Your search keyword '"Incisor physiology"' showing total 883 results

1. Biomechanical characteristics of maxillary anterior incisor, conventional immediate implantation and socket shield technique - A finite element analysis and case report.

Author

Ye Z, Yu M, Ji Y, Jia S, Xu X, Yao H, Hua X, Feng Z, Shangguan G, Zhang J, Hou X, and Ding X

Subjects

Humans, Biomechanical Phenomena, Stress, Mechanical, Tooth Root anatomy & histology, Tooth Root physiology, Male, Dental Implants, Immediate Dental Implant Loading methods, Finite Element Analysis, Incisor anatomy & histology, Incisor physiology, Maxilla physiology, Maxilla surgery, Tooth Socket surgery, Tooth Socket physiology, Periodontal Ligament physiology

Abstract

Background: To prevent the absorption and collapse of the labial bone plate of the anterior teeth, immediate implantation and socket shield technique have been increasingly applied to anterior dental aesthetic implant restoration., Objective: To provide a biomechanical basis for implant restoration of maxillary anterior teeth, finite element analysis was used to investigate the stress peak and distribution in different anatomical sites of natural teeth, conventional immediate implantation and socket shield technique., Methods: Three maxillary finite element models were established, including a maxillary incisor as a natural tooth, a conventional immediate implantation and a socket shield technique. A mechanical load of 100 N was applied to simulate and analyze the biomechanical behavior of the root, periodontal ligament (PDL), implant and surrounding bone interface., Results: The stress distribution of the natural tooth was relatively uniform under load. The maximum von Mises stress of the root, periodontal ligament, cortical bone and cancellous bone were 20.14 MPa, 2.473 MPa, 19.48 MPa and 5.068 MPa, respectively. When the conventional immediate implantation was loaded, the stress was mainly concentrated around the neck of implant. Maximum stress on the surface of the implant was 102 MPa, the cortical bone was 16.13 MPa, and the cancellous bone was 18.29 MPa. When the implantation with socket shield technique was loaded, the stress distribution of the implant was similar to that of immediate implantation. Maximum stress on the surface of the implant was 100.5 MPa, the cortical bone was 23.11 MPa, the cancellous bone was 21.66 MPa, the remaining tooth fragment was 29.42 MPa and the periodontal ligament of the tooth fragment was 1.131 MPa., Conclusions: 1. Under static loading, both socket shield technology and conventional immediate implantation can support the esthetic restoration of anterior teeth biomechanically. 2.Under short-term follow-up, both immediate implant and socket shield technology achieved satisfactory clinical results, including bone healing and patient satisfaction. 3.The stress distribution is mainly located on the buccal bone surface of the implant and is associated with resorption of the buccal bone plate after implant replacement in both socket shield technology and conventional immediate implantation. 4.The presence of retained root fragment had an impact on the bone graft gap. In immediate implantation, the peak stress was located in the cortical bone near the implant position, while in socket shield technology, the peak stress was at the neck of the cortical bone corresponding to the retained root fragment., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published

2024

2. Biomechanical impact of labiolingual diameter on endodontically treated anterior teeth with crown restoration under occlusal loading.

Author

Liang M, Zeyong L, Li Y, Chen Q, and Meng X

Subjects

Humans, Biomechanical Phenomena, Post and Core Technique, Reproducibility of Results, Stress, Mechanical, Reference Values, Bite Force, Imaging, Three-Dimensional methods, Dental Prosthesis Design, Materials Testing, Tooth Crown anatomy & histology, Tooth Crown physiology, Finite Element Analysis, Crowns, Tooth, Nonvital physiopathology, Incisor anatomy & histology, Incisor physiology, Composite Resins chemistry, Dental Stress Analysis methods

Abstract

Objective: To evaluate the effect of the labiolingual diameter and construction of an endodontically treated (ET) anterior tooth with crown restoration on stress distribution and biomechanical safety under occlusal loading., Methodology: Three-dimensional finite element models were generated for maxillary central incisors with all-ceramic crown restorations. The labiolingual diameters of the tooth, defined as the horizontal distance between the protrusion of the labial and lingual surfaces, were changed as follows: (D1) 6.85 mm, (D2) 6.35 mm, and (D3) 5.85 mm. The model was constructed as follows: (S0) vital pulp tooth; (S1) ET tooth; (S2) ET tooth with a 2 mm ferrule, restored with a fiber post and composite resin core; (S3) ET tooth without a ferrule, restored with a fiber post and composite resin core. A total of 12 models were developed. In total, two force loads (100 N) were applied to the crown's incisal edge and palatal surface at a 45° oblique angle to the longitudinal axis of the teeth. The Von Mises stress distribution and maximum stress of the models were analyzed., Results: Regardless of the loading location, stress concentration and maximum stress (34.07~66.78MPa) in all models occurred in the labial cervical 1/3 of each root. Both labiolingual diameter and construction influenced the maximum stress of the residual tooth tissue, with the impact of the labiolingual diameter being greater. A reduction in labiolingual diameter led to increased maximum stress throughout the tooth. The ferrule reduced the maximum stress of the core of S2 models (7.15~10.69 MPa), which is lower compared with that of S3 models (19.45~43.67 MPa)., Conclusion: The labiolingual diameter exerts a greater impact on the biomechanical characteristics of ET anterior teeth with crown restoration, surpassing the influence of the construction. The ferrule can reduce the maximum stress of the core and maintain the uniformity of stress distribution.

Published

2024

3. How well does Invisalign ClinCheck predict actual results: A prospective study.

Author

Ghislanzoni LH, Kalemaj Z, Manuelli M, Magni C, Polimeni A, and Lucchese A

Subjects

Prospective Studies, Humans, Treatment Outcome, Maxilla, Mandible, Torque, Incisor physiology, Male, Female, Adolescent, Young Adult, Adult, Orthodontic Appliances, Removable, Tooth Movement Techniques

Abstract

Introduction: This study aimed to compare achieved movements with predicted movements after 28-week use of Invisalign Lite aligners., Settings and Sample Population: The digital impressions of 21 subjects treated with Invisalign Lite at a private practice and in the dental clinic (Milan, Italy) were taken and analysed. Subjects were Caucasian with a mean age of 20.1 years., Methods: Patients were analysed at two time points: at T0, before starting therapy, and at T1, after 28 weeks of treatment with Invisalign clear aligners, with a 2-week change interval. The changes that occurred between T0 and T1 were compared to the predicted changes between T0 and Ts (setup/ClinCheck). Tooth movement performance was estimated through variables calculated as the difference between obtained and planned movements., Results: In both maxillary and mandibular arches, the teeth that exhibited the least accurate expression of torque were the central incisors. Tip was not accurate on maxillary central incisors and canines, mandibular central incisors, lateral incisors, first premolars, second premolars and first molars. Rotations were under-expressed on maxillary lateral incisors, canines and second premolars and on mandibular central incisors, canines, first premolars, second premolars and first molars. The overall angular changes showed a tendency to underperformance. Transverse linear changes were accurate with a significant overperformance on maxillary and mandibular first molars., Conclusions: Torque correction of maxillary central incisors, as well as rotational correction of most of the teeth, showed significant differences between what was planned and what was obtained., (© 2024 The Authors. Orthodontics & Craniofacial Research published by John Wiley & Sons Ltd.)

Published

2024

4. Finite element analysis of tooth movement under different retraction force and intrusive force in double-archwire lingual orthodontics system.

Author

Liu T, Cao YX, Zhang ZY, Yao CL, Cui JY, and Wu XP

Subjects

Humans, Stress, Mechanical, Incisor physiology, Finite Element Analysis, Tooth Movement Techniques, Orthodontic Wires

Abstract

The objectives of this study were to evaluate the tooth movement tendency during space closure in maxillary anterior teeth by various combinations of retraction force and intrusive force in a double-archwire lingual orthodontic system. Mini-implant-double slot lingual orthodontics system models of the bilateral maxillary first premolar extraction cases were constructed. Three-dimensional finite element models of the maxilla were constructed with definite position mini-implants (8 mm) and power arms (6 mm). Different retraction forces(50gf、100gf、150gf)were applied with the help of a nickel-titanium closed coil spring on the plate side. Intrusive forces(0gf、50gf、100gf)were applied with the help of the mini-implant between the two central incisors, and the initial displacements of the maxillary anterior teeth were analyzed. Variable amounts of displacements like controlled tipping, uncontrolled tipping, lingual crown tipping, labial root tipping, extrusion and distal crown tipping were observed in all the models, and these tendencies increased as the magnitude of retraction force increased, and these tendencies decreased as the magnitude of intrusive force increased. When the intrusive force was greater than or equal to the retraction force, the maxillary central incisors showed the trend of lingual crown tipping and labial root tipping, resulting in uncontrolled tipping movement. In terms of horizontal changes, the increasing width of bilateral anterior teeth was observed, with canines showing the least increasing trend. Various combinations of retraction force and intrusive force in a double-archwire lingual orthodontic system provide a new choice for torque control of the anterior teeth. Although anterior mini-implants and elastics can achieve incisor intrusion and lingual root torque, they cannot achieve the expected torque without additional torque control methods.

Published

2024

5. In-fiber Bragg sensor measurements assess fluid effects on strain in the periodontal space of an ex-vivo swine incisor complex under mechanical loading.

Author

Armijo L, Mancl L, Dennison CR, Houg K, Romanyk D, and Popowics T

Subjects

Swine, Animals, Finite Element Analysis, Mastication, Biomechanical Phenomena, Stress, Mechanical, Incisor physiology, Periodontal Ligament

Abstract

The purpose of this study is to determine whether in-fiber Bragg grating (FBG) sensors detect changes within the periodontal ligament (PDL) of ex-vivo swine tooth-PDL-bone complex (TPBC) when manipulating fluid content. Recording strain will allow for a better understanding of the biomechanics of viscoelastic load transfer from the tooth to the PDL during chewing and/or orthodontic tooth movement, as well as replication of these dynamics in regenerated PDL tissues. FBG sensors placed within the PDL of swine incisor teeth were used to measure strain resulting from an intrusive load. Specimens were mounted in a custom platform within an MTS machine and a compressive load was applied at 0.3 mm/s to a depth of 0.5 mm and held for 10 s. Median peak strain and load and median absolute deviation (MAD) were compared: dry vs. saline (n = 19) with bias-corrected bootstrap 95% CI. Dry vs. saline conditions did not statistically differ (median peaks of 5με, 103-105 N) and recorded strains showed high repeatability (MAD of 0.82με, 0.72με, respectively). FBG sensors did not detect the fluid changes in this study, suggesting that the deformation of tissues in the PDL space collectively determine FBG strain in response to tooth loading. The repeatability of measurements demonstrates the potential for FBG sensors to assess the strain in the PDL space of an in vivo swine model., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Ltd.)

Published

2023

6. Prospective cohort study of regenerative potential of non vital immature permanent maxillary central incisors using platelet rich fibrin scaffold.

Author

Kritika S, Sujatha V, Srinivasan N, Renganathan SK, and Mahalaxmi S

Subjects

Adolescent, Adult, Child, Humans, Incisor growth & development, Prospective Studies, Regeneration, Regenerative Medicine, Young Adult, Incisor physiology, Platelet-Rich Fibrin chemistry, Tissue Scaffolds chemistry

Abstract

Regenerative endodontic procedures have gained momentum as a treatment modality of young immature permanent teeth. Literature reports reveal that platelet-rich fibrin (PRF) stimulates growth factors and induces regeneration. This study was undertaken to assess the regenerative potential of non-vital immature permanent maxillary central incisors using PRF with a follow-up for 2 yrs. 19 patients in the age group of 9-25 yrs with immature, non-vital permanent maxillary central incisors (n = 23) with/without signs and/or symptoms of periapical pathosis and open apex were included in this study. In the first appointment, access opening, canal disinfection and triple antibiotic paste placement were done. In the subsequent visit, PRF was prepared and placed inside the canal. Access was sealed with Mineral trioxide aggregate plug and composite. The patient was reviewed up to 24 mths. The mean difference was statistically analyzed using Friedman test followed by Dunn post hoc test and adjusted by Bonferroni correction (p < 0.05). As per AAE guidelines, the primary and secondary goals were achieved. A significant (p < 0.001) gradual increase in the root length, thickness of dentinal walls and decrease in apical diameter were observed. Within the limitations of this study, PRF placement was clinically and radiographically effective in inducing regeneration of non-vital immature permanent teeth.

Published

2021

7. Erosive tooth wear inhibition by hybrid coatings with encapsulated fluoride and stannous ions.

Author

Bezerra SJC, Viana ÍEL, Aoki IV, Sobral MAP, Borges AB, Hara AT, and Scaramucci T

Subjects

Animals, Cattle, Clay, Dentin chemistry, Fluorine, In Vitro Techniques, Incisor physiology, Ions, Microscopy, Electron, Scanning, Sodium Fluoride, Water, Coated Materials, Biocompatible chemistry, Fluorides chemistry, Tin Compounds chemistry, Tooth Erosion prevention & control, Tooth Wear

Abstract

This study aimed to formulate a hybrid coating material (HC) and to modify this HC with fluoride (NaF) and stannous (SnCl 2 ) ions, directly or encapsulated in nano containers, testing the effects of these materials against dental erosion and erosion-abrasion. Enamel and dentin specimens were treated with the HCs, and then tested in erosion or erosion-abrasion cycling models of 5 days (n = 10 for each substrate, for each model). Deionized water was the negative control, and a fluoride varnish, the positive control. Surface loss (SL, in µm) was evaluated with an optical profilometer, and data were statistically analyzed (α = 0.05). For enamel, in erosion, the positive control and HC without additives showed significantly lower SL than the negative control (p = 0.003 and p = 0.001). In erosion-abrasion, none of the groups differed from the negative control (p > 0.05). For dentin, in erosion, the positive control, HC without additives, HC with non-encapsulated F, and HC with encapsulated F + Sn showed lower SL than the negative control (p < 0.05). In erosion-abrasion, none of the groups differed significantly from the negative control (p < 0.05). HC without additives showed a promising potential for protecting the teeth against dental erosion (with upward trend for improved protection on dentin), but not against erosion-abrasion. The presence of additives did not improve the protective effect of the HC, on both substrates.

Published

2021

8. Reciprocal interaction between mesenchymal stem cells and transit amplifying cells regulates tissue homeostasis.

Author

Jing J, Feng J, Li J, Zhao H, Ho TV, He J, Yuan Y, Guo T, Du J, Urata M, Sharpe P, and Chai Y

Subjects

Animals, Mice, Cell Differentiation genetics, Homeostasis genetics, Incisor physiology, Mesenchymal Stem Cells physiology, Wnt Signaling Pathway

Abstract

Interaction between adult stem cells and their progeny is critical for tissue homeostasis and regeneration. In multiple organs, mesenchymal stem cells (MSCs) give rise to transit amplifying cells (TACs), which then differentiate into different cell types. However, whether and how MSCs interact with TACs remains unknown. Using the adult mouse incisor as a model, we present in vivo evidence that TACs and MSCs have distinct genetic programs and engage in reciprocal signaling cross talk to maintain tissue homeostasis. Specifically, an IGF-WNT signaling cascade is involved in the feedforward from MSCs to TACs. TACs are regulated by tissue-autonomous canonical WNT signaling and can feedback to MSCs and regulate MSC maintenance via Wnt5a/Ror2-mediated non-canonical WNT signaling. Collectively, these findings highlight the importance of coordinated bidirectional signaling interaction between MSCs and TACs in instructing mesenchymal tissue homeostasis, and the mechanisms identified here have important implications for MSC-TAC interaction in other organs., Competing Interests: JJ, JF, JL, HZ, TH, JH, YY, TG, JD, MU, PS, YC No competing interests declared, (© 2021, Jing et al.)

Published

2021

9. MicroRNA-31 regulates dental epithelial cell proliferation by targeting Satb2.

Author

Tian H, She Z, Gao X, Wang W, and Tian H

Subjects

Ameloblasts physiology, Animals, Cell Line, Cell Proliferation, Female, Gene Expression Regulation, Developmental, Incisor embryology, Incisor physiology, Matrix Attachment Region Binding Proteins metabolism, Mice, Molar embryology, Molar physiology, Pregnancy, Transcription Factors metabolism, Ameloblasts cytology, Incisor growth & development, Matrix Attachment Region Binding Proteins genetics, MicroRNAs genetics, Molar growth & development, Transcription Factors genetics

Abstract

MicroRNAs (miRNAs) exhibit strong potential clinical application owing to their extensive regulation and flexible delivery properties. MicroRNA-31 (miR-31) is an evolutionarily conserved miRNA expressed during tooth development, and it is highly expressed in mouse incisor epithelium. The specific role of miR-31 in odontogenesis has not been elucidated comprehensively, and the aim of the present study was to investigate its activity. Our results showed that miR-31 suppressed LS8 cell proliferation by inhibiting the cell cycle at the G1/S transition. Mutation of Special AT-rich sequence-binding protein 2 (SATB2) gene is responsible for human SATB2-associated syndrome (SAS), which is often accompanied by dental abnormities. Here, it was identified as a direct target of miR-31 in LS8 cells and a promoter of cell proliferation. The expression and distribution of SATB2 in mouse molars and incisors were explored using immunofluorescence, which showed strong signals in the nuclei of incisor epithelial cells and weak signals in the cytoplasm of molar epithelial cells. Moreover, rescue experiments demonstrated that Satb2 could mitigate the inhibitory effect of miR-31 on cell proliferation by promoting the expression of CDK4. Collectively, our results suggested that miR-31 regulates dental epithelial cell proliferation by targeting Satb2, highlighting the biological importance of miR-31 in odontogenesis., Competing Interests: Declaration of competing interest Authors declare no conflict of interest., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

10. Biomechanical behavior of endocrowns vs fiber post-core-crown vs cast post-core-crown for the restoration of maxillary central incisors with 1 mm and 2 mm ferrule height: A 3D static linear finite element analysis.

Author

Li X, Kang T, Zhan D, Xie J, and Guo L

Subjects

Composite Resins, Dentin physiology, Finite Element Analysis, Humans, Post and Core Technique, Tooth Root, Crowns, Dental Stress Analysis methods, Incisor physiology

Abstract

To analyze the stress distribution of the maxillary central incisor with oblique fracture, repaired by different methods, using 3-dimensional finite element analysis. From the biomechanical point of view, it is expected to provide a reference for clinical selection of restoration method which is more conducive to stress distribution and preservation of dental tissue as much as possible.Use cone beam CT and finite element software to establish the finite element models of the maxillary central incisor with oblique fracture, and then create models according to 5 repairing methods(A. fiber post-core-crown group; B. cast post-core-crown group; C.3 mm deep endocrown; D.4 mm deep endocrown; E.5 mm deep endocrown)after root canal treatment, and analyze the Von Mises equivalent stress and maximum principal stress distribution and peak value of each model.When the height of dentin ferrule was fixed, the value of the Von Mises equivalent stress and the maximum principal stress in residual tooth tissue: group A was the highest, and there was no significant difference in group B, C, D and E. And the stress distribution area of 5 groups were the same. In prosthodontic layer: group B was the highest, while group A was the lowest, and the stress peak slightly increased with the increase of depth in group C, D and E. And the 5 groups were with the same stress distribution area as well. In adhesive layer: group A was the highest, while group B was the lowest, and there was little difference among group C, D and E. Group A was concentrated in 1/3 of the post tip, while group B,C,D and E were concentrated in 1/3 of the post and the post tips.Complete and high enough dentin ferrule is a requirement for repairing heavily defected maxillary central incisor with fiber post-core crown and cast post-core crown. When the dentin ferrule is incomplete, the stress distribution of the endocrown is more excellent than post-core-crown. And the endocrown with a depth of 3 mm retainer may be the best repair method. As for post-core crown restoration, the cast post-core crown is more favorable for the uniform distribution of residual tooth tissue than the fiber post-core crown.

Published

2020

11. Disturbances in primary dental enamel in Polish autistic children.

Author

Kurek M, Borowska B, Lubowiedzka-Gontarek B, Rosset I, and Żądzińska E

Subjects

Ameloblasts, Amelogenesis, Autism Spectrum Disorder epidemiology, Child, Child, Preschool, Homeostasis, Humans, Incisor physiology, Male, Molar physiology, Poland epidemiology, Tooth Diseases epidemiology, Tooth, Deciduous, Autism Spectrum Disorder complications, Dental Enamel pathology, Tooth Diseases complications

Abstract

Dental enamel is a structure that is formed as a result of the regular functioning of ameloblasts. The knowledge of the patterns of enamel secretion allows an analysis of their disruptions manifested in pronounced additional accentuated lines. These lines represent a physiological response to stress experienced during enamel development. The aim of this study was to assess the occurrence of accentuated lines in the tooth enamel of autistic boys. The width of the neonatal line and the periodicity of the striae of Retzius were also assessed. The study material consisted of longitudinal ground sections of 56 primary teeth (incisors and molars): 22 teeth from autistic children and 34 teeth from the control group. The Mann-Whitney U test indicates that the accentuated lines were found significantly more often in autistic children (Z = 3.03; p = 0.002). No differentiation in the rate of enamel formation and in the rate of regaining homeostasis after childbirth were found. The obtained results may indicate a higher sensitivity of autistic children to stress factors, manifested in more frequent disturbances in the functioning of ameloblasts or may be a reflection of differences in the occurrence of stress factors in the first years of life in both analyzed groups.

Published

2020

12. Frequency-related viscoelastic properties of the human incisor periodontal ligament under dynamic compressive loading.

Author

Wu B, Pu P, Zhao S, Izadikhah I, Shi H, Liu M, Lu R, Yan B, Ma S, and Markert B

Subjects

Adult, Biomechanical Phenomena, Compressive Strength, Elasticity, Humans, Male, Middle Aged, Stress, Mechanical, Viscosity, Incisor physiology, Periodontal Ligament physiology

Abstract

Studies concerning the mechanical properties of the human periodontal ligament under dynamic compression are rare. This study aimed to determine the viscoelastic properties of the human periodontal ligament under dynamic compressive loading. Ten human incisor specimens containing 5 maxillary central incisors and 5 maxillary lateral incisors were used in a dynamic mechanical analysis. Frequency sweep tests were performed under the selected frequencies between 0.05 Hz and 5 Hz with a compression amplitude that was 2% of the PDL's initial width. The compressive strain varied over a range of 4%-8% of the PDL's initial width. The storage modulus, ranging from 28.61 MPa to 250.21 MPa, increased with the increase in frequency. The loss modulus (from 6.00 MPa to 49.28 MPa) also increased with frequency from 0.05 Hz- 0.5 Hz but remained constant when the frequency was higher than 0.5 Hz. The tanδ showed a negative logarithmic correlation with frequency. The dynamic moduli and the loss tangent of the central incisor were higher than those of the lateral incisor. This study concluded that the human PDL exhibits viscoelastic behavior under compressive loadings within the range of the used frequency, 0.05 Hz- 5 Hz. The tooth position and testing frequency may have effects on the viscoelastic properties of PDL., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

13. Adaptive amelogenesis during unimpeded eruption of rat mandibular incisor.

Author

Risnes S and Goldberg M

Subjects

Animals, Dental Enamel anatomy & histology, Incisor growth & development, Male, Mandible, Rats, Rats, Sprague-Dawley, Amelogenesis physiology, Incisor physiology, Tooth Eruption physiology

Abstract

The aim of the study was to see whether the length of the enamel secretion zone in unimpeded rat incisors, measured precisely, is in agreement with the observed decrease in enamel thickness. Unimpeded eruption of mandibular incisors of five experimental and two control rats was induced by cutting off the erupted part of the incisors three times per week for 5 weeks. The length of the zone of enamel secretion in unimpeded and impeded control incisors was measured on longitudinal and serial transverse histological sections of fixed, demineralised and embedded hemimandibles. Impeded contralateral incisors were also included in the study. The length of the zone of enamel secretion in unimpeded incisors showed an increase to 8,398 ± 558 µm, that is 161% of the length in control incisors (5,213 ± 95 µm). The contralateral incisor showed a reduction in eruption rate, in length of the secretion zone, and the whole tooth was shifted somewhat apically. The measured length of the secretion zone is in agreement with the observed thickness of enamel (98 µm) in unimpeded incisors. The reduced eruption rate and the apical shift of the contralateral incisor are probably due to an increased occlusal load., (© 2020 The Authors. Anatomia, Histologia, Embryologia published by Blackwell Verlag GmbH.)

Published

2020

14. Precision brackets for upper lateral incisors in Bioprogressive therapy.

Author

Araujo AVP, Guedes AB, Cunha EFA, Frigo L, Fernandes APR, Pessoa PSR, and Carvalho PEG

Subjects

Humans, Materials Testing, Orthodontic Wires, Stainless Steel, Stress, Mechanical, Surface Properties, Torque, Dental Stress Analysis methods, Incisor physiology, Orthodontic Brackets, Orthodontics methods

Abstract

Orthodontic brackets, specifically in their slots, are responsible for receiving active orthodontic forces and transferring them to the teeth to be moved. The presence of an altered slot or inaccurate dimensions can influence the mechanical relationship between the bracket and archwire, interfering with the biomechanics of tooth movement. The objective of this study was by comparing the accuracy of slot placement of upper right lateral incisor metal brackets for Bioprogressive Ricketts therapy from five trademarks. The following characteristics were evaluated: height, torque, and internal parallelism of the walls of the slot. The sample included 75 brackets, 15 each from the following trademarks: 3M Abzil, Forestadent, Morelli Rocky Mountain Orthodontics, and Tecnident. Images of the slot profiles were obtained through standardized techniques using scanning electron microscopy, measured by the AutoCAD 2017 software, and compared to Ricketts prescription, respecting standard deviation with the technical and tolerance parameters present in standard ISO 27020. The results indicated that most of the evaluated characteristics were in accordance with the standard parameters, considering the tolerance adopted. There were exceptions found to this pattern of precision in the 3M Abzil brackets with regard to torque variation, and the Morelli brackets in relation to height variation and parallelism between the walls of the slot. Considering the measured dimensional characteristics, the metal brackets used in Bioprogressive Ricketts therapy has satisfactory pattern accuracy; however, there are still some specific inaccuracies in brackets from certain brands that can require more attention during the detailing phase., (© 2019 Wiley Periodicals, Inc.)

Published

2019

15. Short communication: Influence of retainer configuration and loading direction on the stress distribution of lithium disilicate resin-bonded fixed dental prostheses: 3D finite element analysis.

Author

Dal Piva AMO, Tribst JPM, Saavedra GSFA, Souza ROA, de Melo RM, Borges ALS, and Özcan M

Subjects

Computer Simulation, Cuspid physiology, Finite Element Analysis, Humans, Incisor physiology, Mandible physiology, Materials Testing, Maxilla, Prognosis, Shear Strength, Stress, Mechanical, Tensile Strength, Tooth physiology, Dental Porcelain chemistry, Dental Prosthesis, Dental Stress Analysis methods, Imaging, Three-Dimensional methods, Orthodontic Appliances, Fixed, Resins, Synthetic

Abstract

The present study elucidates the mechanical performance of different designs of resin-bonded fixed dental prostheses made of lithium disilicate simulating masticatory loads of anterior or canine guidance. A three-dimensional model of maxilla was constructed containing central incisor and canine teeth, with edentulous space of the lateral incisor. Three designs of prosthesis were created: retained in central incisor (1-I), retained in canine (1-C) and fixed in both teeth (2-IC). The computational analysis was performed for load in canine and central incisor separately (100N, 45°). The tensile and shear stresses were calculated for the resin-bonded fixed dental prosthesis, bonding surface of each retainer and cement layer using 3D finite element analysis. The 20 highest stress values were analyzed using two-way ANOVA and post-hoc Tukey test, all with α = 5%. The computational analysis showed that 2-retainer resin-bonded fixed dental prosthesis presented the worst prognosis regardless of the mandibular movement. ANOVA showed that Mandibular movement*Retainer interaction influenced on the tensile and shear stresses values (p < 0.01). Higher stresses were observed in the connector region for all groups (13-82.2 MPa; 11-70.2 MPa). In order to reduce the stress concentration in the resin-bonded fixed dental prosthesis and the retainer made of lithium disilicate, the occlusion may serve as the selection criteria of the unitary abutment for better sustainability., (Copyright © 2019. Published by Elsevier Ltd.)

Published

2019

16. Anterior tooth-use behaviors among early modern humans and Neandertals.

Author

Krueger KL, Willman JC, Matthews GJ, Hublin JJ, and Pérez-Pérez A

Subjects

Animals, Anthropology, Physical, Biomechanical Phenomena, Ecosystem, Humans, Incisor diagnostic imaging, Incisor physiology, Mastication physiology, Neanderthals physiology, Surface Properties, Tooth Wear diagnostic imaging, Behavior physiology, Fossils anatomy & histology, Incisor anatomy & histology, Neanderthals anatomy & histology, Tooth Wear etiology

Abstract

Early modern humans (EMH) are often touted as behaviorally advanced to Neandertals, with more sophisticated technologies, expanded resource exploitation, and more complex clothing production. However, recent analyses have indicated that Neandertals were more nuanced in their behavioral adaptations, with the production of the Châtelperronian technocomplex, the processing and cooking of plant foods, and differences in behavioral adaptations according to habitat. This study adds to this debate by addressing the behavioral strategies of EMH (n = 30) within the context of non-dietary anterior tooth-use behaviors to glean possible differences between them and their Neandertal (n = 45) counterparts. High-resolution casts of permanent anterior teeth were used to collect microwear textures of fossil and comparative bioarchaeological samples using a Sensofar white-light confocal profiler with a 100x objective lens. Labial surfaces were scanned, totaling a work envelope of 204 x 276 μm for each individual. The microwear textures were examined for post-mortem damage and uploaded to SSFA software packages for surface characterization. Statistical analyses were performed to examine differences in central tendencies and distributions of anisotropy and textural fill volume variables among the EMH sample itself by habitat, location, and time interval, and between the EMH and Neandertal samples by habitat and location. Descriptive statistics for the EMH sample were compared to seven bioarchaeological samples (n = 156) that utilized different tooth-use behaviors to better elucidate specific activities that may have been performed by EMH. Results show no significant differences between the means within the EMH sample by habitat, location, or time interval. Furthermore, there are no significant differences found here between EMH and Neandertals. Comparisons to the bioarchaeological samples suggest both fossil groups participated in clamping and grasping activities. These results indicate that EMH and Neandertals were similar in their non-dietary anterior tooth-use behaviors and provide additional evidence for overlapping behavioral strategies employed by these two hominins., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

17. Biomechanical Effects of Different Auxiliary-Aligner Designs for the Extrusion of an Upper Central Incisor: A Finite Element Analysis.

Author

Savignano R, Valentino R, Razionale AV, Michelotti A, Barone S, and D'Antò V

Subjects

Biomechanical Phenomena, Computer-Aided Design, Cone-Beam Computed Tomography, Finite Element Analysis, Humans, Mechanical Phenomena, Molar, Nonlinear Dynamics, Orthodontic Appliance Design, Periodontal Ligament, Stress, Mechanical, Tooth Movement Techniques, Incisor physiology, Maxilla diagnostic imaging, Maxilla physiology, Orthodontics methods

Abstract

Aim: To evaluate the biomechanical effects of four different auxiliary-aligner combinations for the extrusion of a maxillary central incisor and to define the most effective design through finite element analysis (FEA)., Materials and Methods: A full maxillary arch (14 teeth) was modelled by combining two different imaging techniques: cone beam computed tomography and surface-structured light scan. The appliance and auxiliary element geometries were created by exploiting computer-aided design (CAD) procedures. The reconstructed digital models were imported within the finite element solver (Ansys® 17). For the extrusion movement, the authors compared the aligner without an attachment with three auxiliary-aligner designs: a rectangular palatal attachment, a rectangular buccal attachment, and an ellipsoid buccal attachment. The resulting force-moment (MF) system delivered by the aligner to the target tooth and the tooth displacement were calculated for each scenario., Results: The maximum tooth displacement along the z- axis (0.07 mm) was obtained with the rectangular palatal attachment, while the minimum (0.02 mm) was obtained without any attachments. With the ellipsoid attachment, the highest undesired moments M x and M y were found. The rectangular palatal attachment showed the highest F z (2.0 N) with the lowest undesired forces ( F x  = 0.4 N; F y  = -0.2 N)., Conclusions: FEA demonstrated that the rectangular palatal attachment can improve the effectiveness of the appliance for the extrusion of an upper central incisor., Competing Interests: The authors declare that there are no conflicts of interest regarding the publication of this paper.

Published

2019

18. Superficial, suprahyoid, and infrahyoid neck musculature in naked mole-rats (Heterocephalus glaber): Relative size and potential contributions to independent movement of the lower incisors.

Author

Cain BW, Reynolds T, and Sarko DK

Subjects

Animals, Body Weight, Organ Size, Hyoid Bone anatomy & histology, Incisor physiology, Mole Rats anatomy & histology, Movement, Neck Muscles anatomy & histology

Abstract

Naked mole-rats (Heterocephalus glaber) are fossorial, eusocial rodents that exhibit the unusual capability of moving their lower incisors independently in lateral and rostroventral directions. The evolution of this trait would presumably also involve concurrent alterations in neck musculature to support and control movements of the lower incisors. In order to assess morphological adaptations that might facilitate these movements, we performed detailed dissections of the neck musculature of adult naked mole-rats. In addition to characterizing attachment sites of superficial, suprahyoid, and infrahyoid musculature, we also quantified muscle mass and mandibular features thought to be associated with gape (condyle height, condyle length, and jaw length). Based on muscle attachment sites, the platysma myoides may contribute to lateral movement of the lower incisor and hemi-mandible in naked mole-rats. The large digastric muscle is likely to be a main contributor to rostroventral movement of each lower incisor. The geniohyoid and mylohyoid muscles also likely contribute to rostroventral movements of the lower incisors, and the mylohyoid may also produce lateral spreading of the hemi-mandibles. The transverse mandibular (intermandibularis) muscle likely serves to reposition the lower incisors back to a midline orientation following a movement., (© 2019 Wiley Periodicals, Inc.)

Published

2019

19. Reciprocal cortical activation patterns during incisal and molar biting correlated with bite force levels: an fMRI study.

Author

Yoshizawa H, Miyamoto JJ, Hanakawa T, Shitara H, Honda M, and Moriyama K

Subjects

Adult, Brain Mapping, Cerebral Cortex diagnostic imaging, Electromyography, Female, Humans, Male, Middle Aged, Bite Force, Cerebral Cortex physiology, Incisor physiology, Magnetic Resonance Imaging, Mastication physiology, Molar physiology

Abstract

In humans, the incisors and molars have distinct functions during mastication, analogous to the two main types of handgrip, the precision and power grips. In the present study, we investigated cortical activation and masticatory muscle activity during incisal and molar biting via simultaneous functional magnetic resonance imaging and electromyogram (EMG) recordings. We conducted recordings in 15 healthy adult participants while they performed incisal and molar biting tasks at three step-wise force levels using two custom-made splints. Regarding the results of the ROI analysis, we found a significantly stronger positive linear correlation between the blood oxygenation level dependent signal and EMG activity during molar biting than incisal biting, which was particularly prominent in the primary sensorimotor cortex and the cerebellum. We also found a significantly stronger negative linear correlation during incisal biting than molar biting, which was particularly prominent in the rostral cingulate motor area, superior frontal gyrus, and caudate nucleus. These findings indicate that molar biting enables powerful chewing: brain activity in several brain areas related to motor function was increased with increasing bite force levels, while incisal biting enables fine motor control: brain activity in several brain areas related to motor control was increased with reduced bite force levels.

Published

2019

20. Delayed Eruption of Maxillary Central Incisors Associated with the Presence of Supernumerary Teeth: A Case Report with 18 Months Follow-up.

Author

Alsani A and Balhaddad AA

Subjects

Child, Early Diagnosis, Follow-Up Studies, Humans, Incisor physiology, Male, Time Factors, Tooth, Impacted diagnosis, Tooth, Supernumerary diagnosis, Tooth, Unerupted physiopathology, Treatment Outcome, Dentition, Permanent, Incisor physiopathology, Maxilla, Tooth Eruption, Tooth Extraction, Tooth, Impacted etiology, Tooth, Supernumerary complications, Tooth, Supernumerary surgery, Tooth, Unerupted etiology

Abstract

Aim: The aim of this study is to discuss a case of an 11-year-old pediatric patient, who was diagnosed with delayed eruption of the permanent maxillary central incisors because of palatally impacted supernumerary teeth., Background: The delayed eruption of permanent teeth can be a result of blocking by supernumerary teeth and over-retained primary teeth. Early diagnosis can help in avoiding the complications. The management of such cases depends on the stage of teeth development, teeth position, and space availability. Treatment may combine both surgical and orthodontic interventions., Case Description: The case was managed by surgically removing the primary retained teeth and supernumerary teeth in two visits then allowing the impacted permanent incisors to erupt without any intervention., Conclusion: After 18 months follow-up, the two permanent incisors erupted spontaneously with no orthodontic intervention., Clinical Significance: dentists should be aware of the importance of early diagnosis of supernumerary teeth. The management of such cases should be designed by a multidisciplinary team decision.

Published

2018

21. Experimental tooth movement temporally changes neural excitation and topographical map in rat somatosensory cortex.

Author

Kaneko M, Fujita S, Shimizu N, Motoyoshi M, and Kobayashi M

Subjects

Animals, Brain Mapping methods, Cerebral Cortex physiology, Electric Stimulation, Incisor physiology, Male, Molar physiology, Nociception physiology, Optical Imaging methods, Rats, Rats, Sprague-Dawley, Tooth Movement Techniques methods, Tooth Movement Techniques veterinary, Neuronal Plasticity physiology, Somatosensory Cortex physiology, Tooth Mobility pathology

Abstract

During orthodontic treatment, binding teeth, may change the topographically organized representation of teeth in the cerebral cortex. To test the hypothesis that experimental tooth movement (ETM) changes the somatotopy of an individual tooth arrangement in the somatosensory cortex, we examined the spatiotemporal features of cortical excitatory propagation in response to mechanical stimulation of the maxillary incisor or molar using optical imaging in late adolescent rats without or with ETM. The ETM models consisted of 1d, 3d, and 7d ETM in which a closed-coil spring was ligated between the maxillary first molar and incisors. In controls, incisor and molar mechanical stimulation evoked excitation in the rostral and dorsocaudal regions of the primary somatosensory cortex (S1), respectively. In addition, the secondary somatosensory cortex and insular oral region (S2/IOR) were also activated. Incisor stimulation-induced excitatory regions in S1 of 3d and 7d ETM shifted without changing the maximum excitatory area or peak amplitude; the incisor stimulation-responding region moved toward the dorsocaudal region, which responded to molar stimulation in the control. This shift in excitatory region was not observed in 1d ETM. One day after removal of the coil spring that was attached for 6 days, the excitatory region shift in S1 was recovered to the control region. On the other hand, 1d ETM exhibited facilitation of the excitatory area and peak amplitude upon molar stimulation, and the facilitation of excitatory propagation disappeared in 3d and 7d ETM. These results may explain the clinical finding that abnormal sensation temporally occurs during orthodontic treatment., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

22. Effects of anterior tooth crown inclination on occlusal relationship-A study in three-dimensional reconstruction.

Author

Feng F, Liu Y, Chi J, Wang Y, Xing B, Wang Y, and Liu W

Subjects

Adolescent, Adult, Anatomic Landmarks, Cephalometry, Female, Humans, Incisor diagnostic imaging, Incisor physiology, Male, Malocclusion diagnostic imaging, Models, Dental, Molar, Orthodontics, Tooth Crown diagnostic imaging, Tooth Crown physiology, Volunteers, Young Adult, Dental Occlusion, Imaging, Three-Dimensional methods, Incisor anatomy & histology, Tomography, X-Ray Computed methods, Tooth Crown anatomy & histology

Abstract

Objective: This study aims to analyze the relationship between the central incisor crown inclination and occlusal relationship via three-dimensional study., Methods: Ten Chinese volunteers with normal occlusion were selected from physical examination of college students. Lateral cephalograms and CT scans were taken, and the CT data were imported into Simplant pro 11.04 to reconstruct three-dimensional model. In the three-dimensional model, every tooth was separated independently. The upper and lower central incisors were moved labial inclination(up) or lingual inclination(down) and then the upper and lower tooth were aligned based on the central incisor's position according to the principles of Andrew's six keys. Four groups were set up with different changes of central incisors. The upper and the lower arch were aligned again based on the moved central incisors. After every motion, the mesio-distal distances of upper and lower canines and first molars were recorded. All data were analyzed using t-test via SPSS19.0, and the significance level was set at 5%., Results: The results showed that the mesio-distal distances of occlusal relationship were different from normal occlusal relations, when either upper incisor crown inclination or lower incisor crown inclination was changed, and both upper and lower incisor crown inclination were moved in same or opposite direction. According to the statistical analysis, there was no significant difference when the changes of U1-L1 were no more than 10° (P > 0.05). But there was statistically significant difference (P < 0.05) when changes of U1-L1 were more than 20°., Conclusions: The incisor crown inclination has influence on the establishment of occlusal relationships. The bigger difference upper and lower incisor crown inclination has, the more deviations from the normal occlusal relationship exist., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

23. Permanent maxillary central incisor and first molar rotations in the mixed dentition in repaired complete unilateral cleft lip and palate and their relationship with absence of teeth in their vicinity.

Author

Suri S, Disthaporn S, Ross B, Tompson B, Baena D, Fisher D, and Lou W

Subjects

Child, Cleft Lip surgery, Cleft Palate surgery, Dental Casting Technique, Dentition, Mixed, Female, Humans, Male, Cleft Lip pathology, Cleft Palate pathology, Incisor physiology, Molar pathology

Abstract

Objectives: To describe qualitatively and quantitatively the directions and magnitudes of rotations of permanent maxillary central incisors and first molars in the mixed dentition in repaired complete unilateral cleft lip and palate (UCLP) and study their associations with absence of teeth in their vicinity., Materials and Methods: Dental casts and orthodontic records taken prior to orthodontic preparation for alveolar bone grafting of 74 children with repaired UCLP (53 male, 21 female; aged 8.9 ± 1.0 years) were studied. Directions and magnitudes of permanent maxillary central incisor and first molar rotations were recorded. Tooth absence was confirmed from longitudinal radiographic records. Incisor and molar rotations were analyzed in relation to the absence of teeth in their vicinity., Results: Distolabial rotation of the permanent maxillary central incisor was noted in 77.14% on the cleft side, while distopalatal rotation was noted in 82.19% on the noncleft side. Incisor rotation was greater when a permanent tooth was present distal to the cleft side central incisor, in the greater segment. The permanent maxillary first molar showed mesiopalatal rotation, which was greater on the cleft side and when there was absence of one or more teeth in the buccal segment., Conclusions: Presence and absence of teeth were associated with the severity of incisor and molar rotations in UCLP. Crowding of anterior teeth in the greater segment was associated with a greater magnitude of rotation of the cleft side permanent central incisor. Absence of one or more buccal segment teeth was associated with greater magnitude of rotation of the molar.

Published

2018

24. Interrelationships Between Morphometric, Densitometric, and Mechanical Properties of Teeth in 5-Month-Old Polish Merino Sheep.

Author

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

25. An allometric analysis of sexual dimorphism in Ctenomys australis: integrating classic morphometry and functional performance in vivo.

Author

Mora MS, Becerra F, and Vassallo AI

Subjects

Animals, Bite Force, Body Size physiology, Incisor anatomy & histology, Incisor physiology, Mandible anatomy & histology, Mandible physiology, Rodentia growth & development, Rodentia physiology, Skull anatomy & histology, Skull physiology, Rodentia anatomy & histology, Sex Characteristics

Abstract

The South American rodents of the genus Ctenomys (Rodentia, Hystricognathi), which use both forelimbs and incisors to dig, show strong, specialized morphological adaptations to living in the underground niche. In these rodents, the effectiveness of a bite - in this case the potential to inflict physical damage - mostly depends on the strength of the incisors (e.g. bending and torsion stresses) and the power of the masseteric muscle of the jaw. Ctenomys australis (the sand dune tuco-tuco) is a highly territorial subterranean rodent that builds large and exclusive burrow systems in coastal sand dunes found continuously along the Atlantic coast of the Buenos Aires province, Argentina. Incisors in this species are used both in agonistic encounters among congeners (i.e. reproductive or territorial intentions) as well as to dig and increase the size of their burrows daily (e.g. acquisition of plant material as food resources). We first characterized sexual dimorphism in cranial traits involved in aggressive interactions between males, analyzing ontogenetic trajectories of both sexes. We also analyzed some remarkable attributes of sexual dimorphism in subadult and adult individuals, the bending and torsion stresses and the bite performance in vivo, hypothesizing that males are able to apply comparatively stronger bite forces at their incisor tips than females, concordant with a broader mandible for the insertion of a powerful adductor musculature. Bite forces were measured in vivo in wild animals of both sexes using a strain gauge load cell force transducer. These individuals were also used to estimate the incisor area (CA), the 2nd moment of inertia of the incisors (I, or the bending strength to external forces), and the torsional strength of the incisor (J), all traits involved in the production of the force that can be withstood at the incisor tips. Ontogeny explained some sexual differences in the cranial traits of adults, expressed as (i) morphological changes related to body size variation, and (ii) morphological changes associated with differences in the slope of ontogenetic trajectories (regardless of body size variation). Recordings of in vivo bite forces were significantly higher in adult males than in females. These differences in bite forces were not associated with the sex itself, but the sexual dimorphism in body size. Although males did not show significantly higher allometric coefficients for I, J and CA than females, males still showed a strong sexual dimorphism in these traits due to body size variation. On the other hand, measurements of mandibular width - an estimator of the relative size of masseteric muscles - in vivo showed strong differences between sexes, suggesting higher force performance at the incisor tips for males. Overall, we observed that many attributes related to bite performance might have been molded by sexual selection, which implies differences in allometric coefficients from some morphological traits throughout ontogeny., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2018

26. The evaluation of stress patterns in porcelain laminate veneers with different restoration designs and loading angles induced by functional loads: A three-dimensional finite element analysis study.

Author

Ustun O and Ozturk AN

Subjects

Bite Force, Dental Prosthesis Design, Humans, Stress, Mechanical, Composite Resins chemistry, Dental Cements chemistry, Dental Porcelain chemistry, Dental Stress Analysis, Dental Veneers, Finite Element Analysis, Imaging, Three-Dimensional, Incisor physiology, Tooth Preparation, Prosthodontic methods

Abstract

Background: Fractures in porcelain laminate veneers (PLVs) are a significant clinical problem. Preparation designs can affect stress distribution, which leads to fractures in PLVs. Therefore, identification of the most favorable preparation design in terms of stress distribution is required., Objective: The purpose of this study is to examine the functional stress patterns of PLVs with featheredge, incisal bevel, and overlapped preparation designs under 0°, 60°, and 120° functional loads using finite element analysis., Materials and Methods: Porcelain veneers with three different preparation designs (incisal overlap, incisal bevel, and featheredge) were modeled. A cement layer of 100 μm of luting composite resin was assumed, and a thickness of 0.5 mm of porcelain veneers was used. All models were loaded at 0°, 60°, and 120° to the long axis of the tooth to determine the stresses that may occur during mastication under different load angulations. A total force of 200 N was applied from the incisal edge of the models., Results: Maximum stresses were recorded in the incisal overlapped design (53.3 MPa) under 120° of functional load. Minimum stresses were recorded in the incisal bevel preparation design (22.37 MPa) under 0° of functional load., Conclusion: Both the preparation design and load angle affected the stress distribution on the PLVs. The incisal bevel preparation design provided a more appropriate geometry for stress distribution compared with the other techniques. Lateral forces produced more stress on the tooth and laminate material than vertical forces., Competing Interests: There are no conflicts of interest.

Published

2018

27. Biomechanical investigation of orthodontic treatment planning based on orthodontic force measurement and finite element method before implementation: A case study.

Author

Wu J, Liu Y, Zhang J, Peng W, and Jiang X

Subjects

Adult, Biomechanical Phenomena, Female, Humans, Incisor physiology, Stress, Mechanical, Finite Element Analysis, Image Processing, Computer-Assisted methods, Orthodontics methods, Periodontium physiology

Abstract

Background: Orthodontic treatment planning (OTP) is primarily depended on clinical experiences of orthodontists at present, while equivocal OTP would increase the possibility of treatment failure., Objective: The objective was to investigate a methodology for quantitatively evaluating OTP, using theoretical analyses, orthodontic forces measurement (OFM) and finite element method (FEM)., Methods: An OTP was theoretically designed based on a clinical case and forces on incisors in OTP were measured on a specialized platform. Further, FEM simulations were performed on the designed OTP and control group. At last, an 18-month tracking was carried out to observe treatment effects of the designed OTP., Results: The moving tendencies of incisors were in keeping with ideal treatment from the designed OTP through FEM; the maximal hydrostatic stress and logarithmic strain in periodontal ligament (PDL) decreased by 26.81% and 32.60% compared to the control group. Clinical feedback indicated that a controllable correction of incisors was realized after 18 months, which was in accord with the FEM result and root/bone resorption by reason of stress/strain reduction on PDL did not occur., Conclusions: Biomechanical responses of periodontium can be quantitatively estimated using OTM and FEM. This study provided an alternative technological mean for the predictability and optimization of clinical OTP.

Published

2018

28. Transplantation of dental pulp stem cells improves long-term diabetic polyneuropathy together with improvement of nerve morphometrical evaluation.

Author

Omi M, Hata M, Nakamura N, Miyabe M, Ozawa S, Nukada H, Tsukamoto M, Sango K, Himeno T, Kamiya H, Nakamura J, Takebe J, Matsubara T, and Naruse K

Subjects

Animals, Dental Pulp physiology, Diabetes Mellitus, Experimental chemically induced, Diabetes Mellitus, Experimental pathology, Diabetic Neuropathies chemically induced, Diabetic Neuropathies pathology, Ganglia, Spinal pathology, Ganglia, Spinal physiopathology, Incisor cytology, Incisor physiology, Male, Muscle, Skeletal pathology, Muscle, Skeletal physiopathology, Nerve Fibers, Myelinated pathology, Neural Conduction physiology, Rats, Rats, Sprague-Dawley, Schwann Cells pathology, Sciatic Nerve physiopathology, Stem Cells physiology, Streptozocin, Dental Pulp cytology, Diabetes Mellitus, Experimental therapy, Diabetic Neuropathies therapy, Sciatic Nerve pathology, Stem Cell Transplantation methods, Stem Cells cytology

Abstract

Background: Although previous reports have revealed the therapeutic potential of stem cell transplantation in diabetic polyneuropathy, the effects of cell transplantation on long-term diabetic polyneuropathy have not been investigated. In this study, we investigated whether the transplantation of dental pulp stem cells (DPSCs) ameliorated long-term diabetic polyneuropathy in streptozotocin (STZ)-induced diabetic rats., Methods: Forty-eight weeks after STZ injection, we transplanted DPSCs into the unilateral hindlimb skeletal muscles. Four weeks after DPSC transplantation (i.e., 52 weeks after STZ injection) the effects of DPSC transplantation on diabetic polyneuropathy were assessed., Results: STZ-induced diabetic rats showed significant reductions in the sciatic motor/sensory nerve conduction velocity, increases in the current perception threshold, and decreases in capillary density in skeletal muscles and intra-epidermal nerve fiber density compared with normal rats, all of which were ameliorated by DPSC transplantation. Furthermore, sural nerve morphometrical analysis revealed that the transplantation of DPSCs significantly increased the myelin thickness and area. DPSC-conditioned media promoted the neurite outgrowth of dorsal root ganglion neurons and increased the viability and myelin-related protein expression of Schwann cells., Conclusions: These results indicated that the transplantation of DPSCs contributed to the neurophysiological and neuropathological recovery from a long duration of diabetic polyneuropathy.

Published

2017

29. Bite it forward … bite it better? Incisor procumbency and mechanical advantage in the chisel-tooth and scratch-digger genus Ctenomys (Caviomorpha, Rodentia).

Author

Echeverría AI, Becerra F, Buezas GN, and Vassallo AI

Subjects

Animals, Biomechanical Phenomena, Phylogeny, Rodentia genetics, Dental Occlusion, Incisor anatomy & histology, Incisor physiology, Rodentia anatomy & histology, Rodentia physiology

Abstract

The subterranean genus Ctenomys (∼60 species, ∼100-1000g) constructs its burrows by using both forefeet and teeth throughout a wide range of habitats in South America. They show a high variation in the incisors' angle of attack (procumbency) and a mostly conserved skull morphology, not only amongst their congeners, but within the caviomorph rodents. Traditionally, procumbency has been largely related to tooth-digging. Looking for the possible influence of incisor procumbency on the mechanical advantage (MA) of each of the seven jaw adductor muscles in the genus, we examined 165 skulls representing 24 species. We also evaluated the role of two other relevant traits - i.e. mandibular width and diastema length - in jaw biomechanics and the existence of a relationship between procumbency angle and soil hardness. The in- and out-lever arms (L i and L o ) of the involve muscles were determined based on their insertion's 3D-coordinates and integrated to calculate their MA. Interspecific scaling relationships for skull and muscle measurements were analyzed through reduced major axis regression performed with phylogenetically independent standardized contrasts. Although the procumbency angle ranged between ∼92.5° (C. mendocinus) and ∼107.2 (C. occultus), we found that it was not significantly correlated with the MA of any jaw adductor muscle. This study also showed that the incisor procumbency variation was not associated with the relative rostral length or soil hardness. This result contradicts previous generalizations about a correlation between habitat conditions and the procumbency of the incisors in subterranean rodents. In sum, our results suggest that, within Ctenomys, possessing more procumbent incisors may not represent a biomechanical advantage, but might be beneficial in other aspects related to chisel-tooth digging or food processing behaviors., (Copyright © 2017 Elsevier GmbH. All rights reserved.)

Published

2017

30. Experimental and Numerical Characterization of the Mechanical Masseter Muscle Response During Biting.

Author

Weickenmeier J, Jabareen M, Le Révérend BJD, Ramaioli M, and Mazza E

Subjects

Biomechanical Phenomena, Humans, Incisor physiology, Molar physiology, Finite Element Analysis, Masseter Muscle physiology, Mastication, Mechanical Phenomena

Abstract

Predictive simulations of the mastication system would significantly improve our understanding of temporomandibular joint (TMJ) disorders and the planning of cranio-maxillofacial surgery procedures. Respective computational models must be validated by experimental data from in vivo characterization of the mastication system's mechanical response. The present pilot-study demonstrates the feasibility of a combined experimental and numerical procedure to validate a computer model of the masseter muscle. An experimental setup is proposed that provides a simultaneous bite force measurement and ultrasound-based visualization of muscle deformation. The direct comparison of the experimentally observed and numerically predicted muscle response demonstrates the predictive capabilities of such anatomically accurate biting models. Differences between molar and incisor biting are investigated; muscle deformation is recorded for three different bite forces in order to capture the effect of increasing muscle fiber recruitment. The three-dimensional (3D) muscle deformation at each bite position and force-level is approximatively reconstructed from ultrasound measurements in five distinct cross-sectional areas (four horizontal and one vertical cross section). The experimental work is accompanied by numerical simulations to validate the predictive capabilities of a constitutive muscle model previously formulated. An anatomy-based, fully 3D model of the masseter muscle is created from magnetic resonance images (MRI) of the same subject. The direct comparison of experimental and numerical results revealed good agreement for maximum bite forces and masseter deformations in both biting positions. The present work therefore presents a feasible in vivo measurement system to validate numerically predicted masseter muscle contractions during mastication.

Published

2017

31. Torque differences due to the material variation of the orthodontic appliance: a finite element study.

Author

Papageorgiou SN, Keilig L, Vandevska-Radunovic V, Eliades T, and Bourauel C

Subjects

Alveolar Process physiology, Dental Stress Analysis, Finite Element Analysis, Humans, Incisor physiology, Models, Dental, Orthodontic Brackets, Orthodontic Wires, Periodontal Ligament physiology, Orthodontic Appliances, Torque

Abstract

Background: Torque of the maxillary incisors is crucial to occlusal relationship and esthetics and can be influenced by many factors. The aim of this study was to assess the relative influence of the material of the orthodontic appliance (adhesive, bracket, ligature, and wire) on tooth displacements and developed stresses/strains after torque application., Methods: A three-dimensional upper right central incisor with its periodontal ligament (PDL) and alveolus was modeled. A 0.018-in. slot discovery® (Dentaurum, Ispringen, Germany) bracket with a rectangular 0.018 x 0.025-in. wire was generated. The orthodontic appliance varied in the material of its components: adhesive (composite resin or resin-modified glass ionomer cement), bracket (titanium, steel, or ceramic), wire (beta-titanium or steel), and ligature (elastomeric or steel). A total of 24 models were generated, and a palatal root torque of 5° was applied. Afterwards, crown and apex displacement, strains in the PDL, and stresses in the bracket were calculated and analyzed., Results: The labial crown displacement and the palatal root displacement of the tooth were mainly influenced by the material of the wire (up to 150% variation), followed by the material of the bracket (up to 19% variation). The magnitude of strains developed in the PDL was primarily influenced by the material of the wire (up to 127% variation), followed by the material of the bracket (up to 30% variation) and the ligature (up to 13% variation). Finally, stresses developed at the bracket were mainly influenced by the material of the wire (up to 118% variation) and the bracket (up to 59% variation)., Conclusions: The material properties of the orthodontic appliance and all its components should be considered during torque application. However, these in silico results need to be validated in vivo before they can be clinically extrapolated.

Published

2017

32. Mechanical strain to maxillary incisors during direct laryngoscopy.

Author

Engoren M, Rochlen LR, Diehl MV, Sherman SS, Jewell E, Golinski M, Begeman P, and Cavanaugh JM

Subjects

Equipment Design instrumentation, Equipment Design standards, Female, Humans, Intubation, Intratracheal adverse effects, Intubation, Intratracheal instrumentation, Laryngoscopy adverse effects, Male, Manikins, Sprains and Strains prevention & control, Anesthesiologists education, Incisor physiology, Laryngoscopy education, Laryngoscopy instrumentation, Maxilla physiology, Stress, Mechanical

Abstract

Background: While most Direct laryngoscopy leads to dental injury in 25-39% of cases. Dental injury occurs when the forces and impacts applied to the teeth exceed the ability of the structures to dissipate energy and stress. The purpose of this study was to measure strain, (which is the change produced in the length of the tooth by a force applied to the tooth) strain rate, and strain-time integral to the maxillary incisors and determine if they varied by experience, type of blade, or use of an alcohol protective pad (APP)., Methods: A mannequin head designed to teach and test intubation was instrumented with eight single axis strain gauges placed on the four maxillary incisors: four on the facial or front surface of the incisors and four on the lingual or back, near the insertion of the incisor in the gums to measure bending strain as well as compression. Anesthesiology faculty, residents, and certified registered nurse anesthetists intubated with Macintosh and Miller blades with and without APP. Using strain-time curves, the maximum strain, strain rate, and strain time integral were calculated., Results: Across the 92 subjects, strain varied 8-12 fold between the 25th and 75th percentiles for all four techniques, but little by experience, while strain rate and strain integral varied 6-13 fold and 15-26 fold, respectively, for the same percentiles. Intubators who had high strain values with one blade tended to have high strains with the other blade with and without the APP (all pairwise correlation rho = 0.42-0.63)., Conclusions: Strain varies widely by intubator and that the use of the APP reduces strain rate which may decrease the risk of or the severity of dental injury.

Published

2017

33. Incisor inclination and perceived tooth colour changes.

Author

Ciucchi P and Kiliaridis S

Subjects

Adult, Female, Humans, Incisor anatomy & histology, Male, Photography methods, Scattering, Radiation, Tooth Crown anatomy & histology, Tooth Crown physiology, Tooth Movement Techniques, Young Adult, Color, Esthetics, Head Movements physiology, Incisor physiology, Smiling

Abstract

Introduction: Social attractiveness is influenced by a variety of different smile-related factors. We evaluated whether the degree of upper central incisor proclination can result in tooth colour change., Methods: Forty young adult subjects (20-25 years) in good health with a complete sound dentition were selected. The subjects were seated in standardized light conditions with an above-directed light source. Their natural head position was stated as 0 degrees. To mimic the range of possible anterior torque movements they were asked to tilt their heads upward +15 degrees (upward tilting) and downward -15 degrees (downward tilting). Frontal macro photographs, parallel to the Frankfort plane of the patient's natural head position were taken at the three head angulations (+15, 0, and -15 degrees ). Photographs were analysed for colour differences at the centre of the incisor clinical crowns with a CIE L*a*b* colour model based software. A paired t-test was used to test for significance between each value for each inclination., Results: Differences were found between the CIE L*a*b* colour values for: upward tilting, downward tilting, and -15 to +15 degrees (total tilting) except for b* values for downward tilting. As the inclination of the subject's head changed downward, the upper incisors were retroclined and the CIE L*a*b* values indicated a darker and less green but redder colour component. As the inclination of the subject's head changed upwards the upper incisors were proclined and the L*a*b* values indicated a lighter and less green and yellow but redder and bluer colour component., Conclusions: Proclination of upper incisors caused lighter tooth colour parameters compared to retroclined incisors and colour changes. Orthodontic change of upper incisor inclination may induce alterations on how tooth colour is perceived., (© The Author 2017. Published by Oxford University Press on behalf of the European Orthodontic Society. All rights reserved. For permissions, please email: journals.permissions@oup.com)

Published

2017

34. Effect of the bitterness of food on muscular activity and masticatory movement.

Author

Okada Y and Shiga H

Subjects

Adult, Female, Humans, Incisor physiology, Male, Mandible physiology, Young Adult, Food, Masseter Muscle physiology, Mastication physiology, Movement physiology, Taste physiology

Abstract

Purpose: The purpose of this study was to clarify the effect of the bitterness of food on muscular activity and masticatory movement., Methods: Twenty healthy subjects were asked to chew a non-bitter gummy jelly and a bitter gummy jelly on their habitual chewing side. The masseter muscular activity and the movement of mandibular incisal point were recorded simultaneously. For all cycles excluding the first cycle, parameters representing the muscular activity (total integral value and integral value per cycle) and masticatory movement (path, rhythm, and stability) were calculated and compared between the two types of gummy jellies., Results: The total integral value of masseter muscular activity during the chewing of bitter gummy jelly was significantly smaller than during the chewing of non-bitter gummy jelly, however, no definite trends in the integral value per cycle and the stability of movement were observed. The parameters representing the movement path tended to be small during the chewing of bitter gummy jelly than during the chewing of non-bitter gummy jelly. The masticatory width was significantly smaller during the chewing of bitter gummy jelly. The parameters representing the rhythm of movement were significantly longer during the chewing of bitter gummy jelly than during the chewing of non-bitter gummy jelly., Conclusion: From these results it was suggested that the bitterness of food does not affect the integral value per cycle or the stability of the masticatory movement, but it does affect the movement path and rhythm, with narrowing of the path and slowing of the rhythm., (Copyright © 2017 Japan Prosthodontic Society. Published by Elsevier Ltd. All rights reserved.)

Published

2017

35. Relationship between masticatory performance using a gummy jelly and masticatory movement.

Author

Uesugi H and Shiga H

Subjects

Adult, Glucose, Humans, Incisor physiology, Linear Models, Male, Mandible physiology, Young Adult, Food, Mastication physiology, Movement physiology

Abstract

Purpose: The purpose of this study was to clarify the relationship between masticatory performance using a gummy jelly and masticatory movement., Methods: Thirty healthy males were asked to chew a gummy jelly on their habitual chewing side for 20s, and the parameters of masticatory performance and masticatory movement were calculated as follows. For evaluating the masticatory performance, the amount of glucose extraction during chewing of a gummy jelly was measured. For evaluating the masticatory movement, the movement of the mandibular incisal point was recorded using the MKG K6-I, and ten parameters of the movement path (opening distance and masticatory width), movement rhythm (opening time, closing time, occluding time, and cycle time), stability of movement (stability of path and stability of rhythm), and movement velocity (opening maximum velocity and closing maximum velocity) were calculated from 10 cycles of chewing beginning with the fifth cycle. The relationship between the amount of glucose extraction and parameters representing masticatory movement was investigated and then stepwise multiple linear regression analysis was performed., Results: The amount of glucose extraction was associated with 7 parameters representing the masticatory movement. Stepwise multiple linear regression analysis showed that the opening distance, closing time, stability of rhythm, and closing maximum velocity were the most important factors affecting the glucose extraction., Conclusion: From these results it was suggested that there was a close relation between masticatory performance and masticatory movement, and that the masticatory performance could be increased by rhythmic, rapid and stable mastication with a large opening distance., (Copyright © 2017 Japan Prosthodontic Society. Published by Elsevier Ltd. All rights reserved.)

Published

2017

36. Comparative analysis of the stress distribution in five anatomical types of maxillary central incisor.

Author

Sun L, Wu X, Li Y, Lin Z, Xu D, Lin X, and Gao Y

Subjects

Adult, Bite Force, Female, Humans, Incisor diagnostic imaging, Incisor physiology, Maxilla, Periodontal Ligament anatomy & histology, Periodontal Ligament physiology, Tomography, X-Ray Computed, Weight-Bearing, Dental Stress Analysis, Incisor anatomy & histology

Abstract

Background: The maxillary central incisor is one of the most important anatomical indicators in esthetics, and stress distribution may vary among its five anatomical views (labial, palatal, mesial, distal, and incisal)., Objective: To compare stress distribution among the five anatomical views of the maxillary central incisor under loading force at five angles and to observe and analyze the stress distribution in the dentin and periodontal ligament., Methods: We established three-dimensional finite element models of the five different views, which simulated the bite force with a static load force at 0∘, 30∘, 45∘, 60∘, and 90∘. The stress and displacement values for the cementoenamel junction (CEJ)-apical labial, palatal, mesial, and distal and the equivalent stress values on the periodontal ligament of the maxillary central incisor were calculated., Results: As the angle increased, the equivalent stress on the periodontal ligament, overall tooth displacement, equivalent stress, and displacement over the four views increased. The peaks of equivalent stress over the four views appeared within 0.8-17 mm below the CEJ, although all equivalent stress values decreased while approaching the peak. Within 1-19 mm below the CEJ, the equivalent stress over the M1 and P1 views of the maxillary central incisor decreased substantially., Conclusion: The peaks of the equivalent stress over the M1 and P1 views of the maxillary central incisor and their stress distribution were lower than those of the other three types. Our findings provided theoretical data on the biomechanics of this esthetically important tooth, which may be useful during implantation of missing maxillary central incisors.

Published

2017

37. Perturbed oral motor control due to anesthesia during intraoral manipulation of food.

Author

Grigoriadis J, Kumar A, Svensson P, Svensson KG, and Trulsson M

Subjects

Adult, Electromyography, Female, Humans, Male, Mechanoreceptors physiology, Movement physiology, Young Adult, Anesthesia, Local methods, Food, Incisor physiology, Jaw physiology, Mastication physiology, Motor Skills physiology

Abstract

Sensory information from periodontal mechanoreceptors (PMRs) surrounding the roots of natural teeth is important for optimizing the positioning of food and adjustment of force vectors during precision biting. The present experiment was designed to test the hypothesis; that reduction of afferent inputs from the PMRs, by anesthesia, perturbs the oral fine motor control and related jaw movements during intraoral manipulation of morsels of food. Thirty healthy volunteers with a natural dentition were equally divided into experimental and control groups. The participants in both groups were asked to manipulate and split a spherical candy into two equal halves with the front teeth. An intervention was made by anesthetizing the upper and lower incisors of the experimental group while the control group performed the task without intervention. Performance of the split was evaluated and the jaw movement recorded. The experimental group demonstrated a significant decrease in measures of performance following local anesthesia. However, there was no significant changes in the duration or position of the jaw during movements in the experimental and control group. In conclusion, transient deprivation of sensory information from PMRs perturbs oral fine motor control during intraoral manipulation of food, however, no significant alterations in duration or positions of the jaw during movements can be observed.

Published

2017

38. Aligner Corner.

Author

Glassick A, Gluck AJ, Kotteman W, and Messersmith M

Subjects

Adolescent, Adult, Cephalometry, Female, Humans, Linear Models, Longitudinal Studies, Male, Middle Aged, Retrospective Studies, Tooth Movement Techniques instrumentation, Young Adult, Incisor physiology, Orthodontic Appliances, Removable, Orthodontics, Corrective instrumentation

Published

2017

39. Force system generated by elastic archwires with vertical V bends: a three-dimensional analysis.

Author

Upadhyay M, Shah R, Peterson D, Asaki T, Yadav S, and Agarwal S

Subjects

Dental Alloys, Dental Stress Analysis methods, Humans, Incisor physiology, Molar physiology, Orthodontic Appliances, Orthodontic Brackets, Stainless Steel, Stress, Mechanical, Titanium, Orthodontic Appliance Design, Orthodontic Wires

Abstract

Background: Our previous understanding of V-bend mechanics is primarily from two-dimensional (2D) analysis of archwire bracket interactions in the second order. These analyses do not take into consideration the three-dimensional (3D) nature of orthodontic appliances involving the third order., Objective: To quantify the force system generated in a 3D two bracket set up involving the molar and incisors with vertical V-bends., Materials and Methods: Maxillary molar and incisor brackets were arranged in a dental arch form and attached to load cells capable of measuring forces and moments in all three planes (x, y, and z) of space. Symmetrical V-bends (right and left sides) were placed at 11 different locations along rectangular beta-titanium archwires of various sizes at an angle of 150degrees. Each wire was evaluated for the 11 bend positions. Specifically, the vertical forces (Fz) and anterio-posterior moments (Mx) were analysed. Descriptive statistics were used to interpret the results., Results: With increasing archwire size, Fz and Mx increased at the two brackets (P < 0.05). The vertical forces were linear and symmetric in nature, increasing in magnitude as the bends moved closer to either bracket. The Mx curves were asymmetric and non-linear displaying higher magnitudes for molar bracket. As the bends were moved closer to either bracket a distinct flattening of the incisor Mx curve was noted, implying no change in its magnitude., Conclusions: This article provides critical information on V-bend mechanics involving second order and third order archwire-bracket interactions. A model for determining this force system is described that might allow for easier translation to actual clinical practice., (© The Author 2016. Published by Oxford University Press on behalf of the European Orthodontic Society. All rights reserved. For permissions, please email: journals.permissions@oup.com)

Published

2017

40. Experimental quantification of the mechanical forces and moments applied on three adjacent orthodontic brackets.

Author

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

41. Electrode Placing Sites affect Pulp Vitality Test of Human Incisors and Premolars.

Author

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

42. Knowledge of Teething and Prevalence of Teething Myths in Mothers of Saudi Arabia.

Author

Kumar S, Tadakamadla J, Idris A, Busaily IA, and AlIbrahim AY

Subjects

Adolescent, Adult, Age Factors, Attitude to Health, Diarrhea physiopathology, Educational Status, Family Characteristics, Female, Fever physiopathology, Humans, Incisor physiology, Income, Infant, Medicine, Traditional, Middle Aged, Saudi Arabia, Sialorrhea physiopathology, Social Class, Tooth, Deciduous physiology, Young Adult, Health Knowledge, Attitudes, Practice, Mothers education, Tooth Eruption physiology

Abstract

Objectives: To assess the knowledge about teething, to evaluate the experiences of the mothers' during the teething of their youngest child and practices undertaken by them to relieve teething symptoms., Study Design: A stratified cluster sampling technique was used to collect representative sample of school children of Jazan province (Saudi Arabia), who were provided with a questionnaire kit to be filled by their mothers., Results: A total of 159 mothers participated in this study. More than four-fifths and three-fourths of the study population knew that the first primary teeth erupt at 6-7 months of age and lower central incisors are the first teeth to erupt respectively. The most prevalent signs and symptoms associated with teething as reported by the mothers were desire to bite (97.5%), fever (93%), diarrhoea (91.1%), increased salivation (79.9%), loss of appetite (77.4%) and gum irritation (71.7%). A little more than half (55.7%) of the mothers' gave their child a chilled object to bite and 42.1% bottle fed their baby at night to relieve teething pain., Conclusions: Many mothers had poor knowledge and misbeliefs about teething. There is a need to educate the mothers of Jazan province on the facts related to teething, specifically those related to teething pain relieving practices.

Published

2016

43. Displacement and force distribution of splinted and tilted mandibular anterior teeth under occlusal loads: an in silico 3D finite element analysis.

Author

Gerami A, Dadgar S, Rakhshan V, Jannati P, and Sobouti F

Subjects

Alveolar Process physiology, Cuspid pathology, Dental Prosthesis Retention, Dental Stress Analysis, Humans, Mechanical Phenomena, Models, Dental, Orthodontic Wires, Periodontal Ligament physiology, Tooth Apex physiology, Tooth Movement Techniques, Computer Simulation, Finite Element Analysis, Imaging, Three-Dimensional methods, Incisor physiology, Mandible physiology, Orthodontic Retainers, Stress, Mechanical

Abstract

Background: Fixed orthodontic retainers have numerous advantages, but it is not known whether they can exert pathological forces on supporting tissues around the splinted teeth. The purpose of this study was to investigate how the inclination of the lower anterior teeth can affect dental displacement and also change the direction of occlusal loads exerted to dental and its supporting tissues., Methods: Four three-dimensional finite element models of the anterior part of the mandible were designed. All the models contained the incisors and canines, their periodontal ligament layers (PDLs), the supporting bone (both spongy and cortical), and a pentaflex splinting wire placed in the lingual side of the teeth. Teeth inclination was considered to be 80° (model 1), 90° (model 2), 100° (model 3), and 110° (model 4) to the horizontal plane. The lower incisors were loaded with a 187-N vertical force. Their displacement patterns and the stress in their PDLs were evaluated., Results: In incisors with 80° of inclination, less than a 0.1-mm lingual displacement was seen on the incisal edge and a similar distance of displacement towards the labial was seen on their root apices. However, in models with 90°-110° of inclination, the incisal edge displaced labially between about 0.01 and 0.45 mm, while root apices displaced lingually instead. By increasing the angle of the teeth, the strain in the periodontal ligament increased from about 37 to 58 mJ. The von Mises stresses around the cervical and apical areas differed for each tooth and each model, without a similar pattern. Increasing the angle of the teeth resulted in much higher cervical stresses in the incisors, but not in the canines. In the lateral incisor, cervical stress increased until 100° of inclination but reduced to about half by increasing the angle to 110°. Apical stress increased rather consistently in the incisor and lateral incisors, by increasing the inclination. However, in the canines, apical stress reduced to about half, from the first to fourth models., Conclusions: Increasing the labial inclination can mostly harm the central incisors, followed by the lateral incisors. This finding warns against long durations of splinting in patients with higher and/or patients with reduced labial bone thickness.

Published

2016

44. Influence of Dentoalveolar Ankylosis on the Biomechanical Response of a Single-rooted Tooth and Surrounding Alveolar Bone: A 3-dimensional Finite Element Analysis.

Author

Jang Y, Hong HT, Chun HJ, and Roh BD

Subjects

Alveolar Process, Dental Stress Analysis, Dentin, Finite Element Analysis, Humans, Incisor anatomy & histology, Incisor physiology, Maxilla physiopathology, Periodontal Ligament physiology, Stress, Mechanical, Tooth Cervix, Tooth Replantation, Tooth Ankylosis physiopathology, Tooth Ankylosis psychology, Tooth Root physiology

Abstract

Introduction: Dentoalveolar ankylosis necessarily accompanies the loss of periodontal ligament (PDL), which might alter the biomechanical response of the tooth. The purpose of this study was to investigate the influence of dentoalveolar ankylosis on a single-rooted tooth and the surrounding alveolar bone structures in the biomechanical standpoint., Methods: A basic model of an intact maxillary central incisor and the surrounding bone structures was chosen for the numeric analysis. From this basic model, 6 different models were further developed by combining 3 types of endodontic status (an intact model, a nonsurgically treated model, and a surgically treated model) and 2 types of periodontal attachment condition (models with or without PDL). For each condition, maximum von Mises stress (σ max) in dentin and bone and maximum tooth displacement (ΔR max) were calculated., Results: In models with dentoalveolar ankylosis, stress was concentrated on the cervical dentin around the cementoenamel junction and the alveolar bone crest, whereas the stress was more evenly distributed along the entire length of the root in models with normal PDL. The models with dentoalveolar ankylosis showed higher stress values in dentin (44.72%-80.56% of σ max increase) and bone (24.23%-80.68% of σ max increase) and lower tooth displacement (59.22%-63.97% of ΔR max decrease) compared with the models with normal PDL., Conclusions: Dentoalveolar ankylosis exerts significant changes on the biomechanical response of a single-rooted tooth and the surrounding bone structures. The dentoalveolar complex with ankylosis showed characteristic stress concentrations, increased stress values, and decreased tooth displacement compared with that with normal PDL., (Copyright © 2016 American Association of Endodontists. Published by Elsevier Inc. All rights reserved.)

Published

2016

45. Comparison of methods to determine the centre of resistance of teeth.

Author

Schmidt F, Geiger ME, Jäger R, and Lapatki BG

Subjects

Cone-Beam Computed Tomography, Finite Element Analysis, Humans, Models, Theoretical, Dental Stress Analysis methods, Incisor physiology, Tooth Movement Techniques

Abstract

In orthodontic treatment, the locations of the centre of resistance (CR) of individual teeth and the applied load system are the major determinants for the type of tooth movement achieved. Currently, CR locations have only been specified for a relatively small number of tooth specimen for research purposes. Analysing cone beam computed tomography data samples from three upper central incisors, this study explores whether the effort to establish accurate CR estimates can be reduced by (i) morphing a pre-existing simplified finite element (FE) mesh to fit to the segmented 3D tooth-bone model, and (ii) individualizing a mean CR location according to a small parameter set characterising the morphology of the tooth and its embedding. The FE morphing approach and the semi-analytical approach led to CR estimates that differ in average only 0.04 and 0.12 mm respectively from those determined by very time-consuming individual FE modelling (standard method). Both approaches may help to estimate the movement of individual teeth during orthodontic treatment and, thus, increase the therapeutic efficacy.

Published

2016

46. Applications of cone-beam computed tomography to assess the effects of labial crown morphologies and collum angles on torque for maxillary anterior teeth.

Author

Kong WD, Ke JY, Hu XQ, Zhang W, Li SS, and Feng Y

Subjects

Cuspid diagnostic imaging, Cuspid physiology, Humans, Incisor physiology, Maxilla diagnostic imaging, Torque, Cone-Beam Computed Tomography methods, Incisor diagnostic imaging, Tooth Crown diagnostic imaging

Abstract

Introduction: Currently, cone-beam computed tomography (CBCT) has been widely used because of its capacity to evaluate the anatomic structures of the maxilla, mandible, and teeth in 3 dimensions. However, articles about the use of CBCT to evaluate the relationships between the morphology of individual teeth and torque expression remain rare. In this study, we aimed to determine the influence of labial crown morphologies and collum angles on torque for maxillary anterior teeth using CBCT., Methods: A total of 206 extracted maxillary anterior teeth were selected to establish scanning models using dental wax, and they were scanned by CBCT. Three-dimensionally reconstructed images and median sagittal sections of the teeth were digitized and analyzed with AutoCAD software (Autodesk, San Rafael, Calif). The angle α, formed by the intersection of the tangent at a certain vertical height on the labial surface from the incisal edge with the crown long axis, and the collum angle, were measured., Results: The variations in angle α at different heights from the incisal edge for the same type of tooth were statistically significantly different (P <0.001). Moreover, the variations between collum angles and 0° for any type of maxillary anterior tooth were statistically significant (P <0.01)., Conclusions: This study suggested that there are great differences in labial crown morphologies and collum angles for maxillary anterior teeth between persons, indicating that the morphologies of these teeth do play important roles in torque variations., (Copyright © 2016 American Association of Orthodontists. Published by Elsevier Inc. All rights reserved.)

Published

2016

47. Fiber Bragg Grating based bite force measurement.

Author

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

48. Maxillary dentoalveolar assessment following retraction of maxillary incisors: a preliminary study.

Author

Oliveira TM, Claudino LV, Mattos CT, and Sant'Anna EF

Subjects

Adolescent, Adult, Alveolar Process anatomy & histology, Bicuspid surgery, Cone-Beam Computed Tomography, Female, Humans, Incisor diagnostic imaging, Incisor physiology, Male, Malocclusion, Angle Class I diagnostic imaging, Malocclusion, Angle Class I therapy, Malocclusion, Angle Class II diagnostic imaging, Malocclusion, Angle Class II therapy, Maxilla, Prospective Studies, Tooth Extraction, Young Adult, Incisor anatomy & histology, Root Resorption, Tooth Movement Techniques

Abstract

Objective:: The aim of this preliminary study was to assess changes in tooth length and alveolar thickness following retraction of maxillary incisors., Methods:: A total of 11 patients presenting severe maxillary dentoalveolar protrusion revealed by initial (T1) cone-beam computed tomography (CBCT), and whose treatment plan included extraction of maxillary first premolars and retraction of maxillary incisors, were selected and submitted to CBCT examination one month after the end of incisors retraction (T2). The premaxilla was assessed through seven axial slices by means of Dolphin ImagingTM software. In each of these slices, five measurements of the distance from the buccal cortical bone to the palatal cortical bone were performed. Tooth length of maxillary incisors (n = 44) was also measured in sagittal slices. Measurements were repeated after a two-week interval, and intraclass correlation coefficient (ICC) was used to test examiner calibration. Wilcoxon test was used to detect differences in measurements performed at the two time intervals., Results:: The ICC was satisfactory for tooth length (0.890) and for premaxilla alveolar thickness measurements (0.980). Analysis of data showed no statistically significant differences (p > 0.05) in tooth length or alveolar thickness between the two-time intervals assessed., Conclusion:: The force used in retraction of maxillary incisors in this research did not promote significant changes in tooth length of maxillary incisors or in premaxilla alveolar thickness.

Published

2016

49. In vivo measurements and numerical analysis of the biomechanical characteristics of the human periodontal ligament.

Author

Keilig L, Drolshagen M, Tran KL, Hasan I, Reimann S, Deschner J, Brinkmann KT, Krause R, Favino M, and Bourauel C

Subjects

Adult, Compressive Strength physiology, Computer Simulation, Elastic Modulus physiology, Hardness physiology, Humans, Reproducibility of Results, Sensitivity and Specificity, Stress, Mechanical, Tensile Strength physiology, Young Adult, Incisor physiology, Models, Biological, Periodontal Ligament anatomy & histology, Periodontal Ligament physiology

Abstract

The periodontal ligament is a complex tissue with respect to its biomechanical behaviour. It is important to understand the mechanical behaviour of the periodontal ligament during physiological loading in healthy patients as well as during the movement of the tooth in orthodontic treatment or in patients with periodontal disease, as these might affect the mechanical properties of the periodontal ligament (PDL). Up to now, only a limited amount of in vivo data is available concerning this issue. The aim of this study has been to determine the time dependent material properties of the PDL in an experimental in vivo study, using a novel device that is able to measure tooth displacement intraorally. Using the intraoral loading device, tooth deflections at various velocities were realised in vivo on human teeth. The in vivo investigations were performed on the upper left central incisors of five volunteers aged 21-33 years with healthy periodontal tissue. A deflection, applied at the centre of the crown, was linearly increased from 0 to 0.15mm in a loading period of between 0.1 and 5.0s. Individual numerical models were developed based on the experimental results to simulate the relationship between the applied force and tooth displacement. The numerical force/displacement curves were fitted to the experimental ones to obtain the material properties of the human PDL. For the shortest loading time of 0.1s, the experimentally determined forces were between 7.0 and 16.2N. The numerically calculated Young's modulus varied between 0.9MPa (5.0s) and 1.2MPa (0.1s). By considering the experimentally and numerically obtained force curves, forces decreased with increasing loading time. The experimental data gained in this study can be used for the further development and verification of a multiphasic constitutive law of the PDL., (Copyright © 2015 Elsevier GmbH. All rights reserved.)

Published

2016

50. Finite element analysis of the convergence of the centers of resistance and rotation in extreme moment-to-force ratios.

Author

Geramy A, Tanne K, Moradi M, Golshahi H, and Farajzadeh Jalali Y

Subjects

Dental Stress Analysis, Finite Element Analysis, Humans, Incisor physiology, Periodontal Ligament physiology, Rotation, Stress, Mechanical, Tooth Movement Techniques

Abstract

The aim of this study was to investigate how very high and very low M/F ratios affect the location of the center of rotation (CRo). A 3D model of a mesiodistal slice of the mandible was used for this purpose. The model comprised the lower right central incisor, its PDL, the spongy and cortical bone, and a bracket on the labial surface of the bracket. A couple of 1N was applied to the bracket slot to find the level of the center of resistance (Cre). In a second stage, we attempted to produce bodily movement by applying the appropriate M/F ratio. M/F ratios of ±100, 200, 400, and 800 were applied to the last tenths of a millimeter of a pre-activated loop. Higher M/F ratios with positive or negative values, at constant force, increased both incisal and apical movements. The change in the tooth inclination before and after force application matched the difference produced by the different M/F ratios. It was found that a single center of rotation can be constructed for any tooth position. However, this single point does not act as the center of rotation during the entire movement., (Copyright © 2016 CEO. Published by Elsevier Masson SAS. All rights reserved.)

Published

2016