolars: a finite element analysis.
- Author
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Durmuş G and Oyar P
- Subjects
- Carbon chemistry, Carbon Fiber, Ceramics chemistry, Chromium Alloys chemistry, Composite Resins chemistry, Computer Simulation, Dental Alloys chemistry, Dental Pulp Cavity physiology, Elastic Modulus, Glass chemistry, Gold Alloys chemistry, Humans, Imaging, Three-Dimensional methods, Mandible physiology, Materials Testing, Metal Ceramic Alloys chemistry, Models, Biological, Palladium chemistry, Stress, Mechanical, Titanium chemistry, Tooth Root physiology, Tooth, Nonvital physiopathology, Zirconium chemistry, Bicuspid physiology, Dental Materials chemistry, Finite Element Analysis, Post and Core Technique
- Abstract
Statement of Problem: Previous studies have not resolved the question as to which post and core combination optimizes the stress distribution within the post restoration and tooth., Purpose: The purpose of this study was to determine which post and core combination provides the most favorable stress distribution upon loading., Material and Methods: Three-dimensional models of teeth were created with the Ansys program to simulate different materials used for post and cores (Ti, NiCr, AuPd, zirconia, zirconia post/composite resin core, glass fiber post/composite resin core, and carbon fiber post/composite resin core) and metal ceramic crowns (nickel chromium alloy [Group NiCr] and gold palladium alloy [Group AuPd]). A force of 400 N was applied to the occlusal surface, and von Mises equivalent stress values were calculated., Results: Carbon fiber post/composite resin core/metal ceramic crowns with NiCr alloy core had the highest stress values in the weakened root, tooth/post interface, and post. NiCr post/NiCr core/metal ceramic crowns with NiCr alloy core had the lowest stress values in the weakened root and post. The zirconia post and core had the lowest stress value in the tooth/post interface., Conclusions: A post material with a high elastic modulus led to lower stress in the weakened root (approximately 6%) and tooth/post interface (approximately 12%) and to higher stress in the post (approximately 5 times). A composite resin core led to higher stress in the weakened root (approximately 11% to 17%) and lower deformation in the tooth/post interface (approximately 17.5%) and post materials (approximately 24%). Group AuPd resulted in lower stress in the root and high stress in the post (approximately 4.5% to 7%) and affected the amount of deformation in posts with a composite resin core., (Copyright © 2014 Editorial Council for the Journal of Prosthetic Dentistry. Published by Elsevier Inc. All rights reserved.)
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- 2014
- Full Text
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47. Strain gauge analysis of occlusal forces on implant prostheses at various occlusal heights.
- Author
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Cho YE, Park EJ, Koak JY, Kim SK, Heo SJ, and Park JM
- Subjects
- Bicuspid physiology, Biomechanical Phenomena, Composite Resins chemistry, Dental Materials chemistry, Dental Stress Analysis instrumentation, Food, Gold Alloys chemistry, Humans, Molar physiology, Polyurethanes chemistry, Stress, Mechanical, Tooth, Artificial, Bite Force, Crowns, Dental Implants, Dental Prosthesis Design, Dental Prosthesis, Implant-Supported
- Abstract
Purpose: The purpose of this study was to evaluate and compare the strain development at different occlusal heights of an implant prosthesis and adjacent teeth through the use of strain gauges., Materials and Methods: A test model was constructed using autopolymerizing polyurethane resin, artificial composite resin teeth, and an implant gold crown in the mandibular first molar area. The resin block containing the implant and the gold crown was sectioned, and two expansion screws were attached perpendicular to the bottom of the resin block on the buccal and lingual sides. The expansion screws were turned to create a gap. Four groups were created based on the occlusal height of the implant gold crown. Three strain gauges were attached to the buccal surfaces of the mandibular right second premolar, implant gold crown, and second molar. Beef jerky, carrot, and bread were used as test foods. A universal testing machine was used to apply compressive forces of 300 N (beef jerky), 250 N (carrot), and 50 N (bread), and the occlusal force was measured in each group., Results: With 300 N, occlusal forces were concentrated on the adjacent teeth when the occlusal height of the implant prosthesis decreased. With 250 and 50 N, when the occlusal height of the implant prosthesis increased, the occlusal force applied to the implant prosthesis increased, but alterations in the implant crown height had little effect on the adjacent teeth., Conclusion: Different amounts of strain in the implant prosthesis and adjacent teeth were recorded depending on the occlusal height of the prosthesis. With 250 or 50 N of force, an increased prosthesis height affected the implant itself. With 300 N of force, decreased occlusal height of the prosthesis resulted in increased force on the adjacent teeth.
- Published
- 2014
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48. Deformation behavior of human dentin in liquid nitrogen: a diametral compression test.
- Author
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Zaytsev D and Panfilov P
- Subjects
- Bicuspid chemistry, Bicuspid physiology, Cold Temperature, Humans, Molar chemistry, Molar physiology, Tensile Strength, Biomechanical Phenomena physiology, Compressive Strength physiology, Dentin chemistry, Dentin physiology, Nitrogen chemistry
- Abstract
Contribution of the collagen fibers into the plasticity of human dentin is considered. Mechanical testing of dentin at low temperature allows excluding the plastic response of its organic matrix. Therefore, deformation and fracture behavior of the dentin samples under diametral compression at room temperature and liquid nitrogen temperature are compared. At 77K dentin behaves like almost brittle material: it is deformed exclusively in the elastic regime and it fails due to growth of the sole crack. On the contrary, dentin demonstrates the ductile response at 300K. There are both elastic and plastic contributions in the deformation of dentin samples. Multiple cracking and crack tip blunting precede the failure of samples. Organic phase plays an important role in fracture of dentin: plasticity of the collagen fibers could inhibit the crack growth., (Copyright © 2014 Elsevier B.V. All rights reserved.)
- Published
- 2014
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49. A new species of Nyanzachoerus (Cetartiodactyla: Suidae) from the late Miocene Toros-Ménalla, Chad, central Africa.
- Author
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Boisserie JR, Souron A, Mackaye HT, Likius A, Vignaud P, and Brunet M
- Subjects
- Animals, Bicuspid anatomy & histology, Bicuspid physiology, Chad, Female, Fossils history, Genetic Speciation, History, Ancient, Male, Mandible anatomy & histology, Mandible physiology, Molar anatomy & histology, Molar physiology, Paleontology, Phylogeography, Swine physiology, Fossils anatomy & histology, Phylogeny, Swine anatomy & histology, Swine classification
- Abstract
During the latest Miocene and the early Pliocene, tetraconodontine suids were the most predominant large omnivorous mammals in Africa. Yet, new species were often identified on the grounds of limited evidence, a situation impacting their value for biochronological correlations as well as for environmental and biogeographical reconstructions. The description of the most abundant known collection of craniodental remains attributed to the tetraconodontine Nyanzachoerus helps to improve this situation. These specimens were collected in the upper Miocene deposits at Toros-Ménalla, northern Chad, central Africa, by the Mission Paléoanthropologique Franco-Tchadienne. We compared them with Nyanzachoerus from eastern and southern Africa, using extant species as a reference for patterns of morphological variation. Thanks to a large sample of observations, our work focused as much on craniomandibular morphology as on dental morphology and metrics (improved by an index scoring for the complexity of distal third molars and a detailed investigation of premolar-molar ratios). We recognized two taxa at Toros-Ménalla: Nyanzachoerus khinzir nov. sp. and Ny. cf. australis. We also revised the taxonomic status for other species, including: the restriction of Ny. syrticus to its holotype specimen from Sahabi (Libya), the resurrection of the nomen Ny. tulotos, and the synonymy of Ny. kuseralensis with Ny. waylandi. At Toros-Ménalla, Ny. khinzir was the only suid coexisting with the anthracotheriid Libycosaurus and the hominid Sahelanthropus, whereas Ny. cf. australis was associated with a different, probably younger faunal context. Nyanzachoerus. khinzir, which probably had a diversified diet, supports a latest Miocene biogeographical distinction between central Africa and eastern Africa.
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- 2014
- Full Text
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50. Cuspal deflection and cervical microleakage scores to determine the adhesive potential of universal bonding systems.
- Author
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Kearns JO, Barry JG, and Fleming GJ
- Subjects
- Bicuspid anatomy & histology, Bicuspid physiology, Bisphenol A-Glycidyl Methacrylate chemistry, Coloring Agents, Curing Lights, Dental classification, Dental Restoration, Permanent methods, Humans, Hydrogen-Ion Concentration, Materials Testing, Methacrylates chemistry, Pliability, Polymethacrylic Acids chemistry, Random Allocation, Rosaniline Dyes, Temperature, Composite Resins chemistry, Dental Bonding methods, Dental Leakage classification, Dental Materials chemistry, Resin Cements chemistry, Tooth Cervix anatomy & histology, Tooth Crown physiology
- Abstract
Objectives: To assess the adhesive performance of three universal bonding systems (self-etch and total-etch protocols) with cuspal deflection and cervical microleakage score., Methods: Fifty-six standardised sound maxillary premolar teeth with uniform mesio-occlusal-distal (MOD) cavities were randomly allocated to six groups. Restoration with resin-based composite (RBC) was performed in conjunction with a universal bonding system facilitated by a quartz-tungsten-halogen light-curing-unit. The dependent variable was the universal bonding protocol (self-etch or total-etch). Buccal and palatal cuspal deflections were recorded at 0, 30, 60 and 180s post-irradiation using a twin channel deflection measuring gauge. Following restoration, the teeth subjected to 500 thermocycles, immersed in a 0.2% basic fuchsin dye for 24h, sectioned and examined for cervical microleakage., Results: Comparing between bonding protocol (self-etch or total-etch), a decrease in total cuspal deflection and a concomitant increase in cervical microleakage were evident when employing the total-etch compared with the self-etch protocol for two of the three universal dental adhesives., Conclusions: The 'Adhesion-Decalcification concept' suggests a trend towards 'mild self-etch' adhesives. Differences in adhesive performance (cuspal deflection and cervical microleakage) between the teeth restored using the self-etch or total-etch protocols is suggested to be a result of the pH of the self-etch solutions. 'Mild self-etch' (pH∼2.0) adhesives out-performed ultra-mild (pH>2.5) or strong (pH<1.5) self-etch solutions., Clinical Significance: Poorly performing adhesives could be identified using the cuspal deflection and cervical microleakage protocol reported which could save the complications encountered clinically with Class II RBC restorations., (Copyright © 2014 Elsevier Ltd. All rights reserved.)
- Published
- 2014
- Full Text
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