O efeito do ácido zoledrônico na microestrutura óssea analisado pela micro-CT em mandíbulas de ratos wistar

Imada, Thaís Sumie Nozu

13 May 2015

Os bisfosfonatos são medicamentos amplamente e efetivamente utilizados para o tratamento de doenças osteolíticas. Entretanto, na cavidade oral, é de particular relevância, pois possuem como efeito adverso a osteonecrose dos maxilares induzida pelo uso de bisfosfonatos. Sua etiopatogenia ainda não é bem estabelecida, os métodos de detecção são insatisfatórios e as terapias recomendadas são por vezes, medidas paliativas e ineficazes. Pouco ainda é sabido sobre o efeito do Ácido Zoledrônico na microestrutura óssea, portanto, propusemo-nos a realizar um estudo em modelo animal que analisasse o trabeculado ósseo da mandíbula através da Micro-CT. Foram utilizados 24 ratos machos (Rattus novergicus, albinus, Wistar), com 12 semanas de vida, divididos em 2 grupos: grupo controle (cloreto de sódio 0,9%) e grupo ácido zoledrônico (ácido zoledrônico 0,6mg/kg). As substâncias foram administradas via intraperitoneal a cada 28 dias em um total de 5 doses. Após 150 dias do início do experimento, foi realizada a eutanásia dos animais e então as amostras foram preparadas e escaneadas (Skyscan 1174) para análise da microestrutura óssea através da Micro- CT. O teste t-student demonstrou diferença estatisticamente significativa (p<0,05) em todos os fatores: volume ósseo, densidade óssea, fator de padrão trabecular, índice de modelo estrutural, espessura trabecular, separação trabecular, porosidade total exceção de número de trabéculas e volume tecidual, demonstrando que há alterações significativas na estrutura trabecular pelo uso de bisfosfonatos. O grupo medicado com ácido zoledrônico comparado ao grupo controle demonstrou trabéculas mais espessas, menos separadas e com menores ligações. / Bisphosphonates are widely and effectively drugs used for the treatment of osteolytic disorders. However, in the oral cavity, this situation is of particular relevance as it can lead to bisphosphonate related osteonecrosis of the jaws. Its etiopathogenesis is still not established, detection methods are unsatisfactory and recommended therapies are sometimes palliative and often ineffective. Little is known about the effect of zoledronic acid on the quality of trabecular bone, therefore, we proposed to conduct a study in an animal model to examine the trabecular bone of the jaw through the Micro-CT. 24 male rats were used (Rattus norvegicus, Albinus, Wistar), with 12 weeks old, divided into 2 groups: control group (sodium chloride 0.9%) and group with zoledronic acid (zoledronic acid 0.6 mg / kg). The substances were administered intraperitoneally every 28 days for a total of 5 doses. After 150 days from the beginning of the experiment, the animals were sacrificed and then the samples were prepared and scanned (Skyscan 1174) for analysis of the bone microstructure through Micro-CT. The \"t-student\" test demonstrated statistically significant differences (p<0.05) in all factors: bone volume, osseous density, trabecular pattern, structure model index, trabecular thickness, trabecular separation, total porosity except trabecular number and tissue volume, demonstrating that there are significant changes in the trabecular structure of the bisphosphonates. Zoledronic Acid compared to control group shows thicker, less separate and lower connected trabeculae.

Bisfosfonatos

Bisphosphonates

Bone microarchitecture

BRONJ

Micro - CT

Micro estrutura óssea

Micro-CT

Osso trabecular

Osteonecrose

Osteonecrosis

Trabecular bone

Estudo experimental das propriedades elásticas de ossos trabeculares utilizando ensaios mecânicos computacionais e microtomografia por raios-X / Assessment of the elastic properties on trabecular bone using computational mechanical tests and X-ray microtomography

Silva, Alessandro Márcio Hakme da

04 June 2014

Ossos trabeculares possuem uma microestrutura porosa e podem ser modelados como um sólido elástico linear, heterogêneo e anisotrópico. A microtomografia tridimensional por raios-x (&#956CT) tem sido mundialmente utilizada para a caracterização de osso trabecular em pesquisas relacionadas à qualidade óssea e a doenças do metabolismo ósseo como a osteoporose. Na literatura existem poucas investigações sobre a influência de diferentes subvolumes amostrais na caracterização de propriedades mecânicas de osso trabecular humano através de &#956CT e ensaio mecânico computacional pelo método de Elementos Finitos. Nesta investigação doze vértebras humanas da região lombar foram utilizadas para a caracterização das propriedades mecânicas do osso trabecular através de &#956CT e modelagem computacional por elementos finitos. Uma amostra cúbica virtual com 18,5 mm de lado foi extraída de cada vértebra e quatro cubos menores centrais foram obtidos a partir dela com reduções de 20%, 40%, 60%, 80% do volume original de cada cubo. A abordagem Direct Mechanics por meio de análise de elementos finitos foi realizada através do Software FAIM (v6.0, Numerics88 Solutions Ltd). Os valores médios nas três direções principais de carregamento para os módulos de Young, Poisson e Torção obtidos foram, respectivamente, E1 = 294 MPa , E2 = 258 MPa , E3 = 153 MPa, G23 = 86 MPa, G31 = 103 MPa, G12 = 100 MPa, v21 = 0,121, v31 = 0,076, v12 = 0,137, v32 = 0,077, v13 = 0,141 e v23 = 0,140. O teste estatístico de Kruskal - Wallis ANOVA fator único foi aplicado com os procedimentos de comparação aos pares (teste de Tukey) mostrou que E1 &#8800 E3, E2 &#8800 E3 e E1 = E2. Isso indica que há a tendência para duas direções diferentes de carregamento mecânico nas amostras de osso trabecular das vértebras humanas analisadas, caracterizando uma simetria transversalmente isotrópica. Entretanto, os autovalores da matriz M (tensor anisotropia) expressaram uma tendência da microestrutura trabecular das vértebras humanas para a simetria ortotrópica, mostrando que a análise do fabric não classifica adequadamente a simetria da estrutura. A avaliação dos parâmetros microestruturais mostrou a tendência de um aumento do grau de conectividade das trabéculas a medida que ocorre uma redução dos subvolumes analisados (100% para 20% ou em milímetros de 18,5 para 3,7) acompanhado de um acréscimo dos valores da fração de volume ósseo. Esta tendência reforça a ideia de analisar-se as possíveis variações dos parâmetros morfométricos e mecânicos em domínios específicos. Em outras palavras, uma avaliação local com a escolha de volumes menores dos parâmetros microestruturais fração de volume, conectividade, espessura trabecular, separação trabecular, número trabecular e parâmetros mecânicos (Módulos de Young, Poisson e Torção) podem melhorar o prognóstico da resistência óssea, a qual prediz o risco de fratura de estruturas de osso esponjoso com precisão. Quando as propriedades mecânicas estão associadas com informações microestruturais por &#956CT são gerados mais parâmetros para se avaliar a qualidade óssea no diagnóstico de doenças do metabolismo ósseo. Portanto, a microtomografia de raios-X e análise de elementos finitos oferecem uma técnica não-invasiva com grande potencial para a avaliação da qualidade óssea. / Trabecular bone structures have a porous microstructure and can be modeled as linear elastic solid with a heterogeneous and anisotropic structure. The X-ray microtomography (&#956CT) has been used worldwide for the characterization of trabecular bone and its relationship with bone quality in metabolism diseases such as osteoporosis. In the literature there are few investigations regarding the influence of trabecular samples subvolumes in the assessment of microstructure and mechanical properties using &#956CT and finite element analysis. In this investigation twelve human vertebraes were used for the characterization of mechanical properties of trabecular bone using CT and computational modeling by finite elements. A cube sample with 18.5 mm sides was computationally extracted from each vertebrae and four smaller central cubes were obtained from it, with a 20%, 40%, 60%, 80% reduction from the original volume. The Direct Mechanics approach by finite element analysis was performed through the FAIM Software (v6.0, Numerics88 Solutions Ltd.). The mean values on three main directions of loading for Youngs Modulus, Poissons Modulus and Shears Modulus, were: E1 = 294 MPa , E2 = 258 MPa , E3 = 153 MPa G23 = 86 MPa, G31 = 103 MPa e G12 = 100 MPa, v21 = 0,121, v31 = 0,076, v12 = 0,137, v32 = 0,077, v13 = 0,141 e v23 = 0,140. The Kruskal-Wallis One Way Analysis of Variance on Ranks was applied with pairwise multiple comparison procedures (Tukey Test) showing that E1 &#8800 E3, E2 &#8800 E3 e E1 = E2. This indicates that there are two different main directions of loading on the trabecular bone samples of human vertebrae which is related to a transversely isotropic symmetry. However the eigenvalues of the matrix M (tensor anisotropy) expressed a tendency to orthotropic symmetry of the trabecular microstructure of human vertebrae, showing that the fabric assumption does not adequately classify the symmetry of the structure. The assessment of microstructural properties showed a tendency to increase the connectivity of the trabeculae with the reduction of the analyzed subvolumes (100% to 20% or 18.5 mm to 3.7 mm) as well as an increase of the bone volume fraction values. Those results highlight the idea that mechanical properties are better described in local regions. In other words, a local assessment of the microstructure parameters volume fraction, connectivity, trabecular thickness, trabecular separation, trabecular number and mechanical parameters (Youngs Modulus, Poissons Modulus and Shears Modulus) can improve the prediction of bone strength, which predicts the risk of cancellous bone fracture accurately. When the mechanical properties are associated with microstructural information more bone quality parameters are generated for the diagnosis of bone metabolism diseases and they can predict the fracture risk of cancellous bone structures with higher accuracy. Therefore, the X-ray microtomography and finite element analysis offer a non-invasive technique with great potential for the assessment of bone quality.

Elementos finitos

Finite element analysis

Human vertebraes

Microtomografia por raio-X (&#956CT)

Módulo de Poisson

Módulo de torção

Módulo de Young

Osso trabecular

Poisson's Modulus

Shear's modulus

Trabecular bone

Vértebras humanas

X-Ray microtomograph (&#956CT)

Young's Modulus

O efeito do ácido zoledrônico na microestrutura óssea analisado pela micro-CT em mandíbulas de ratos wistar

Thaís Sumie Nozu Imada

13 May 2015

Os bisfosfonatos são medicamentos amplamente e efetivamente utilizados para o tratamento de doenças osteolíticas. Entretanto, na cavidade oral, é de particular relevância, pois possuem como efeito adverso a osteonecrose dos maxilares induzida pelo uso de bisfosfonatos. Sua etiopatogenia ainda não é bem estabelecida, os métodos de detecção são insatisfatórios e as terapias recomendadas são por vezes, medidas paliativas e ineficazes. Pouco ainda é sabido sobre o efeito do Ácido Zoledrônico na microestrutura óssea, portanto, propusemo-nos a realizar um estudo em modelo animal que analisasse o trabeculado ósseo da mandíbula através da Micro-CT. Foram utilizados 24 ratos machos (Rattus novergicus, albinus, Wistar), com 12 semanas de vida, divididos em 2 grupos: grupo controle (cloreto de sódio 0,9%) e grupo ácido zoledrônico (ácido zoledrônico 0,6mg/kg). As substâncias foram administradas via intraperitoneal a cada 28 dias em um total de 5 doses. Após 150 dias do início do experimento, foi realizada a eutanásia dos animais e então as amostras foram preparadas e escaneadas (Skyscan 1174) para análise da microestrutura óssea através da Micro- CT. O teste t-student demonstrou diferença estatisticamente significativa (p<0,05) em todos os fatores: volume ósseo, densidade óssea, fator de padrão trabecular, índice de modelo estrutural, espessura trabecular, separação trabecular, porosidade total exceção de número de trabéculas e volume tecidual, demonstrando que há alterações significativas na estrutura trabecular pelo uso de bisfosfonatos. O grupo medicado com ácido zoledrônico comparado ao grupo controle demonstrou trabéculas mais espessas, menos separadas e com menores ligações. / Bisphosphonates are widely and effectively drugs used for the treatment of osteolytic disorders. However, in the oral cavity, this situation is of particular relevance as it can lead to bisphosphonate related osteonecrosis of the jaws. Its etiopathogenesis is still not established, detection methods are unsatisfactory and recommended therapies are sometimes palliative and often ineffective. Little is known about the effect of zoledronic acid on the quality of trabecular bone, therefore, we proposed to conduct a study in an animal model to examine the trabecular bone of the jaw through the Micro-CT. 24 male rats were used (Rattus norvegicus, Albinus, Wistar), with 12 weeks old, divided into 2 groups: control group (sodium chloride 0.9%) and group with zoledronic acid (zoledronic acid 0.6 mg / kg). The substances were administered intraperitoneally every 28 days for a total of 5 doses. After 150 days from the beginning of the experiment, the animals were sacrificed and then the samples were prepared and scanned (Skyscan 1174) for analysis of the bone microstructure through Micro-CT. The \"t-student\" test demonstrated statistically significant differences (p<0.05) in all factors: bone volume, osseous density, trabecular pattern, structure model index, trabecular thickness, trabecular separation, total porosity except trabecular number and tissue volume, demonstrating that there are significant changes in the trabecular structure of the bisphosphonates. Zoledronic Acid compared to control group shows thicker, less separate and lower connected trabeculae.

Bisfosfonatos

Micro estrutura óssea

Micro-CT

Osso trabecular

Osteonecrose

Bisphosphonates

Bone microarchitecture

BRONJ

Micro - CT

Osteonecrosis

Trabecular bone

Estudo experimental das propriedades elásticas de ossos trabeculares utilizando ensaios mecânicos computacionais e microtomografia por raios-X / Assessment of the elastic properties on trabecular bone using computational mechanical tests and X-ray microtomography

Alessandro Márcio Hakme da Silva

04 June 2014

Ossos trabeculares possuem uma microestrutura porosa e podem ser modelados como um sólido elástico linear, heterogêneo e anisotrópico. A microtomografia tridimensional por raios-x (&#956CT) tem sido mundialmente utilizada para a caracterização de osso trabecular em pesquisas relacionadas à qualidade óssea e a doenças do metabolismo ósseo como a osteoporose. Na literatura existem poucas investigações sobre a influência de diferentes subvolumes amostrais na caracterização de propriedades mecânicas de osso trabecular humano através de &#956CT e ensaio mecânico computacional pelo método de Elementos Finitos. Nesta investigação doze vértebras humanas da região lombar foram utilizadas para a caracterização das propriedades mecânicas do osso trabecular através de &#956CT e modelagem computacional por elementos finitos. Uma amostra cúbica virtual com 18,5 mm de lado foi extraída de cada vértebra e quatro cubos menores centrais foram obtidos a partir dela com reduções de 20%, 40%, 60%, 80% do volume original de cada cubo. A abordagem Direct Mechanics por meio de análise de elementos finitos foi realizada através do Software FAIM (v6.0, Numerics88 Solutions Ltd). Os valores médios nas três direções principais de carregamento para os módulos de Young, Poisson e Torção obtidos foram, respectivamente, E1 = 294 MPa , E2 = 258 MPa , E3 = 153 MPa, G23 = 86 MPa, G31 = 103 MPa, G12 = 100 MPa, v21 = 0,121, v31 = 0,076, v12 = 0,137, v32 = 0,077, v13 = 0,141 e v23 = 0,140. O teste estatístico de Kruskal - Wallis ANOVA fator único foi aplicado com os procedimentos de comparação aos pares (teste de Tukey) mostrou que E1 &#8800 E3, E2 &#8800 E3 e E1 = E2. Isso indica que há a tendência para duas direções diferentes de carregamento mecânico nas amostras de osso trabecular das vértebras humanas analisadas, caracterizando uma simetria transversalmente isotrópica. Entretanto, os autovalores da matriz M (tensor anisotropia) expressaram uma tendência da microestrutura trabecular das vértebras humanas para a simetria ortotrópica, mostrando que a análise do fabric não classifica adequadamente a simetria da estrutura. A avaliação dos parâmetros microestruturais mostrou a tendência de um aumento do grau de conectividade das trabéculas a medida que ocorre uma redução dos subvolumes analisados (100% para 20% ou em milímetros de 18,5 para 3,7) acompanhado de um acréscimo dos valores da fração de volume ósseo. Esta tendência reforça a ideia de analisar-se as possíveis variações dos parâmetros morfométricos e mecânicos em domínios específicos. Em outras palavras, uma avaliação local com a escolha de volumes menores dos parâmetros microestruturais fração de volume, conectividade, espessura trabecular, separação trabecular, número trabecular e parâmetros mecânicos (Módulos de Young, Poisson e Torção) podem melhorar o prognóstico da resistência óssea, a qual prediz o risco de fratura de estruturas de osso esponjoso com precisão. Quando as propriedades mecânicas estão associadas com informações microestruturais por &#956CT são gerados mais parâmetros para se avaliar a qualidade óssea no diagnóstico de doenças do metabolismo ósseo. Portanto, a microtomografia de raios-X e análise de elementos finitos oferecem uma técnica não-invasiva com grande potencial para a avaliação da qualidade óssea. / Trabecular bone structures have a porous microstructure and can be modeled as linear elastic solid with a heterogeneous and anisotropic structure. The X-ray microtomography (&#956CT) has been used worldwide for the characterization of trabecular bone and its relationship with bone quality in metabolism diseases such as osteoporosis. In the literature there are few investigations regarding the influence of trabecular samples subvolumes in the assessment of microstructure and mechanical properties using &#956CT and finite element analysis. In this investigation twelve human vertebraes were used for the characterization of mechanical properties of trabecular bone using CT and computational modeling by finite elements. A cube sample with 18.5 mm sides was computationally extracted from each vertebrae and four smaller central cubes were obtained from it, with a 20%, 40%, 60%, 80% reduction from the original volume. The Direct Mechanics approach by finite element analysis was performed through the FAIM Software (v6.0, Numerics88 Solutions Ltd.). The mean values on three main directions of loading for Youngs Modulus, Poissons Modulus and Shears Modulus, were: E1 = 294 MPa , E2 = 258 MPa , E3 = 153 MPa G23 = 86 MPa, G31 = 103 MPa e G12 = 100 MPa, v21 = 0,121, v31 = 0,076, v12 = 0,137, v32 = 0,077, v13 = 0,141 e v23 = 0,140. The Kruskal-Wallis One Way Analysis of Variance on Ranks was applied with pairwise multiple comparison procedures (Tukey Test) showing that E1 &#8800 E3, E2 &#8800 E3 e E1 = E2. This indicates that there are two different main directions of loading on the trabecular bone samples of human vertebrae which is related to a transversely isotropic symmetry. However the eigenvalues of the matrix M (tensor anisotropy) expressed a tendency to orthotropic symmetry of the trabecular microstructure of human vertebrae, showing that the fabric assumption does not adequately classify the symmetry of the structure. The assessment of microstructural properties showed a tendency to increase the connectivity of the trabeculae with the reduction of the analyzed subvolumes (100% to 20% or 18.5 mm to 3.7 mm) as well as an increase of the bone volume fraction values. Those results highlight the idea that mechanical properties are better described in local regions. In other words, a local assessment of the microstructure parameters volume fraction, connectivity, trabecular thickness, trabecular separation, trabecular number and mechanical parameters (Youngs Modulus, Poissons Modulus and Shears Modulus) can improve the prediction of bone strength, which predicts the risk of cancellous bone fracture accurately. When the mechanical properties are associated with microstructural information more bone quality parameters are generated for the diagnosis of bone metabolism diseases and they can predict the fracture risk of cancellous bone structures with higher accuracy. Therefore, the X-ray microtomography and finite element analysis offer a non-invasive technique with great potential for the assessment of bone quality.

Elementos finitos

Microtomografia por raio-X (&#956CT)

Módulo de Poisson

Módulo de torção

Módulo de Young

Osso trabecular

Vértebras humanas

Finite element analysis

Human vertebraes

Poisson's Modulus

Shear's modulus

Trabecular bone

X-Ray microtomograph (&#956CT)

Young's Modulus

Ultrasound Characterization of Structure and Density of Coral as a Model for Trabecular Bone

Sun, Yurong

08 August 2000

"The goal of this thesis work has been to investigate improved diagnostic methods for both detecting osteoporosis and estimating fracture risk non-invasively, by assessing bone mass density (BMD) and bone microstructure. It evaluates new approaches for analyzing through-transmission ultrasound signals using coral samples as models for trabecular bone. The results of BUA, impulse response of coral samples and the angular decorrelation function of coral samples indicate that these ultrasound parameters may be useful in detecting changes in both bone mineral density (BMD) and the presence of dominant trabecular bone structure axis. "

angular decorrelation function

impulse response

BUA

BMD

ultrasound

coral

trabecular bone

osteoporosis

Osteoporosis

Diagnosis

Bone densitometry

Ultrasonic imaging

New algorithms for in vivo characterization of human trabecular bone: development, validation, and applications

Liu, Yinxiao

01 January 2013

Osteoporosis is a common bone disease that increases risk of low-trauma fractures associated with substantial morbidity, mortality, and financial costs. Clinically, osteoporosis is defined by low bone mineral density (BMD). BMD explains approximately 60-70% of the variance in bone strength. The remainder is due to the cumulative and synergistic effects of other factors, including trabecular and cortical bone micro-architecture. In vivo quantitative characterization of trabecular bone (TB) micro-architecture with high accuracy, reproducibility, and sensitivity to bone strength will improve our understanding of bone loss mechanisms and etiologies benefitting osteoporotic diagnostics and treatment monitoring processes. The overall aim of the Ph.D. research is to design, develop and evaluate new 3-D imaging processing algorithms to characterize the quality of TB micro-architectural in terms of topology, orientation, thickness and spacing, and to move the new technology from investigational research into the clinical arena. Two algorithms regarding to this purpose were developed and validated in detail - (1) star-line-based TB thickness and marrow spacing computation algorithm, and (2) tensor scale (t-scale) based TB topology and orientation computation algorithm. The TB thickness and marrow spacing algorithm utilizes a star-line tracing technique that effectively accounts for partial voluming effects of in vivo imaging with voxel size comparable to TB thickness and also avoids the problem of digitization associated with conventional algorithms. Accuracy of the method was examined on computer-generated phantom images while the robustness of the method was evaluated on human ankle specimens in terms of stability across a wide range of resolutions, repeat scan reproducibility under in vivo condition, and correlation between thickness values computed at ex vivo and in vivo resolutions. Also, the sensitivity of the method was examined by its ability to predict bone strength of cadaveric specimens. Finally, the method was evaluated in an in vivo human study involving forty healthy young-adult volunteers and ten athletes. The t-scale based TB topology and orientation computation algorithm provides measures characterizing individual trabeculae on the continuum between perfect plate and perfect rod as well as individual trabecular orientation. Similar to the TB thickness and marrow spacing computation algorithm, accuracy was examined on computer-generated phantoms while robustness of the algorithm across ex vivo and in vivo resolution, repeat scan reproducibility, and the sensitivity to experimental mechanical bone strength were evaluated in a cadaveric ankle study. And the application of the algorithm was evaluated in a human study involving forty healthy young-adult volunteers and ten patients with SSRI treatment. Beside these two algorithms, an image thresholding algorithm based on the class uncertainty theory is developed to segment TB structure in CT images. Although the algorithm was developed for this specific application, it also works effectively for general 2-D and 3-D images. Moreover, the class uncertainty theory can be utilized as adaptive information in more sophisticated image processing algorithms such as Snakes, ASMs and graph search.

Class Uncertainty

Human Study

Multi-row Detector CT

Star Line Tracing

Tensor Scale

Trabecular Bone Quality

Electrical and Computer Engineering

Physical activity, bone gain and sustainment of peak bone mass

Tervo, Taru,

January 2009

Diss. (sammanfattning) Umeå : Umeå universitet, 2009. / Härtill 4 uppsatser. Även tryckt utgåva.

Les contraintes de charge asymétriques chez l'homme moderne : étude microCT sur l'os trabéculaire / Asymmetric loading on modern humans : micro-CT study on trabecular bone

Reina, Nicolas

17 February 2017

L'étude de l'os est d'un intérêt majeur en Anthropologie. Constituant la charpente des vertébrés, le squelette est le reflet de l'activité motrice. En effet, chaque élément du squelette a une fonction dictée par sa forme et un rôle autorisé par sa morphologie. C'est l'illustration la plus visible de l'adaptation. Ce processus est largement étudié dans la lignée humaine et ce dogme est au cœur de nombreuses recherches en Anthropobiologie. Ces caractères sont inscrits dans la forme de l'os. Chaque courbure, apophyse ou crête témoignent au moins en partie de l'action d'un muscle ou d'une fonction dictée par un lent processus évolutif voire adaptatif. Cette évolution se fait par l'évolution de caractères externes de l'os par sa forme ou l'anatomie " visible " d'une part et par l'évolution de caractères plus internes, subtils et directement lié aux propriétés biomécaniques de l'os à savoir l'os trabéculaire. L'os trabéculaire est un matériau plus fragile, déformable que l'os cortical. Il constitue une trace indirecte des contraintes appliquées squelette. C'est ainsi que les activités locomotrices, alimentaires ou occupationnelle seront inscrite dans l'endostructure osseuse. C'est la théorie développée par Wolff dès 1870 dans " The law of bone remodelling ". Il développa cette conception d'un processus actif, évolutif par l'observation macroscopique des travées de l'extrémité supérieure du fémur chez l'homme. Si la contrainte exercée sur un os en particulier augmente, il va se remodeler pour devenir plus rigide et résister à la charge dans ce segment d'os particulier et pour cette force particulière de contrainte. Nous avons étudié cette théorie sur deux modèles chez le vivant au niveau du membre supérieur et au niveau du membre inférieur pour caractériser les contraintes asymétriques appliquées à l'os trabéculaires. La latéralité ou préférence manuelle est un exemple d'activité asymétrique. Ses effets sur l'os sont bien connus lors de la pratique de sports intensifs ou d'activités très latéralisées. Cependant peu de données existent sur les activités usuelles et la préférence manuelle de l'homme jeune sans activité particulière. Par une étude en microscanner avec des coupes de 41 microns, des volumes d'intérêt dans les os du squelette carpien radial ont été réalisés sur des individus d'âge jeune sans antécédent particulier de façon bilatérale. Plusieurs variables cliniques et anthropométriques ont également été recueillis. Nous avons pu mettre en évidence des caractères endostructuraux expliquant la variabilité interindividuelles en les comparant avec des éléments anthropomorphiques et la force de serrage manuelle. Par ailleurs, les défauts d'axe en varus ou en valgus exercent des contraintes asymétriques également sur les articulations portantes. La chirurgie prothétique du genou croit ces dernières années de façon exponentielle par un effet conjoint de l'amélioration des techniques, et l'augmentation de l'incidence de l'arthrose. / The study of bone is of major interest in Anthropology. The skeleton is an image of motor activity. Indeed, every element of the skeleton has a function dictated by its shape and role and then by its morphology. This illustrates the most visible adaptation of the bone. This process is widely studied in the human lineage. This theory is an important path of research in Anthropology. These characters are inscribed in the shape of the bone. Each curve, or crest reflect the action of a muscle or a function dictated by a slow evolutionary process. This change is by changing external characteristics of the bone by its form or anatomy "visible" on the one hand and by the evolution of more internal character, subtle and directly related to the biomechanical properties of bone namely trabecular bone. Trabecular bone is a more brittle material, deformable than cortical bone. It is an indirect trace of the stresses applied to the bone. Thus locomotion, feeding or occupational activities can be analyzed into the bone endostructure. This is the theory developed by Wolff in 1870 in "The law of bone remodeling." He developed this idea of ??an active, evolving process by macroscopic observation of the spans of the proximal femur in humans. If the stress on a particular bone increases, it will remodel to become more rigid and withstand the load in that particular bone segment and for this particular force of constraint. We studied this theory on two models in the living human being. One concerned the upper limb and the second the lower limb to characterize asymmetrical forces on trabecular bone. Laterality or handedness is an example of asymmetrical activity. Its effects on bone are well known in the practice of intensive sports or very lateralized activities. However, little data exist on the usual activities and the handedness of the young man with no particular activity. We performed a microCT study with cuts 41 microns slices. Volumes of interest in radial carpal bones were performed on both sides on young human adults without particular medical history. Several clinical and anthropometric variables were also collected. We were able to highlight endostructural patterns explaining the interindividual variability in comparison with anthropometric parameters and crush or pinch grip. Furthermore, axis deviations in varus or valgus exert asymmetric constraints also on weight-bearing joints. The prosthetic knee surgery increases exponentially in the last decades by a combined effect of improved techniques and the increased incidence of osteoarthritis. The OA is multifactorial but the weight has a major effect on cartilage wear. We further know that the morphology and deformation of members influence this phenomenon. We wanted to characterize the response of the bone to endostructure these asymmetrical stresses on the tibial plateau. We collected tibial plateaus during total joint replacement surgeries for knee and compare the bone under chondral internal and external with microCT 7.4 micron slices. Some parameters highlight the major effect weight and body mass such as bone volume fraction BV/TV, structure model index SMI, trabecular space Tb. and trabecular number Tb.N. Subchondral densification during osteoarthritis is associated with a reduction in its elastic modulus, which could increase cartilage stress, and accelerate cartilage loss.

Latéralité

Chargement asymétrique

Os trabéculaire

Force de prise

Arthrose

Adaptation osseuse

Laterality

Asymetrical loading

Trabecular bone

Grip Strength

Osteoarthritis

Bone adaptation

Mechanical properties of trabecular structures produced by SLM, as a function of the trabecular morphology

Johansson, Frida, Klarin, Johanna

January 2017

Eurocoating, Italy, is a company that works in the biomedical sector. They have for a long time created prostheses from CAD files achieved from customers, and now they want to build their own expertise about the design. The thesis work was a part of a three year long collaborative research project between Eurocoating and University of Trento that was aiming to investigate the prostheses with open-porous surface and trabecular structure, created by Selective Laser Melting. The purpose of the thesis was to investigate and characterize 30 different trabecular structures of Ti-6Al-4V, fabricated by Selective Laser Melting. That includes investigation the effect on the morphology and porosity fraction caused by the manufacturing and the effect on mechanical and physical properties due to the different characterizations of the structures. The thesis work had its foundation in literature studies to receive deep knowledge about the subject. Practical tests were performed to investigate mechanical behaviour under compressive and tensile loading, static friction and wear resistance. The findings from these tests were compared to the porosity fraction and the morphological characterizations. The result stated that the porosity fraction was lower than the designed porosity, and that is was strongly influenced by size of the voids and struts. The strut thickness was higher than the design values, especially on the lateral surface, while the voids size were approximately as designed. Result from the compression test showed a trend of decreasing stiffness and strength with increasing porosity fraction. Also structures with same porosity fraction could have a wide range in mechanical properties which indicates high dependence on the morphological geometry i.e. pore size and shape, strut size and pore distribution. Comparisons between tensile and compression behaviour stated that the structures had a lower strength but a significant higher stiffness in tensile load. All structures from the wear test showed a good resistance while the results from the friction test needs further investigation to be fully understood. The physical and mechanical properties of the trabecular structures was found to be close to those of cortical and trabecular bone in porosity, stiffness and strength. There is a range of variations leading to possibilities to adopt the application depending on customer. Thus, these can be considered as promising structures used biomedical application to optimize osseointegration and secondary long term fixation.

Additive Manufacturing

Selective Laser Melting

Ti-6Al-4V

Trabecular structure

material testing

mechanical properties

Medical Materials

Medicinska material och protesteknik

Der Einfluss von Therapie und Prophylaxe mit Strontiumranelat auf das proximale Femur osteoporotischer Ratten / The influence of therapy and prophylaxis with strontium ranelate on proximal femur of osteoporotic rats

Köstner, Felix

04 February 2020

No description available.

610

Osteoporose

Strontiumranelat

proximaler Rattenfemur

trabekulärer Knochen

osteoporosis

strontium ranelate

proximal femur of the rat

trabecular bone

bone tissue

ovariectomy

GOK-MEDIZIN