RESUMO
Os colágenos tipos I e III apresentam diferentes tonalidades de birrefringência em cortes histológicos corados com Picrosirius red e analisados em microscópio sob luz polarizada. Com base nessa propriedade, os colágenos podem ser quantificados por histomorfometria. Entretanto, são muitas as variáveis que podem afetar a distribuição das cores na imagem histológica, e a escolha adequada dos parâmetros de análise têm grande influência no resultado final. O objetivo deste trabalho foi comparar a quantificação histomorfométrica de colágeno em pele equina pela morfometria por contagem de pontos e pela segmentação de cor com diversas configurações, a fim de se determinar o melhor método de avaliação. Para a morfometria por contagem de pontos, foram utilizadas três gratículas diferentes (391, 588 e 792 pontos de interseções) e, para a segmentação de cor, seis combinações de hue e brightness no software ImageJ. Os valores foram submetidos ao teste de Friedman, seguido pelo teste de Tukey com 5% de significância. Os resultados demonstraram que a quantificação dos colágenos na gratícula de 792 pontos foi equivalente aos resultados da segmentação de cor com brightness de 1-255 e hue de 0-42 e 43-120 para os colágenos tipos I e III, respectivamente. Dessa forma, conclui-se que a análise automática da segmentação de cor, utilizando configuração adequada para brightness e hue, pode substituir a morfometria por contagem de pontos de forma confiável e segura.(AU)
The types I and III collagens present different tonalities of birefringence in histological sections stained with Picrosirius red, that can be analyzed under a polarized light microscope. Based on this property, collagens can be quantified by histomorphometry. However, many variables can affect the color distribution in the histological image, and the appropriate choice of the analysis parameters have a significant influence on the final result. The objective of this study was to compare the histomorphometric quantification of collagen in the equine skin by counting points planimetry and color segmentation with different configurations to determine the best method of evaluation. For planimetry, three different graticules (391, 588 and 792 intersections) were used and, for color segmentation, six combinations of hue and brightness in ImageJ software. The values were submitted to the Friedman test followed by Tukey with 5% significance. The results showed that the quantification of collagens in the graticule of 792 intersections was equivalent to the results of color segmentation with a brightness of 1-255 and hue of 0-42 and 43-120 for collagens type I and III, respectively. Automatic analysis of the color segmentation, using suitable configuration for brightness and hue can replace the counting points planimetry reliably and safely.(AU)
Assuntos
Animais , Masculino , Equidae , Colágeno Tipo I , Colágeno Tipo III , Neoplasias/diagnóstico , Neoplasias/veterináriaRESUMO
Os colágenos tipos I e III apresentam diferentes tonalidades de birrefringência em cortes histológicos corados com Picrosirius red e analisados em microscópio sob luz polarizada. Com base nessa propriedade, os colágenos podem ser quantificados por histomorfometria. Entretanto, são muitas as variáveis que podem afetar a distribuição das cores na imagem histológica, e a escolha adequada dos parâmetros de análise têm grande influência no resultado final. O objetivo deste trabalho foi comparar a quantificação histomorfométrica de colágeno em pele equina pela morfometria por contagem de pontos e pela segmentação de cor com diversas configurações, a fim de se determinar o melhor método de avaliação. Para a morfometria por contagem de pontos, foram utilizadas três gratículas diferentes (391, 588 e 792 pontos de interseções) e, para a segmentação de cor, seis combinações de hue e brightness no software ImageJ. Os valores foram submetidos ao teste de Friedman, seguido pelo teste de Tukey com 5% de significância. Os resultados demonstraram que a quantificação dos colágenos na gratícula de 792 pontos foi equivalente aos resultados da segmentação de cor com brightness de 1-255 e hue de 0-42 e 43-120 para os colágenos tipos I e III, respectivamente. Dessa forma, conclui-se que a análise automática da segmentação de cor, utilizando configuração adequada para brightness e hue, pode substituir a morfometria por contagem de pontos de forma confiável e segura.(AU)
The types I and III collagens present different tonalities of birefringence in histological sections stained with Picrosirius red, that can be analyzed under a polarized light microscope. Based on this property, collagens can be quantified by histomorphometry. However, many variables can affect the color distribution in the histological image, and the appropriate choice of the analysis parameters have a significant influence on the final result. The objective of this study was to compare the histomorphometric quantification of collagen in the equine skin by counting points planimetry and color segmentation with different configurations to determine the best method of evaluation. For planimetry, three different graticules (391, 588 and 792 intersections) were used and, for color segmentation, six combinations of hue and brightness in ImageJ software. The values were submitted to the Friedman test followed by Tukey with 5% significance. The results showed that the quantification of collagens in the graticule of 792 intersections was equivalent to the results of color segmentation with a brightness of 1-255 and hue of 0-42 and 43-120 for collagens type I and III, respectively. Automatic analysis of the color segmentation, using suitable configuration for brightness and hue can replace the counting points planimetry reliably and safely.(AU)
Assuntos
Animais , Masculino , Equidae , Colágeno Tipo I , Colágeno Tipo III , Neoplasias/diagnóstico , Neoplasias/veterináriaRESUMO
The degree of interplay among variables in dental implant treatment presents a challenge to randomized clinical trials attempting to answer questions in a timely, unbiased, and economically feasible fashion. Further adding complexity to the different scenarios is the varied implant designs and related bone response, area of implantation, implant bulk material, restoration, abutments and related screws, fixation mode (screwed, fixed, or a combination), and horizontal implant-abutment matching geometry. This article critically appraises the most common mechanical testing methods used to characterize the implant-prostheses complex. It attempts to provide insight into the process of construction of an informed database of clinically relevant questions regarding preclinical evaluation of implant biomechanics and failure mechanisms. The use of single load to failure, fatigue life, fatigue limit, and step-stress accelerated life testing is discussed with emphasis on their deliverables, weaknesses, and strengths. Fractographic analysis and challenges in the correlation between laboratory- and in-service-produced failures of dental ceramics, resin composites, and titanium are introduced. In addition, examples are presented of mechanical characterization studies used in our laboratory to assess some implant-supported rehabilitation variables.
Assuntos
Implantes Dentários , Materiais Dentários/química , Planejamento de Prótese Dentária , Análise do Estresse Dentário/métodos , Fenômenos Biomecânicos , Falha de Restauração Dentária , Humanos , Técnicas In Vitro , Teste de Materiais , Estresse Mecânico , Fatores de TempoRESUMO
UNLABELLED: The objective of this study was to evaluate the in vitro degradation of pellet and powder forms of a poly-L-D-lactic acid material used to produce plates and screws for orthopedic, oral, and maxillofacial applications. MATERIALS AND METHODS: In order to produce the powder form the as-received pellets were milled in a cryogenic chamber. Particles size distribution (PSD) histograms were developed for both forms. The materials were then characterized by Scanning Electron Microscopy (SEM), Differential Scanning Calorimetry (DSC), and Thermogravimetric Analysis (TGA) before and after immersion in simulated body fluid for 30, 60, and 90 days. RESULTS: SEM showed that for both forms material degradation started after 30 days of immersion in SBF and evolved until 90 days. Degradation started at the amorphous zones of the polymer and exposed of deeper crystalline layers. The pellet and powder samples PSD showed polydispersed patterns with mean diameters of 673.98 microm and 259.55 microm. Thermal onset degradation temperatures were 365.64 degrees C and 360.30 degrees C, and of 363.49 degrees C and 359.83 degrees C before immersion and after 90 days in SBF for the pellet and powder forms, respectively. The Tg's of the pellets and the powder were approximately 61.5 degrees C and 66 degrees C, and their respective endothermic peaks were observed at approximately 125 degrees C and 120 degrees C. The specific heat (c) was approximately 8.5 J/g and 6.2 J/g for the pellet and powder material, respectively. CONCLUSION: According to the results obtained, cryogenic milling resulted in particle plastic deformation, and alterations in glass transition temperature, melting temperature, and specific heat of the material.
Assuntos
Transplante Ósseo , Ácido Láctico/metabolismo , Polímeros/metabolismo , Pós/metabolismo , Varredura Diferencial de Calorimetria , Implantes de Medicamento/metabolismo , Microscopia Eletrônica de Varredura , Poliésteres , TermogravimetriaRESUMO
The purpose of this study was to develop a technique to evaluate the implant-abutment gap of an external hexagon implant system as a function of radius. Six implants of 3.75 mm in diameter (Conexao Sistema de Protese Ltda, Sao Paulo, Brazil) and their respective abutments were screw connected and torqued to 20 N cm(-1). The implants were mounted in epoxy assuring an implant long-axis position perpendicular to the vertical axis. Each implant was grounded through its thickness parallel to implant long-axis at six different distance interval. Implant-abutment gap distances were recorded along the implant-abutment region for each section. Individual measurements were related to their radial position through trigonometric inferences. A sixth degree polynomial line fit approach determined radial adaptation patterns for each implant. Micrographs along implant sections showed a approximately 300 mum length implant-abutment engagement region. All implants presented communication between external and internal regions through connection gaps and inaccurate implant-abutment alignment. Average gap distances were not significantly different between implants (P > 0.086). Polynomial lines showed implant-abutment gap values below 10 mum from 0 mum to approximately 250 mum of the implant-abutment engagement region. Gap distances significantly increased from approximately 250 mum to the outer radius of the implant-abutment engagement region. The technique described provided a broader scenario of the implant-abutment gap adaptation compared with previous work concerning implant-abutment gap determination, and should be considered for better understanding mechanical aspects or biological effects of implant-abutment adaptation on peri-implant tissues.