Factors related to early weaning in babies born at term in a public maternity. / Fatores relacionados ao desmame precoce em bebês nascidos a termo em uma maternidade pública.

PURPOSE: to analyze how socioeconomic, pregnancy and childbirth factors relate to the feeding situation in the sixth month of life of full-term babies. METHODS: longitudinal observational study, with 98 mothers of full-term babies. Data collection was structured by capturing information regarding the clinical history and moment of birth in the babies' medical records, followed by the application of two questionnaires to the postpartum women, with questions regarding sociodemographic data, pre- and post-pregnancy data and the baby's nutrition. baby, the first being answered during hospital stay and the second, by telephone, in the 6th month of life. A descriptive analysis of the data was performed, using the frequency distribution of categorical variables, inferential analysis using Pearson's Chi-square test and multivariate analysis using binary logistic regression, adopting, for inclusion in the final model, the significance level of 5%. RESULTS: there was an association between exclusive breastfeeding in the 6th month and maternal education and between the period of food introduction and family income. Mothers with higher education were 4.82 times more likely to breastfeed their children exclusively until the sixth month. Families with lower income (up to one minimum wage) were 2.54 times more likely to start food introduction before the sixth month than families with higher income. CONCLUSION: higher maternal education was a predictive factor for exclusive breastfeeding at the 6th month and higher military income was a predictive factor for introducing food after the 6th month.

OBJETIVO: analisar como os fatores socioeconômicos, da gestação e do parto se relacionam com a situação da alimentação no sexto mês de vida de bebês nascidos a termo. MÉTODO: estudo observacional longitudinal, com 98 mães de bebês termos. A coleta de dados foi estruturada pela captação das informações referentes à história clínica e ao momento do parto nos prontuários dos bebês, seguida da aplicação de dois questionários, com questões referentes a dados sociodemográficos, dados pré e pós-gestacionais e da alimentação do bebê, sendo o primeiro respondido durante a internação hospitalar e o segundo, por contato telefônico, no 6° mês de vida. Foi realizada análise descritiva dos dados, por meio da distribuição de frequência das variáveis categóricas, análise inferencial utilizando o teste Qui-quadrado de Pearson e análise multivariada por regressão logística binária, adotando-se, para inclusão no modelo final, o nível de significância de 5%. RESULTADOS: houve associação entre aleitamento materno exclusivo no 6º mês e escolaridade materna e entre o início da introdução alimentar e a renda familiar. Mães com ensino superior apresentaram 4,82 vezes mais chances de amamentarem os filhos de forma exclusiva até o sexto mês. Famílias de menor renda (até um salário mínimo) tiveram 2,54 vezes mais chances de iniciarem a introdução alimentar antes do sexto mês do que as famílias de maior renda. CONCLUSÃO: maior escolaridade materna foi fator preditor para o aleitamento materno exclusivo ao 6º mês e maior renda familiar foi fator preditor para introdução alimentar após o 6º mês.

Busch-Hoffa fracture: A systematic review.

BACKGROUND: Accomplish a thorough review on the existing biomechanical and clinical studies about coronal plane fractures of the distal femur. METHODS: We performed an electronic search of PubMed/MEDLINE database from April to June, 2023. The terms for the database search included "Hoffa fractures," OR "Busch-Hoffa fractures" OR "coronal plane fractures of the distal femur." RESULTS: The search identified 277 potentially eligible studies. After application of inclusion and exclusion criteria, 113 articles were analyzed in terms of the most important topics related to coronal plane fractures of the distal femur. CONCLUSION: Lateral coronal plane fractures of the distal femur are more frequent than medial, present a more vertical fracture line, and usually concentrate on the weight bearing zone of the condyle. The Letenneur system is the most used classification method for this fracture pattern. Posterior-to-anterior fixation using isolated lag screws (for osteochondral fragments-Letenneur type 2) or associated with a posterior buttressing plate (when the fracture pattern is amenable for plate fixation-Letenneur types 1 and 3) is biomechanically more efficient than anterior-to-posterior fixation. Anterior-to-posterior fixation using lag screws complemented or not by a plate remains a widely used treatment option due to the surgeons' familiarity with the anterior approaches and lower risk of iatrogenic neurovascular injuries. There is no consensus in the literature regarding diameter and number of screws for fixation of coronal plane fractures of the distal femur.

Microfluidics and organ-on-a-chip technologies: A systematic review of the methods used to mimic bone marrow.

Bone marrow (BM) is an organ responsible for crucial processes in living organs, e. g., hematopoiesis. In recent years, Organ-on-a-Chip (OoC) devices have been used to satisfy the need for in vitro systems that better mimic the phenomena occurring in the BM microenvironment. Given the growing interest in these systems and the diversity of developed devices, an integrative systematic literature review is required. We have performed this review, following the PRISMA method aiming to identify the main characteristics and assess the effectiveness of the devices that were developed to represent the BM. A search was performed in the Scopus, PubMed, Web of Science and Science Direct databases using the keywords (("bone marrow" OR "hematopoietic stem cells" OR "haematopoietic stem cells") AND ("organ in a" OR "lab on a chip" OR "microfluidic" OR "microfluidic*" OR ("bioreactor" AND "microfluidic*"))). Original research articles published between 2009 and 2020 were included in the review, giving a total of 21 papers. The analysis of these papers showed that their main purpose was to study BM cells biology, mimic BM niches, model pathological BM, and run drug assays. Regarding the fabrication protocols, we have observed that polydimethylsiloxane (PDMS) material and soft lithography method were the most commonly used. To reproduce the microenvironment of BM, most devices used the type I collagen and alginate. Peristaltic and syringe pumps were mostly used for device perfusion. Regarding the advantages compared to conventional methods, there were identified three groups of OoC devices: perfused 3D BM; co-cultured 3D BM; and perfused co-cultured 3D BM. Cellular behavior and mimicking their processes and responses were the mostly commonly studied parameters. The results have demonstrated the effectiveness of OoC devices for research purposes compared to conventional cell cultures. Furthermore, the devices have a wide range of applicability and the potential to be explored.

Maxillary suture expansion: A mouse model to explore the molecular effects of mechanically-induced bone remodeling.

The aim of this study was to analyze the effect of rapid maxillary expansion (RME) on hard tissues. Opening loops bonded to the first and second maxillary molars on both sides were used to apply distracting forces of 0.28 N, 0.42 N and 0.56 N at the midpalatal suture for 7 and 14 days. Microcomputed tomography (MicroCT), histomorphometry and quantitative polymerase chain reaction (qPCR) analysis were performed to evaluate RME effectiveness, midpalatal suture remodeling, cell counting of osteoblasts, osteoclasts and chondrocytes and the expression of bone remodeling markers, respectively. All forces at the two different time points resulted in similar RME and enhanced of bone remodeling. Accordingly, increased number of osteoblasts and reduced chondrocytes counting and no difference in osteoclasts were seen after all RME protocols. RME yielded increased expression of bone remodeling markers as osteocalcin (Ocn), dentin matrix acidic phosphoprotein-1 (Dmp1), runt-related transcription factor 2 (Runx2), collagen type I Alpha 1 (Col1a1), alkaline phosphatase (ALP), receptor activator of nuclear factor kappa B (RANK), receptor activator of nuclear factor kappa B ligand (Rankl), osteoprotegerin (Opg), cathepsin K (Ctsk), matrix metalloproteinases 9 and 13 (Mmp9 and 13), transforming growth fator beta 1, 2 and 3 (Tgfb 1, Tgfb 2 and Tgfb3), bone morphogenetic protein 2 (Bmp-2), sclerostin (Sost), beta-catenin-like protein 1 (Ctnnbl) and Wnt signaling pathways 3, 3a and 5a (Wnt 3, Wnt 3a and Wnt 5a). These findings characterize the cellular changes and potential molecular pathways involved in RME, proving the reliability of this protocol as a model for mechanical-induced bone remodeling.

A mechanobiological model to study upstream cell migration guided by tensotaxis.

Cell migration is a process of crucial importance for the human body. It is responsible for important processes such as wound healing and tumor metastasis. Migration may occur in response to stimuli of chemical, physical and mechanical nature occurring in the cellular microenvironment. The interstitial flow (IF) can generate mechanical stimuli in cells that influence the cell behavior and interactions of the cells with the extracellular matrix (ECM). One of the phenomena is upstream migration, which is observed in some tumors. In this work, we present a new approach to study the adherent cell migration in a porous medium using a mechanobiological model, attempting to understand if upstream migration can be generated exclusively by mechanical factors. The influence of IF on the behavior of cells and the extracellular matrix was considered. The model is based on a system of coupled nonlinear differential equations solved by the finite element method. Several simulations were performed to study the upstream cell migration and evaluate the effects of pressure, permeability, ECM stiffness and cellular concentration variations on the cell velocity. The results indicated that upstream migration can occur in the presence of mechanical stimuli generated by IF and that the tested parameters have a direct influence on the cellular velocity, especially the pressure and the permeability.

The influence of tongue strength on children's performance in computer games reliant on lingual force generation.

Oral motor exercises, for recovering tongue strength, can be integrated with computer games to increase motivation, especially for treatments in children. The aim of this study was to investigate the influence of tongue strength on motor performance in computer games reliant on lingual force generation. An observational study was carried out at a speech-language pathology outpatient university clinic. Twenty participants (10 with normal tongue strength and 10 with reduced tongue strength) aged 8-13 years used an intra-oral joystick controlled by the tongue to play six computer games during which they had to reach targets that appeared on the screen. Motor performance was measured by the number of attempts to score and the time during which the target force was maintained. Tongue motor performance was compared between groups and across directions of tongue movement, resistance force levels, order of target appearance, continuous force application time on the target, age and sex. Children with normal tongue strength had a lower number of attempts to score (P = .014) and maintained the target force for longer periods (P = .002) than those with reduced tongue strength. The performance was better for both groups (a) in the downward direction compared with the performance in other directions, (b) in games with the lowest resistive force level (0.5 N) compared to those with other levels of resistive force and (c) in the second and third rounds compared with the first round. There were no gender-related differences in performance. Older participants performed better than younger participants. Tongue strength, direction of movement, force to reach the target, time of continuous force application, order of target appearance and age influenced tongue motor performance.

A new method for tongue rehabilitation with computer games: Pilot study.

BACKGROUND: Lingual exercises are commonly used in clinical practice for swallowing rehabilitation. Associating lingual exercises with computer games increases motivation, which influences tongue motor performance. OBJECTIVE: To investigate the effects of tongue movement direction; resistance force level; repetition number; sustained tongue contraction duration; age and gender on tongue motor performance in healthy adults using computer games. METHODS: An observational pilot study was carried out at a university laboratory. Nine healthy adults, aged 22 to 38 years, used an intra-oral joystick controlled by the tongue to play four computer games. The participants had to reach 12 targets that appeared on the computer screen using the intra-oral joystick. Motor performance was measured by the number of attempts to score and the time during which the target force was maintained. Tongue motor performance was compared among tongue movement direction, resistance force level, game round number, and continuous force application time on the target, age and gender. RESULTS: The number of attempts depended significantly on the direction, continuous force application time on the target and age. The time during which the target force was maintained depended significantly on the direction, continuous force application time on the target and game round number. There were no significant differences in the comparisons by gender or by resistance force level. CONCLUSIONS: It was seen that young adults had their best performance in the downward direction, on the third round, holding the force for a shorter time. The performance deteriorated as age increased.

Finite element simulation of fracture in a restored premolar tooth using high aspect ratio elements

Abstract Introduction The term cracked tooth syndrome refers to an incomplete fracture of a vital posterior tooth that involves the dentin and occasionally extends into the pulp. There is a very limited number of publications trying to model dentin crack growth using numerical techniques. Therefore, it is essential to numerically model this phenomenon in order to improve the clinical procedures. Methods A 2D finite element model is proposed to simulate crack initiation and propagation in a restored premolar tooth. The geometric model was based on computed tomography data. A special finite element technique, named mesh fragmentation technique, is used to model and analyze the behavior of the tooth. This technique was used to model cracks in quasi-brittle materials based on the use of interface solid finite elements with high aspects ratio. A tension damage constitutive relation between stresses and strains consistent with the continuous strong discontinuity approach is used to describe crack formation and propagation. Results The main aspects of modeling technique and procedures are explained in detail as well as the whole results, including both elastic and fracture analyses of the restored tooth. Conclusion The results of the current fracture analysis show that, under various loading conditions, there is no crack initiation in the restored tooth under typical loading magnitude. However, in the case of tooth with a pre-existing crack, which can be aroused during the restoration process, a crack propagation was observed, while they did not reach a critical fracture state.

Caracterização da força da língua por meio de medidas objetivas / Characterization of tongue strength via objective measures

RESUMO Objetivo: analisar a força axial da língua e parâmetros relacionados por meio do FORLING. Método: foram analisados os dados de 92 participantes, entre homens e mulheres, com média de 23,3±7,7 anos. Resultados: no parâmetro força média da língua, identificaram-se valores médios de 13,0 N, já para a força máxima observou-se valor médio de 18,3 N. A força média e a máxima da língua apresentaram correlação positiva e associação altamente significante (p<0,001). A energia acumulada pela língua indicou valores de 131,1 N/s. O tempo médio gasto para que se alcance a força máxima da língua foi de 3,8 segundos, indicando um efeito do treinamento ao se comparar a 1ª à 3ª medida, com redução dos valores (p<0,001). Conclusão: o instrumento demonstrou ser capaz de mensurar parâmetros importantes para o fonoaudiólogo, indicando ser uma promissora ferramenta complementar à avaliação clínica fonoaudiológica.

ABSTRACT Purpose: to analyze axial tongue strength and related parameters by using the Forling. Methods: data regarding 92 participants, including men and women with a mean age of 23.3 ± 7.7 years, were analyzed. Results: the mean value of the mean tongue strength was 13.0 N, and the maximum strength value was 18.3 N. The mean and maximum tongue strengths showed positive correlation and highly significant association (p < 0.001). The energy accumulated by the tongue was 131.1 N/s. The mean time required for the maximum tongue strength to be reached was 3.8 s, and the decrease in time (p < 0.001) from the first to the third measurements indicates an effect of training. Conclusion: the instrument proved to be capable of measuring parameters that are important to the speech-language pathologist, indicating that it can be a promising complementary tool for clinical evaluation.

Dental wear estimation using a digital intra-oral optical scanner and an automated 3D computer vision method.

The objective of this work was to propose an automated and direct process to grade tooth wear intra-orally. Eight extracted teeth were etched with acid for different times to produce wear and scanned with an intra-oral optical scanner. Computer vision algorithms were used for alignment and comparison among models. Wear volume was estimated and visual scoring was achieved to determine reliability. Results demonstrated that it is possible to directly detect submillimeter differences in teeth surfaces with an automated method with results similar to those obtained by direct visual inspection. The investigated method proved to be reliable for comparison of measurements over time.

A bilinear elastic constitutive model applied for midpalatal suture behavior during rapid maxillary expansion

Introduction : This study aims to evaluate the influence of the biomechanical behavior of the midpalatal suture (MPS) during the rapid maxillary expansion (RME) when modeled by the Finite Element Method. Methods Four simulation alternatives are discussed and, for each analysis, the suture is considered as a functional unit with a different mechanical behavior: (i) without MPS elements, (ii) MPS with Young's modulus (E) equal to 1 MPa, (ii) MPS with E equal to 0.01 MPa and (iv) MPS with bilinear elastic behavior. Results The stress analysis showed that, when MPS is not considered in the model, stress peaks are reduced in magnitude and their distribution is restricted to a smaller area when compared to the model with the inclusion of MPS (E=1 MPa). The increased suture stiffness also has a direct influence on MPS displacements after 30 expander activations. Conclusion The consideration of the MPS in RME computer models influences greatly the calculated displacements between the suture bone ends, even as the stress levels in maxillary structures. Furthermore, as proposed for the described model, the elastic bilinear behavior assigned to MPS allows coherent prediction of stresses and displacements results, being a good representation for this suture overall behavior.

Theoretical distribution of load in the radius and ulna carpal joint.

PURPOSE: The purpose of this study is to validate a model for the analysis of the load distribution through the wrist joint, subjected to forces on the axes of the metacarpals from distal to proximal for two different mesh densities. METHOD: To this end, the Rigid Body Spring Model (RBSM) method was used on a three-dimensional model of the wrist joint, simulating the conditions when making a grip handle. The cartilage and ligaments were simulated as springs acting under compression and tension, respectively, while the bones were considered as rigid bodies. At the proximal end of the ulna the movement was completely restricted, and the radius was allowed to move only in the lateral/medial direction. RESULTS: With these models, we found the load distributions on each carpal articular surface of radius. Additionally, the results show that the percentage of the applied load transmitted through the radius was about 86% for one mesh and 88% for the coarser one; for the ulna it was 21% for one mesh and 18% for the coarser. CONCLUSIONS: The obtained results are comparable with previous outcomes reported in prior studies. The latter allows concluding that, in theory, the methodology can be used to describe the changes in load distribution in the wrist.

A mass-spring model of the auditory system in otosclerosis

INTRODUCTION: This paper aims to describe a model to simulate otosclerosis using a mass-spring model and to correlate the results with the clinical and audiological data on the disease. METHODS: A mass-spring model was used to represent the behavior of the auditory system simulating otosclerosis. The model consisted of six masses (air volume in the external auditory canal; tympanic membrane; malleus; incus; stapes, and cochlear fluid), springs and dashpots simulating the supporting ligaments and muscles. The parameters to simulate the disease were obtained from the literature; stapedial annular ligament stiffness was increased by 10-fold and to 100-fold and stapes mass increased by 5-fold. RESULTS: There was a decrease in stapes displacement in the lower frequencies when the stiffness of the stapedial annular ligament was increased. It was also found a reduction in stapes displacement in the higher frequencies with increased stapes mass. CONCLUSION:The increased stiffness of the stapedial annular ligament can be an indication of early stage disease, whereas increased bone growth suggests disease progression. The results of the simulation are in agreement with the clinical and audiological disease and support the need for further study of the stapedial annular ligament to find ways to evaluate its functioning and thus enable early detection of hearing losses caused by changes in that structure.

Evaluation of the force applied by the tongue and lip on the maxillary central incisor tooth.

PURPOSE: To describe the development and testing of a system that measures forces exerted by the tongue and upper lip on a tooth during rest and during swallowing. METHODS: Twenty-eight subjects, aged 19-31 years (mean: 23.2 years) were submitted to measurement of forces exerted by the upper lip and tongue on the maxillary right central incisor tooth. Flexiforce resistive sensors were fixed on the labial and lingual surfaces of the tooth. They were connected to an amplifier circuit and a data acquisition board for processing and transmitting information to a computer. RESULTS: At rest, the tongue force on the tooth was 0.00±0.00 N and the lip force on tooth was 0.02±0.02 N. The difference between them was significant. During swallowing, the values were 0.31±0.38 N and 0.15±0.14 N, for the tongue and lip, respectively. This difference was not significant. CONCLUSION: At rest, the lip exerts a larger force than the tongue on the maxillary right central incisor tooth. During swallowing, there was no difference between lip and tongue force on the tooth.

Mechanical behavior of three nickel-titanium rotary files: A comparison of numerical simulation with bending and torsion tests.

AIM: To assess the flexibility and torsional stiffness of three nickel-titanium rotary instruments by finite element analysis and compare the numerical results with the experiment. METHODOLOGY: Mtwo (VDW, Munich, Germany) and RaCe (FKG Dentaire, La-Chaux-de-Fonds, Switzerland) size 25, .06 taper (0.25-mm tip diameter, 0.06% conicity) and PTU F1 (Dentsply Maillefer, Ballaigues, Switzerland) instruments were selected for this study. Experimental tests to assess the flexibility and torsional stiffness of the files were performed according to specification ISO 3630-1. Geometric models for finite element analysis were obtained by micro-CT scanning. Boundary conditions for the numerical analysis were based on the specification ISO 3630-1. RESULTS: A good agreement between the simulation and the experiment moment-displacement curves was found for the three types of instruments studied. RaCe exhibited the highest flexibility and PTU presented the highest torsional stiffness. Maximum values of von Mises stress were found for the PTU F1 file (1185MPa) under bending, whereas the values of von Mises stress for the three instruments were quite similar under torsion. The stress patterns proved to be different in Mtwo under bending, according to the displacement orientation. CONCLUSIONS: The favorable agreement found between simulation and experiment for the three types of instruments studied confirmed the potential of the numerical method to assess the mechanical behavior of endodontic instruments. Thus, a methodology is established to predict the failure of the instruments under bending and torsion.

Comparison of the mechanical behavior between controlled memory and superelastic nickel-titanium files via finite element analysis.

INTRODUCTION: The aim of this study was to evaluate the flexibility and torsional stiffness of a controlled memory (CM) nickel-titanium (NiTi) file and compare its mechanical responses with those of a superelastic NiTi file with the same geometry using finite element simulation. METHODS: A commercially available instrument with a tip size of 30 and a 0.06 taper was selected for this study. The geometric model for finite element analysis was generated by micro-computed tomographic scanning, and the data for the constitutive model of controlled memory NiTi were obtained from the literature. The numeric analysis was performed in ABAQUS (SIMULIA, Providence, RI) with boundary conditions that were based on the ISO 3630-1 specification. RESULTS: The CM NiTi file exhibited the least bending moment and maximum stress value (523 MPa) under 45° bending simulation. However, the least torsional stiffness was calculated for this same instrument. CONCLUSIONS: The higher flexibility and potential fatigue resistance of the CM NiTi files were confirmed, indicating that this new technology represents an improvement in the mechanical behavior of the rotary NiTi files.

Determination of expander apparatus displacements and contact pressures on the mucosa using FEM modelling considering mandibular asymmetries.

This paper presents a method for prediction of forces and displacements in the expansion screw of a modified mandibular Schwarz appliance and the contact pressure distributions on the mucosa during malocclusions treatment. A 3D finite element biomechanical model of the complete mandible-mucosa-apparatus set was built using computerised tomographic images of a patient's mandible and constructive solid geometry by computer software. An iterative procedure was developed to handle a boundary condition that takes into account the mandibular asymmetries. The results showed asymmetries in the contact pressure distributions that indicated with precision the patient's malocclusion diagnosis. In vivo measurements of contact pressure using piezoelectric sensors agreed with the computational results. It was shown that the left and right ends of the expansion screw move differently with respect to the patient mandible, even though the expansion screw has an opening mechanism to ensure equal stretching at both ends. The contact pressures between the apparatus and the mucosa vary linearly with applied forces, which can simplify the analysis of the biomechanical behaviour of the expander mandible apparatus. The biomechanical modelling proposed in this paper can be a useful tool to improve malocclusions treatment, safely avoiding the use of forces acting on live structures beyond the biological tolerance, which could result in traumatic effects.

Métodos quantitativos para avaliação da força de língua / Quantitative methods for assessing tongue force

Por muitos anos, pesquisadores têm procurado métodos para quantificar a força da língua e muitos instrumentos foram construídos para este fim. O objetivo deste trabalho é apresentar uma revisão crítica da literatura sobre instrumentos para quantificar a força de língua. Os 30 aparelhos encontrados foram agrupados em quatro diferentes categorias: bocal contendo sensores (n=9), sensores fixados nos dentes, palato ou em placas palatais (n=8), bulbos preenchidos com fluidos e conectados a sensores de pressão (n=7) e outras tecnologias (n=8). Esses instrumentos podem, potencialmente, auxiliar o fonoaudiólogo na avaliação miofuncional orofacial, fazendo com que o diagnóstico de força da língua seja mais preciso. Alguns aparelhos apresentam desvantagens, tais como não serem sensíveis a pequenas mudanças de força, dificuldades na reprodutibilidade do posicionamento e outros pontos específicos. A grande variação de valores de força/pressão máxima e média encontrados relaciona-se à grande diversidade dos métodos, que empregam diferentes tecnologias.

For several years, researchers have been looking for methods to quantify tongue force and a lot of devices were constructed for this purpose. The purpose of this study is to present a critical literature review about the devices to quantify tongue strength. Thirty devices were found. They were grouped into four different categories: mouthpiece containing sensors (n=9), sensors attached on teeth surface or on palatal plates (n=8), bulbs filled with some fluid and connected to a pressure sensor (n=7) and other technologies (n=8). These methods can, potentially, help speech-language pathologists in the orofacial myology evaluation, making the diagnosis of tongue force more reliable. Some of them present disadvantages such as not being sensitive enough to small changes in force, difficulties in positioning reproducibility and other specific points. The large variation in maximum and average strength/pressure values are related to the large diversity of the methods, which use different technologies.

Standard of disocclusion in complete dentures supported by implants without free distal ends: analysis by the finite elements method.

OBJECTIVE: The occlusal patterns are key requirements for the clinical success of oral rehabilitation supported by implants. This study compared the stresses generated by the disocclusion in the canine guide occlusion (CGO) and bilateral balanced occlusion (BBO) on the implants and metallic infrastructure of a complete Brånemark protocol-type denture modified with the inclusion of one posterior short implant on each side. MATERIAL AND METHODS: A three-dimensional model simulated a mandible with seven titanium implants as pillars, five of them installed between the mental foramen and the two posterior implants, located at the midpoint of the occlusal surface of the first molar. A load of 15 N with an angle of 45° was applied to a tooth or distributed across three teeth to simulate the CGO or BBO, respectively. The commercial program ABAQUS® was used for the model development, before and after the processing of the data. The results were based on a linear static analysis and were used to compare the magnitude of the equivalent stress for each of the simulations. RESULTS: The results showed that the disocclusion in CGO generated higher stresses concentrated on the working side in the region of the short implant. In BBO, the stresses were less intense and more evenly distributed on the prosthesis. The maximum stress found in the simulation of the disocclusion in CGO was two times higher than that found in the simulation of the BBO. The point of maximum stress was located in the neck of the short implant on the working side. CONCLUSIONS: Under the conditions of this study, it was concluded that the BBO pattern was more suitable than CGO for the lower complete denture supported by implants without free distal ends.

Standard of disocclusion in complete dentures supported by implants without free distal ends: analysis by the finite elements method

OBJECTIVE: The occlusal patterns are key requirements for the clinical success of oral rehabilitation supported by implants. This study compared the stresses generated by the disocclusion in the canine guide occlusion (CGO) and bilateral balanced occlusion (BBO) on the implants and metallic infrastructure of a complete Brånemark protocol-type denture modified with the inclusion of one posterior short implant on each side. MATERIAL AND METHODS: A three-dimensional model simulated a mandible with seven titanium implants as pillars, five of them installed between the mental foramen and the two posterior implants, located at the midpoint of the occlusal surface of the first molar. A load of 15 N with an angle of 45° was applied to a tooth or distributed across three teeth to simulate the CGO or BBO, respectively. The commercial program ABAQUS® was used for the model development, before and after the processing of the data. The results were based on a linear static analysis and were used to compare the magnitude of the equivalent stress for each of the simulations. RESULTS: The results showed that the disocclusion in CGO generated higher stresses concentrated on the working side in the region of the short implant. In BBO, the stresses were less intense and more evenly distributed on the prosthesis. The maximum stress found in the simulation of the disocclusion in CGO was two times higher than that found in the simulation of the BBO. The point of maximum stress was located in the neck of the short implant on the working side. CONCLUSIONS: Under the conditions of this study, it was concluded that the BBO pattern was more suitable than CGO for the lower complete denture supported by implants without free distal ends.