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ABSTRACT BACKGROUND AND OBJECTIVES: The COVID-19 pandemic has been shown to be a probable aggravator of psychological responses such as anxiety and depression. This study aimed to assess the correlation between symptoms of anxiety and depression during the COVID-19 pandemic and the existence of symptoms associated with temporomandibular dysfunction (TMD) in a Brazilian university population. METHODS: This epidemiological, cross-sectional clinical study evaluated its variables of interest using the COVID-19 Fear Scale, Hospital Anxiety and Depression Scale (HADS-A and HADS-D), Diagnostic Criteria for Temporomandibular Dysfunction (DC/TMD) and Oral Behavior Checklist (OBC) questionnaires. RESULTS: A total of 373 participants (females = 273) with a mean age of 23.8±5.45 years were included in this study. In addition, 78.2% of participants with anxiety symptoms and 54.5% of participants with depression symptoms reported a high level of TMD-related parafunction (p<0.01). The presence of anxiety symptoms increased the odds of developing intense fear of COVID-19 by 14.9 times (p<0.001) and the odds of developing moderate fear of COVID-19 by 3.5 times (p<0.001). The presence of an intense fear of COVID-19 increased the chances of developing anxiety symptoms by 17.15 times (p<0.001), while the presence of a moderate fear increased these chances by 3.12 times (p<0.001). In addition, the presence of intense (p=0.01) or moderate (p=0.018) COVID-19 fears increased the odds of developing TMD-related pain symptoms by 2.47 and 1.84 times, respectively, in this population. CONCLUSION: The presence of painful TMD symptoms was possibly influenced by fear of COVID-19. This, in turn, was related to the presence of anxiety and depression symptoms reported by the target population of this study.
RESUMO JUSTIFICATIVA E OBJETIVOS: A pandemia de COVID-19 mostrou-se um provável agravante de respostas psicológicas como ansiedade e depressão. Este estudo teve como objetivo avaliar a correlação entre sintomas de ansiedade e depressão durante o período da pandemia de COVID-19 e a existência de sintomas associados à disfunção temporomandibular (DTM) em uma população universitária brasileira. MÉTODOS: Este estudo clínico epidemiológico e transversal avaliou as suas variáveis de interesse por meio dos questionários Escala de Medo do COVID-19, Escala Hospitalar de Ansiedade e Depressão (HADS-A e HADS-D), Critérios Diagnósticos para Disfunção Temporomandibular (DC/DTM) e Checklist de Comportamentos Orais (OBC). RESULTADOS: Ao todo, 373 participantes (sexo feminino = 273), com média de idade de 23,8±5,45 anos foram incluídos neste estudo. Ademais, 78,2% dos participantes com sintomas de ansiedade e 54,5% dos participantes com sintomas de depressão reportaram alto nível de parafunção relacionada à DTM (p<0,01). A presença de sintomas de ansiedade aumentou em 14,9 vezes as chances de desenvolvimento de um quadro de medo intenso do COVID-19 (p<0,001) e de um quadro de 3,5 vezes nas chances de desenvolvimento de medo moderado do COVID-19 (p<0,001). A presença de um medo intenso do COVID-19 aumentou em 17,15 vezes as chances de desenvolvimento de sintomas de ansiedade (p<0,001), enquanto a presença de um medo moderado aumentou essas chances em 3,12 vezes (p<0,001). Ademais, a presença de medos intensos (p=0,01) ou moderados (p=0,018) do COVID-19 aumentou 2,47 e 1,84 vezes, respectivamente, as chances de desenvolvimento de sintomatologias dolorosas relacionadas à DTM nessa população. CONCLUSÃO: A presença dos sintomas dolorosos da DTM foi possivelmente influenciada pelo medo do COVID-19. Isso, por sua vez, esteve relacionado à presença de sintomas de ansiedade e de depressão, reportados pela população-alvo deste estudo.
ABSTRACT
ABSTRACT BACKGROUND AND OBJECTIVES: The etiology of temporomandibular disorders includes local and systemic factors, with an emphasis on the occlusal condition, trauma, parafunctional activities, and emotional stress, deriving signs of anxiety and depression. These, in turn, are more likely to develop in the university population, due to the changes required when entering university and the demand for good performance. This study aimed to evaluate the correlation between anxiety and depression symptoms and the existence of symptoms associated with temporomandibular disorders in university students. METHODS: An epidemiological, randomized, and cross-sectional clinical study conducted with 100 university students. The Research Diagnostic Criteria for Temporomandibular Disorders: Axis II and the Hospital Anxiety and Depression Scale questionnaires were applied. For the statistical analysis, the Chi-square tests and the Logistic regression model were used. RESULTS: The results of the present study consisted of responses from 79 women and 21 men, with a mean age of 19 years. The following associations were observed: general health status and depression; anxiety and pain in the face/ clicking; habit of grinding/clenching teeth when sleeping, and a "yes" answer to anxiety; discomfort with your teeth and depression; state of anguished/worried about all anxiety issues; depression and thoughts about death, difficulty in breathing and feeling discouraged about the future. CONCLUSION: From the data obtained, it was possible to conclude that the presence of symptoms related to anxiety and depression interfere with the painful symptoms of temporomandibular disorders in the addressed population.
RESUMO JUSTIFICATIVA E OBJETIVOS: A etiologia das disfunções temporomandibulares engloba fatores locais e sistêmicos, destacando-se a condição oclusal, trauma, atividades parafuncionais e estresse emocional, derivando-se os sinais de ansiedade e de depressão. Esses, por sua vez, apresentam maior propensão em se desenvolver na população universitária devido às mudanças exigidas ao ingressar na universidade e a cobrança por um bom desempenho. O objetivo deste estudo foi avaliar a correlação de sintomas de ansiedade e de depressão e a existência de sintomas associados às disfunções temporomandibulares em estudantes universitários. MÉTODOS: Realizou-se um estudo clínico epidemiológico, aleatório e transversal, cuja amostra foi constituída por 100 estudantes universitários, aos quais foram aplicados os questionários Research Diagnostic Criteria for Temporomandibular Disorders: Eixo II e o Hospital Anxiety and Depression Scale. Para a análise estatística foram utilizados os testes Qui-quadrado e o Modelo de regressão logística. RESULTADOS: Os resultados do presente estudo foram constituídos pelas respostas de 79 mulheres e 21 homens, com média de idade de 19 anos. Foram observadas as seguintes associações: estado de saúde geral e depressão, ansiedade e dor na face/estalos, hábito de ranger/apertar os dentes ao dormir, e resposta "sim" para ansiedade, desconforto com seus dentes e depressão; estado de angustiado/preocupado com todas as questões de ansiedade; depressão e pensamentos sobre morte, dificuldade em respirar e sentir-se desanimado sobre o futuro. CONCLUSÃO: A partir dos dados obtidos foi possível concluir que a presença de sintomas relativos à ansiedade e depressão interferem nos sintomas dolorosos das disfunções temporomandibulares da população abordada.
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Abstract The purpose of this study was to evaluate different retention systems (cement- or screw-retained) and crown designs (non-splinted or splinted) of fixed implant-supported restorations, in terms of stress distributions in implants/components and bone tissue, by 3-dimensional (3D) finite element analysis. Four 3D models were simulated with the InVesalius, Rhinoceros 3D, and SolidWorks programs. Models were made of type III bone from the posterior maxillary area. Models included three 4.0-mm-diameter Morse taper (MT) implants with different lengths, which supported metal-ceramic crowns. Models were processed by the Femap and NeiNastran programs, using an axial force of 400 N and oblique force of 200 N. Results were visualized as the von Mises stress and maximum principal stress (σmax). Under axial loading, there was no difference in the distribution of stress in implants/components between retention systems and splinted crowns; however, in oblique loading, cemented prostheses showed better stress distribution than screwed prostheses, whereas splinted crowns tended to reduce stress in the implant of the first molar. In the bone tissue cemented prostheses showed better stress distribution in bone tissue than screwed prostheses under axial and oblique loading. The splinted design only had an effect in the screwed prosthesis, with no influence in the cemented prosthesis. Cemented prostheses on MT implants showed more favorable stress distributions in implants/components and bone tissue. Splinting was favorable for stress distribution only for screwed prostheses under oblique loading.
Resumo O objetivo deste estudo foi avaliar diferentes sistemas de retenção (cimentada x parafusada) e configuração da coroas (unitárias x esplintadas) de próteses fixas implantossuportadas em relação a distribuição de tensões nos implantes/componentes e tecido ósseo pela análise de elementos finitos 3D. Quatro modelos 3D foram simulados com auxílio dos programas Invesalius, e Rhinoceros 3D, e SolidWorks. Os modelos foram confeccionados simulando bloco ósseo de região posterior da maxila (tipo ósseo III), com 3 implantes cone Morse com 4,0 mm de diâmetro e diferentes comprimentos, suportando prótese metalocerâmica de 3 elementos. Os modelos foram processados pelos programas FEMAP e NEiNastran sob força axial de 400 N e oblíqua de 200N. Os resultados foram plotados através de mapas de tensão de von Mises (vM) (implantes e componentes) e tensão máxima principal (TMP) (tecido ósseo). Sobre o carregamento axial, não foi observada diferenças entre os diferentes sistemas de retenção e tipo de prótese na distribuição das tensões nos implantes/componentes, porém, sobre o carregamento oblíquo as próteses cimentadas apresentaram melhor distribuição de tensões em comparação com as próteses parafusadas, enquanto que as próteses esplintadas apresentou uma tendência de redução das tensões no implante do primeiro molar. No tecido ósseo as próteses cimentadas apresentaram melhor distribuição das tensões em comparação com as próteses parafusadas, independente do carregamento. A esplintagem foi favorável somente para as próteses parafusadas, não havendo influência sobre as próteses cimentadas. As próteses cimentadas sobre implantes cone Morse apresentam melhor comportamento biomecânico nos implantes/componentes e tecido ósseo. A esplintagem foi efetiva somente nas próteses parafusadas sob carregamento oblíquo.
Subject(s)
Humans , Dental Implants , Dental Prosthesis Design , Finite Element Analysis , Maxilla/surgery , Dental Abutments , Dental Stress AnalysisABSTRACT
Abstract The aim of this study was to evaluate the effect of varying the diameter, connection type and loading on stress distribution in the cortical bone for implants with a high crown-implant ratio. Six 3D models were simulated with the InVesalius, Rhinoceros 3D 4.0 and SolidWorks 2011 software programs. Models were composed of bone from the posterior mandibular region; they included an implant of 8.5 mm length, diameter Ø 3.75 mm or Ø 5.00 mm and connection types such as external hexagon (EH), internal hexagon (IH) and Morse taper (MT). Models were processed using the Femap 11.2 and NeiNastran 11.0 programs and by using an axial force of 200 N and oblique force of 100 N. Results were recorded in terms of the maximum principal stress. Oblique loading showed high stress in the cortical bone compared to that shown by axial loading. The results showed that implants with a wide diameter showed more favorable stress distribution in the cortical bone region than regular diameter, regardless of the connection type. Morse taper implants showed better stress distribution compared to other connection types, especially in the oblique loading. Thus, oblique loading showed higher stress concentration in cortical bone tissue when compared with axial loading. Wide diameter implant was favorable for improved stress distribution in the cortical bone region, while Morse taper implants showed lower stress concentration than other connections.
Resumo O objetivo deste estudo foi avaliar o efeito da variação do diâmetro e dos tipos de conexão na distribuição do estresse no osso cortical para implantes com a proporção coroa-implante. Seis modelos 3D foram simulados com os programas InVesalius, Rhinoceros 3D 4.0 e SolidWorks 2011. Os modelos foram compostos de osso da região mandibular posterior. Foram incluídos implantes de 8,5 mm de comprimento, diâmetro Ø 3,75 mm ou Ø 5,00 mm, e tipos de conexão como hexágono externo (EH), hexágono interno (IH) e cone Morse (MT). Os modelos foram processados usando os programas Femap 11.2 e NeiNastran 11.0 e usando uma força axial de 200 N e força oblíqua de 100 N. Os resultados foram registrados em termos da tensão principal máxima. O carregamento oblíquo mostrou alta tensão no osso cortical em comparação com a carga axial. Os resultados mostraram que os implantes com maior diâmetro apresentaram distribuição de tensões mais favorável, independentemente do tipo de conexão, enquanto que os implantes cone Morse apresentaram melhores distribuição de tensões comparado aos outros tipos de conexão, especialmente no carregamento oblíquo. Assim, os implantes de maior diâmetro foram mais favoráveis para distribuição das tensões na região de tecido ósseo cortical, enquanto que os implantes cone Morse apresentam menores concentrações de tensões do que as outras conexões.
Subject(s)
Humans , Dental Implants , Finite Element Analysis , Crowns , Stress, MechanicalABSTRACT
The purpose of this study was to evaluate different retention systems (cement- or screw-retained) and crown designs (non-splinted or splinted) of fixed implant-supported restorations, in terms of stress distributions in implants/components and bone tissue, by 3-dimensional (3D) finite element analysis. Four 3D models were simulated with the InVesalius, Rhinoceros 3D, and SolidWorks programs. Models were made of type III bone from the posterior maxillary area. Models included three 4.0-mm-diameter Morse taper (MT) implants with different lengths, which supported metal-ceramic crowns. Models were processed by the Femap and NeiNastran programs, using an axial force of 400 N and oblique force of 200 N. Results were visualized as the von Mises stress and maximum principal stress (σmax). Under axial loading, there was no difference in the distribution of stress in implants/components between retention systems and splinted crowns; however, in oblique loading, cemented prostheses showed better stress distribution than screwed prostheses, whereas splinted crowns tended to reduce stress in the implant of the first molar. In the bone tissue cemented prostheses showed better stress distribution in bone tissue than screwed prostheses under axial and oblique loading. The splinted design only had an effect in the screwed prosthesis, with no influence in the cemented prosthesis. Cemented prostheses on MT implants showed more favorable stress distributions in implants/components and bone tissue. Splinting was favorable for stress distribution only for screwed prostheses under oblique loading.
Subject(s)
Dental Implants , Dental Prosthesis Design , Finite Element Analysis , Maxilla/surgery , Dental Abutments , Dental Stress Analysis , HumansABSTRACT
The aim of this study was to evaluate the effect of varying the diameter, connection type and loading on stress distribution in the cortical bone for implants with a high crown-implant ratio. Six 3D models were simulated with the InVesalius, Rhinoceros 3D 4.0 and SolidWorks 2011 software programs. Models were composed of bone from the posterior mandibular region; they included an implant of 8.5 mm length, diameter Ø 3.75 mm or Ø 5.00 mm and connection types such as external hexagon (EH), internal hexagon (IH) and Morse taper (MT). Models were processed using the Femap 11.2 and NeiNastran 11.0 programs and by using an axial force of 200 N and oblique force of 100 N. Results were recorded in terms of the maximum principal stress. Oblique loading showed high stress in the cortical bone compared to that shown by axial loading. The results showed that implants with a wide diameter showed more favorable stress distribution in the cortical bone region than regular diameter, regardless of the connection type. Morse taper implants showed better stress distribution compared to other connection types, especially in the oblique loading. Thus, oblique loading showed higher stress concentration in cortical bone tissue when compared with axial loading. Wide diameter implant was favorable for improved stress distribution in the cortical bone region, while Morse taper implants showed lower stress concentration than other connections.
Subject(s)
Crowns , Dental Implants , Finite Element Analysis , Humans , Stress, MechanicalABSTRACT
The aim of this study was to evaluate different materials for restoration of teeth without ferrule by three-dimensional (3D) finite element analysis (FEA). Five models simulating the maxillary central incisor and surrounding bone were simulated according to the type of post: glass fibre post (GFP) or cast metal post (CMP) with different alloys such as gold (Au), silver-palladium (AgPd), copper-aluminum (CuAl) and nickel-chromium (NiCr). Models were designed using Invesalius and Rhinoceros. FEAs were made using FEMAP and NeiNastran, with an applied axial force of 100 N and oblique occlusal load at 45°. Stress distribution among groups was analysed by two-way analysis of variance (ANOVA), followed by post-hoc Tukey's test. The GFP showed the best stress distribution in the post, followed by CMP with Au, AgPd, CuAl and NiCr alloys, respectively (p < .001). No statistically significant difference in the stress distribution in teeth was found under application of axial load (p > .05). Under oblique load, the GFP generated the highest values of tension among the models, followed by the CMP with NiCr alloy than other models (p < .001). The use of GFP resulted in a lower stress concentration in the post, but increased stress in the tooth without ferrule. The CMP with NiCr alloy exhibited the highest stress distribution among other CMP. To avoid higher stress in teeth, alloys of Au, AgPd and CuAl, respectively, are recommended.
Subject(s)
Alloys/chemistry , Finite Element Analysis , Tooth , Analysis of Variance , Chromium Alloys/chemistry , Copper/chemistry , Glass , Gold/chemistryABSTRACT
The aim of this study was to evaluate the influence of pontic and cantilever designs (mesial and distal) on 3-unit implant-retained prosthesis at maxillary posterior region verifying stress and strain distributions on bone tissue (cortical and trabecular bones) and stress distribution in abutments, implants and fixation screws, under axial and oblique loadings, by 3D finite element analysis. Each model was composed of a bone block presenting right first premolar to the first molar, with three or two external hexagon implants (4.0 × 10 mm), supporting a 3-unit splinted dental fixed dental prosthesis with the variations: M1 - three implants supporting splinted crowns; M2 - two implants supporting prosthesis with central pontic; M3 - two implants supporting prosthesis with mesial cantilever; M4 - two implants supporting prosthesis with distal cantilever. The applied forces were 400 N axial and 200 N oblique. The von Mises criteria was used to evaluate abutments, implants and fixation screws and maximum principal stress and microstrain criteria were used to evaluate the bone tissue. The decrease of the number of implants caused an unfavorable biomechanical behavior for all structures (M2, M3, M4). For two implant-supported prostheses, the use of the central pontic (M2) showed stress and strain distributions more favorable in the analyzed structures. The use of cantilever showed unfavorable biomechanical behavior (M3 and M4), mainly for distal cantilever (M4). The use of three implants presented lower values of stress and strain on the analyzed structures. Among two implant-supported prostheses, prostheses with cantilever showed unfavorable biomechanical behavior in the analyzed structures, especially for distal cantilever.
Subject(s)
Dental Implants , Dental Prosthesis Design , Dental Prosthesis, Implant-Supported , Denture, Partial, Fixed , Finite Element Analysis , Maxilla/surgery , Bone Screws , Crowns , Dental Stress Analysis , Humans , Models, Theoretical , Stress, MechanicalABSTRACT
The aim of this study was to report a patient of rehabilitation with removable partial denture retained by implants in-patient who suffered injury after firearm shooting. A 19-year-old man presented to the hospital of the Val Paraíso city after being hit by a bullet in the right on the face, affecting the teeth 12 to 16. The surgery to remove the shards of teeth, and bullet was performed. Surgical team opted for installation of implants without bone grafts; however, due to extensive loss of alveolar bone, only 3 tilted implants (2 Ø3.75â×â8.5âmm and 1 Ø3.75â×â10âmm) were installed. After recovery, the patient was referred to the Araçatuba Dental School-UNESP for the rehabilitation on the affected region. The difficulty of rehabilitation with conventional fixed prostheses was verified during the prosthetic phase. This way, it was opted for rehabilitation with removable partial dentures associated with dental implant. Two attachment system ERA (ERA, Sterngold) were positioned in the bar to make the removable partial denture. After 5 years of follow-up, the authors can conclude that the use of removable partial denture retained by implants is effective for functional and aesthetic rehabilitation, favoring socialization and self-esteem of the patient.
Subject(s)
Dental Prosthesis, Implant-Supported , Denture, Partial, Removable , Maxilla , Wounds, Gunshot , Adult , Dental Implants , Denture Design , Esthetics, Dental , Follow-Up Studies , Humans , Male , Maxilla/injuries , Maxilla/surgery , Treatment Outcome , Wounds, Gunshot/complications , Wounds, Gunshot/rehabilitation , Wounds, Gunshot/surgeryABSTRACT
STATEMENT OF PROBLEM: Slight offset of the central implant in 3-unit implant-supported prostheses has been reported to improve biomechanical behavior. However, studies that assessed the effects of an offset implant configuration in the posterior maxilla are scarce. PURPOSE: The purpose of this 3-dimensional (3D) finite element analysis was to assess the effects of splinting in 3-unit implant-supported prostheses with varying implant positions (straight-line or offset configuration) in terms of the stress/strain distribution on bone tissue and the stress distribution on abutment screws. MATERIAL AND METHODS: Three 3D models were used to simulate a posterior maxilla bone block (type IV): straight-line implants supporting single crowns (model M1), straight-line implants supporting 3-unit splinted fixed dental prosthesis (model M2), and an offset implant configuration supporting 3-unit splinted fixed dental prosthesis (model M3). The applied forces were 400 N axially and 200 N obliquely. The type of implant platform simulated was an external hexagon. von Mises stress on the abutment screws was measured, and the maximum principal stress and microstrain values were used to perform cortical bone tissue analysis. Analysis of variance (ANOVA) and the Tukey honest significant differences post hoc test were used to determine the significance of the results and interactions among the main variables (α=.05). RESULTS: In all models, oblique load increased the stress on abutment screws and bone tissue and the microstrain on bone tissue. Model M3 decreased the stress concentration on the abutment screws and bone tissue. With regard to microstrain distribution, model M3 had the smallest values, and M1 and M2 had similar values. CONCLUSIONS: Splinting associated with an offset implant configuration was effective for decreasing the stress on abutment screws and bone tissue and the microstrain on bone tissue.
Subject(s)
Crowns , Dental Prosthesis, Implant-Supported/methods , Biomechanical Phenomena , Dental Abutments , Dental Stress Analysis , Finite Element Analysis , Humans , Imaging, Three-Dimensional , Maxilla , Stress, MechanicalABSTRACT
Introduction: The biomechanical behavior of endodontically treated teeth depending on the selected restorative material and tooth situation to be restored. Objective: To analyze by the two-dimensional finite element method the biomechanical behavior of different diameters in intraradicular posts and teeth with coronal remaining of 2mm. Material and method: Six models were made with three types of posts, as follows: Glass fiber post, carbon fiber post, and cast metal post, both with diameter # 1 (1.1 mm in diameter) and # 2 (1.3 mm of diameter). The modeling was performed using the Rhinoceros 4.0 program. The FEMAP 10.2 and NEiNastran 9.2 programs were used to develop finite element models. The loading used was 100N for axial and oblique forces. The results were visualized using the von Mises stress map. The statistical analysis was made using analysis of variance (ANOVA) and Tukey post-test, with a significance level of 5%. Result: The oblique loading stress values were higher than the axial loading (p< 0.001) for both situations. The glass fiber post showed the lowest concentrations of stress on both loads (p< 0.001). The carbon fiber post presented significant difference compared to the cast metal post, only in the oblique load (p=0.007). The diameter did not increase the stress of the evaluated posts (p=0.302). Conclusion: The fiber posts were more favorable for restoration of endodontically treated teeth; the increase of diameter did not influence the increase of tension; the oblique load was more harmful for both posts and tooth structure.
Introdução: O comportamento biomecânico de dentes tratados endodonticamente é variável conforme o material restaurador selecionado e situação do dente a ser restaurado. Objetivo: Analisar por meio do método dos elementos finitos bidimensional o comportamento biomecânico de diferentes retentores intrarradiculares e diâmetros em dentes com 2mm de remanescente coronário. Material e método: Foram confeccionados seis modelos com três tipo de retentores: pino de fibra de vidro, pino de fibra de carbono e núcleo metálico fundido, ambos com diâmetro #1 (1,1mm de diâmetro) e #2 (1,3mm de diâmetro). A modelagem foi realizada através do programa Rhinoceros 4.0, e em seguida nos programas FEMAP 10.2 e NeiNastran 9.2 para desenvolvimento d os modelos de elementos finitos. Nos carregamentos foram utilizadas forças de 100N axial e oblíquo. Os resultados foram visualizados pelo mapa de tensão von Mises, e pela análise de variância (ANOVA) e pós-teste Tukey, com nível de significância à 5%. Resultado: O carregamento oblíquo apresentou maiores valores de tensões (p< 0,001). O pino de fibra de vidro apresentou menores concentrações de tensões em ambos os carregamentos (p< 0,001). O pino de fibra de carbono apresentou diferença significativa em relação ao núcleo metálico somente no carregamento oblíquo (p=0,007). O diâmetro não influenciou para o aumento de tensões dos retentores avaliados (p=0,302). Conclusão: Os pinos de fibras são mais favoráveis para restaurações de dentes tratados endodonticamente; O aumento do diâmetro não influenciou no aumento de tensões; A carga oblíqua é mais prejudicial à tanto para o retentor quanto para a estrutura dentária.
Subject(s)
Root Canal Filling Materials , Post and Core Technique , Dental Prosthesis , Finite Element Analysis , Dental Pins , Denture, Partial, Fixed , Tensile Strength , Analysis of VarianceABSTRACT
The aim of this study is to assess the effect of different dental implant designs, bone type, loading, and surface treatment on the stress distribution around the implant by using the 3D finite-element method. Twelve 3D models were developed with Invesalius 3.0, Rhinoceros 4.0, and Solidworks 2010 software. The analysis was processed using the FEMAP 10.2 and NeiNastran 10.0 software. The applied oblique forces were 200 N and 100 N. The results were analyzed using maps of maximum principal stress and bone microstrain. Statistical analysis was performed using ANOVA and Tukey's test. The results showed that the Morse taper design was most efficient in terms of its distribution of stresses (p<0.05); the external hexagon with platform switching did not show a significant difference from an external hexagon with a standard platform (p>0.05). The different bone types did not show a significant difference in the stress/strain distribution (p>0.05). The surface treatment increased areas of stress concentration under axial loading (p<0.05) and increased areas of microstrain under axial and oblique loading (p<0.05) on the cortical bone. The Morse taper design behaved better biomechanically in relation to the bone tissue. The treated surface increased areas of stress and strain on the cortical bone tissue.
Subject(s)
Dental Prosthesis Design , Finite Element Analysis , Cortical Bone/chemistry , Cortical Bone/metabolism , Dental Implants , Elastic Modulus , Humans , Surface PropertiesABSTRACT
The aim of this study was to assess stress/strain of different implant modeling simplifications by 3D-FEA. Three variation of external hexagon implant (Ø3.75 × 10 mm) supporting one molar crown were simulated: A (no threads); B (slightly threads simplification); C (original design). 200 N (axial) and 100 N (oblique) were applied. Cortical bone was evaluated by maximum principal stress and microstrain qualitatively and quantitatively (ANOVA and Tukey post hoc (p < 0.05)). Higher stress levels (p < 0.05) were observed in model A. Models B and C presented similar stress transmission. It was possible to conclude that slightly simplification should be used for studies evaluating stress transferring for bone tissue.
Subject(s)
Dental Implants , Finite Element Analysis , Models, Dental , Dental Prosthesis Design , Humans , Imaging, Three-Dimensional , Stress, Mechanical , Surface PropertiesABSTRACT
STATEMENT OF PROBLEM: No consensus has been reached on which retention system, cement- or screw-retained, is best to avoid bone loss around the implant of a fixed implant-supported restoration. PURPOSE: The purpose of this systematic review and meta-analysis was to compare cement- and screw-retained retention systems in fixed implant-supported restorations in terms of marginal bone loss, implant survival, and prosthetic complications. MATERIAL AND METHODS: A comprehensive search of studies published from January 1995 to March 2015 and listed in the PubMed/MEDLINE, Embase, Scopus and the Cochrane Library databases was performed in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement. The meta-analysis was based on the Mantel-Haenszel and inverse variance methods. Marginal bone loss was the continuous outcome measure evaluated by mean difference (MD), and implant survival and prosthetic complications were the dichotomous outcome measures evaluated by risk ratio (RR), both with corresponding 95% confidence intervals (CI). RESULTS: The 20 studies selected for review evaluated 2139 participants, whose mean age was 47.14 years and who had received 8989 dental implants. The mean follow-up was 65.4 months (range: 12-180 months). Results of the MD for marginal bone loss showed statistically significant differences in favor of the cement-retained prosthesis (P =.04; MD: -0.19; CI: -0.37 to -0.01). The implant survival rate was higher for the cement-retained prosthesis (P =.01; RR: 0.49; CI: 0.28 to 0.85), and the prosthetic complication rate was higher for the screw-retained prosthesis (P =.04; RR: 0.52; CI: 0.28 to 0.98). Additional analysis of the mean plaque index did not show differences between retention systems (P=.58; MD: 0.13; CI: -0.32 to 0.57). CONCLUSIONS: The current meta-analysis indicated that cement-retained, fixed implant-supported restorations showed less marginal bone loss than screw-retained, fixed implant-supported restorations during the follow-up period, which ranged from 12 to 180 months. However, the small difference between the mean values may not show clinical significance. The rates of prosthetic complication and implant survival also compared favorably with cement-retained prostheses.
Subject(s)
Alveolar Bone Loss/etiology , Bone Screws , Dental Cements , Dental Prosthesis, Implant-Supported/instrumentation , Dental Restoration Failure , Alveolar Bone Loss/prevention & control , Cementation/methods , Dental Implants , Dental Prosthesis Retention , Dental Prosthesis, Implant-Supported/methods , HumansABSTRACT
A utilização de implantes dentários é considerada para reabilitar a falta de elementos dentários com o intuito de restabelecer função e estética em pacientes parcialmente ou totalmente desdentados. Quando a região a ser reabilitada não possui quantidade de tecido ósseo suficiente para a instalação ideal do implante o cirurgião dentista pode optar por uma instalação que pode não ter inclinação favorável do ponto de vista protético. Assim, o presente estudo tem por objetivo relatar um caso clínico no qual foi instalado um implante de conexão externa na região maxilar anterior com inclinação para lingual (approach palatino), sendo utilizado um pilar UCLA para confecção de uma prótese cimentada corrigindo a inclinação do implante e permitindo a cimentação da coroa protética. Após o término do tratamento foi possível observar que o procedimento adotado atingiu estética e harmonia satisfatórias do sorriso do paciente na região, além de não comprometer a função, deixando o mesmo bastante satisfeito em relação ao tratamento proposto
The use of dental implants has been made to rehabilitate the loosened teeth in order to recuperate function and aesthetics to partially or entirely edentulous patients. When the area of rehabilitation doesnt have enough bone tissue for ideally implant placement, the surgeon may opt for an insertion that not favorable in relation to the inclination of the prosthetic axis. Therefore, the aim of this study is report a clinical case in which it was installed an external connection implant in the anterior maxillary region with buccal inclination (palatine approach) and using an UCLA for fabrication of a cemented prosthesis correcting the inclination of the implant and favoring cementation of the prosthetic crown. After the treatment it was possible to observed that the procedure adopted favored the aesthetics and the patients smile harmony in the region, not compromising the function and leave the patient too much satisfied with the treatment
Subject(s)
Humans , Male , Adult , Dental Implants, Single-Tooth , Mouth Rehabilitation , Esthetics, DentalABSTRACT
The aim of this study was to evaluate the stress distribution of monocortical and bicortical implant placement of external hexagon connection in the anterior region of the maxilla by 3D finite element analysis (FEA). 3D models were simulated to represent a bone block of anterior region of the maxilla containing an implant (4.0 × 10.0 mm) and an implant-supported cemented metalloceramic crown of the central incisor. Different techniques were tested (monocortical, bicortical, and bicortical associated with nasal floor elevation). FEA was performed in FEMAP/NeiNastran software using loads of 178 N at 0°, 30°, and 60° in relation to implant long axis. The von Mises, maximum principal stress, and displacement maps were plotted for evaluation. Similar stress patterns were observed for all models. Oblique loads increased the stress concentration on fixation screws and in the cervical area of the implants and bone around them. Bicortical technique showed less movement tendency in the implant and its components. Cortical bone of apical region showed increase of stress concentration for bicortical techniques. Within the limitations of this study, oblique loading increased the stress concentrations for all techniques. Moreover, bicortical techniques showed the best biomechanical behavior compared with monocortical technique in the anterior maxillary area.
Subject(s)
Dental Implants , Dental Stress Analysis/statistics & numerical data , Finite Element Analysis , Models, Statistical , Software , Suture Anchors , Alveolar Process/anatomy & histology , Alveolar Process/surgery , Humans , Incisor/anatomy & histology , Incisor/surgery , Materials Testing , Maxilla/anatomy & histology , Maxilla/surgery , Models, Anatomic , Stress, MechanicalABSTRACT
PURPOSE: The aim of this systematic review was to compare straight-line and offset implant configurations for three-element implant-retained prostheses. MATERIALS AND METHODS: Two independent reviewers conducted a review on PubMed/Medline, EMBASE, and Cochrane Library for studies published in English, from January 1, 1995 to January 17, 2014. A systematic review was conducted following the PRISMA statement. All relevant titles were selected according to inclusion/exclusion criteria. From this pool of titles, abstracts and full texts were reviewed. RESULTS: A total of 6080 titles were identified with the initial search. Twenty-one were selected based on title and abstract. Of these, after discussion and complete reading, 12 studies were selected according to the inclusion and exclusion criteria, all of which were in vitro studies. CONCLUSIONS: A systematic review of the current literature showed only in vitro evidence that there is no consensus on the advantage of using an offset configuration implant compared to those in straight-line configuration, even though some studies present a slight improvement of bone stress distribution when an offset implant is under oblique loading (PICO).
Subject(s)
Dental Implants , Dental Prosthesis Design , Dental Stress Analysis , Elasticity , Finite Element Analysis , Humans , LightABSTRACT
O comportamento biomecânico de um implante dentário osseointegrado desempenha um importante papel na sua longevidade funcional. As limitações anatômicas às vezes tornam necessário o posicionamento de implantes com angulações fora do considerado ideal para as reabilitações protéticas, havendo maior concentração de tensões e reabsorção no osso cortical ao redor do implante. Para solucionar tais situações o profissional deve lançar mão de um cuidadoso planejamento, estudando qual conexão protética melhor se adapta a situação clínica. Portanto, este estudo objetivou avaliar a influência da esplintagem e da inclinação de implantes (0º, 17º e 30º) em reabilitações de maxila posterior, na distribuição de tensões pelo método dos elementos finitos tridimensionais não linear. Para isso, foram confeccionados 12 modelos tridimensionais com o auxílio dos programas de modelagem gráfica SolidWorks 2010 e Rhinoceros 4.0, além do programa InVesalius. Os modelos foram compostos por 3 implantes de hexágono externo (4,1 mm) ou cone morse (4,0 mm) nas regiões: 14 - 10 mm; 15 - 8,5 mm; 16 - 8,5 mm suportando próteses de 3 elementos unitárias ou esplintadas. Após geração das geometrias, os modelos foram importados para o programa de pré e pós-processamento de elementos finitos FEMAP 10.2, onde foram geradas as malhas de elementos finitos, condições de carregamento e contorno. A carga aplicada foi de 400N axialmente e 200N obliquamente, divididas em cada cúspide das superfícies oclusais. Em seguida, a análise foi gerada no programa FEMAP 10.2 e exportada para cálculo no programa de elementos finitos NeiNastran versão 9.2, executada em uma estação de trabalho. Os resultados foram importados novamente ao FEMAP 10.2 para visualização e pós-processamento dos mapas de tensão de von Mises e tensão máxima principal. Os resultados para o tecido ósseo mostraram maiores concentrações de tensões para os implantes inclinados e com coroas unitárias de hexágono externo sob carregamento oblíquo...
The performance of an osseointegrated dental implant plays important rule for functional longevity of the rehabilitation. Sometimes, anatomical limitations imply in the positioning of tilted implants that is not considered ideal for prosthetic rehabilitation, generating higher stress concentration around it and leading to cortical bone resorption. To solve these situations, the professional must plan carefully the restoration and to study the connection type of the implant to better adaption for these situations. In this way, this study aimed to evaluate the influence of splinting prostheses and implant inclination (0º, 17º and 30º) in implant-supported prostheses in the posterior region of the maxilla on stress distribution by non-linear 3D finite element analysis. For this, twelve 3D models was confectioned using modeling software SolidWorks 2010 and Rhinoceros 4.0 and software InVesalius. The models constituted of 3 dental implants of external hexagon or morse taper (4,0 mm) at the regions: 14 - 10mm; 15 - 8,5 mm; 16 - 8,5 mm, supporting three-unit prostheses in single and splinting configurations. After modeling, the models were imported to pre- and post-processing software of finite elements FEMAP 10.2 for finite element mesh generation and configuration of restrictions and loading conditions. Axial load of 400N and oblique of 200N were applied divided on each cusp tip of occlusal surface. Next step, it was the analysis configuration on FEMAP 10.2 that was exported to NeiNastran 9.2 to math processing. After, the files of results were imported to FEMAP 10.2 to results visualization and post-processing analysis by plotting von Mises and maximum principal stress maps. The results of bone tissue showed higher stress concentration to inclined implants of external hexagon supporting single crowns under oblique loading. The models with splinted Morse taper implants showed lower stress areas around them. In the implants, the stress reaches moderate levels...
Subject(s)
Dental Implants , Dental Prosthesis, Implant-Supported , Finite Element AnalysisABSTRACT
O comportamento biomecânico de um implante dentário osseointegrado desempenha um importante papel na sua longevidade funcional. As limitações anatômicas às vezes tornam necessário o posicionamento de implantes com angulações fora do considerado ideal para as reabilitações protéticas, havendo maior concentração de tensões e reabsorção no osso cortical ao redor do implante. Para solucionar tais situações o profissional deve lançar mão de um cuidadoso planejamento, estudando qual conexão protética melhor se adapta a situação clínica. Portanto, este estudo objetivou avaliar a influência da esplintagem e da inclinação de implantes (0º, 17º e 30º) em reabilitações de maxila posterior, na distribuição de tensões pelo método dos elementos finitos tridimensionais não linear. Para isso, foram confeccionados 12 modelos tridimensionais com o auxílio dos programas de modelagem gráfica SolidWorks 2010 e Rhinoceros 4.0, além do programa InVesalius. Os modelos foram compostos por 3 implantes de hexágono externo (4,1 mm) ou cone morse (4,0 mm) nas regiões: 14 - 10 mm; 15 - 8,5 mm; 16 - 8,5 mm suportando próteses de 3 elementos unitárias ou esplintadas. Após geração das geometrias, os modelos foram importados para o programa de pré e pós-processamento de elementos finitos FEMAP 10.2, onde foram geradas as malhas de elementos finitos, condições de carregamento e contorno. A carga aplicada foi de 400N axialmente e 200N obliquamente, divididas em cada cúspide das superfícies oclusais. Em seguida, a análise foi gerada no programa FEMAP 10.2 e exportada para cálculo no programa de elementos finitos NeiNastran versão 9.2, executada em uma estação de trabalho. Os resultados foram importados novamente ao FEMAP 10.2 para visualização e pós-processamento dos mapas de tensão de von Mises e tensão máxima principal. Os resultados para o tecido ósseo mostraram maiores concentrações de tensões para os implantes inclinados e com coroas unitárias de hexágono externo sob carregamento oblíquo...
The performance of an osseointegrated dental implant plays important rule for functional longevity of the rehabilitation. Sometimes, anatomical limitations imply in the positioning of tilted implants that is not considered ideal for prosthetic rehabilitation, generating higher stress concentration around it and leading to cortical bone resorption. To solve these situations, the professional must plan carefully the restoration and to study the connection type of the implant to better adaption for these situations. In this way, this study aimed to evaluate the influence of splinting prostheses and implant inclination (0º, 17º and 30º) in implant-supported prostheses in the posterior region of the maxilla on stress distribution by non-linear 3D finite element analysis. For this, twelve 3D models was confectioned using modeling software SolidWorks 2010 and Rhinoceros 4.0 and software InVesalius. The models constituted of 3 dental implants of external hexagon or morse taper (4,0 mm) at the regions: 14 - 10mm; 15 - 8,5 mm; 16 - 8,5 mm, supporting three-unit prostheses in single and splinting configurations. After modeling, the models were imported to pre- and post-processing software of finite elements FEMAP 10.2 for finite element mesh generation and configuration of restrictions and loading conditions. Axial load of 400N and oblique of 200N were applied divided on each cusp tip of occlusal surface. Next step, it was the analysis configuration on FEMAP 10.2 that was exported to NeiNastran 9.2 to math processing. After, the files of results were imported to FEMAP 10.2 to results visualization and post-processing analysis by plotting von Mises and maximum principal stress maps. The results of bone tissue showed higher stress concentration to inclined implants of external hexagon supporting single crowns under oblique loading. The models with splinted Morse taper implants showed lower stress areas around them. In the implants, the stress reaches moderate levels...
Subject(s)
Dental Implants , Dental Prosthesis, Implant-Supported , Finite Element AnalysisABSTRACT
The aim of this study was to evaluate stress distribution in the fixation screws and bone tissue around implants in single-implant supported prostheses with crowns of different heights (10, 12.5, 15 mm - crown-to-implant ratio 1:1, 1.25:1, 1.5:1, respectively). It was designed using three 3-D models. Each model was developed with a mandibular segment of bone block including an internal hexagon implant supporting a screw-retained, single metal-ceramic crown. The crown height was set at 10, 12.5, and 15 mm with crown-to-implant ratio of 1:1, 1.25:1, 1.5:1, respectively. The applied forces were 200N (axial) and 100 N (oblique). The increase of crown height showed differences with the oblique load in some situations. By von Mises' criterion, a high stress area was concentrated at the implant/fixation screw and abutment/implant interfaces at crown-to-implant ratio of 1:1, 1.25:1, 1.5:1, respectively. Using the maximum principal criteria, the buccal regions showed higher traction stress intensity, whereas the distal regions showed the largest compressive stress in all models. The increase of C/I ratio must be carefully evaluated by the dentist since the increase of this C/I ratio is proportional to the increase of average stress for both screw fixation (C/I 1:1 to 1:1.25 ratio=30.1% and C/I 1:1 to 1:1.5 ratio=46.3%) and bone tissue (C/I 1:1 to 1:1.25 ratio=30% and C/I 1:1 to 1:1.5 ratio=51.5%).
