Soft-Template Construction of 3D Macroporous Polypyrrole Scaffolds

Liu, Shaohua, Wang, Faxing, Dong, Renhao, Zhang, Tao, Zhang, Jian, Zheng, Zhikun, Mai, Yiyong, Feng, Xinliang

07 May 2018

No description available.

info:eu-repo/classification/ddc/541

ddc:541

Cefalostato virtual-posicionamento inicial para a padronização na marcação de pontos craniométricos em imagens obtidas por tomografia computadorizada, para uso em cefalometria / The Virtual Cephalostat - the preliminar adjustment for standardization of skull orientation in landmarks localization using CT in cephalometric analyses

Rosa, Vera Lúcia Mestre

11 September 2009

Objetivo: O desenvolvimento da tecnologia em diagnóstico odontológico por imagem através dos Tomógrafos Computadorizados por Feixe Cônico, tornou possível e acessível a avaliação cefalométrica através de reconstruções volumétricas do crânio. Parâmetros baseados em evidências científicas são necessários para implementar o seu uso. Alguns parâmetros utilizados na cefalometria convencional (bidimensional) deverão ser esquecidos, outros deverão ser adaptados, outros, ainda, deverão ser criados. Propomos aqui a criação de um Cefalostato Virtual para orientação do crânio em TC, com a utilização de pontos intracranianos, que são mais estáveis. Também propomos a criação do ponto TS e da linha TS-Pg em substituição ao ponto S e ao eixo Y de crescimento de Downs, respectivamente. Além disso, propomos a linha Ba-Op como referência para casos de assimetria faciais onde não é possível a utilização do plano Horizontal de Frankfurt, em casos, por exemplo, de síndromes que afetem os pontos de referências mais externos. Métodos: 49 crânios pertencentes ao do Museu de Anatomia UNIFESP, foram escaneados em um tomógrafo computadorizado por feixe cônico (TCFC), na clínica ISOOrthographic, São Paulo. As pontuações foram realizadas em dois momentos, com espaçamento de uma semana. Foram calculadas estatisticamente medidas-resumo (média, quartis, mínimo, máximo e desvio padrão). Foram calculadas também as correlações intraclasse e correlações de Pearson entre o Eixo Y (S-Gn) e linha entre os pontos TS e Pg. Resultados: Apesar de se observar uma baixa reprodutibilidade nas coordenadas, para os pontos CE, Pg e Gn, foi observada alta correlação entre as medidas angulares em questão. Para descrever a inclinação do Eixo Y em função da inclinação da Linha TS e Pg adotou-se um modelo de regressão linear simples descrito pela equação abaixo: Ang Sö- Gn = 0,989 Ang TS Pgi i Conclusões: o uso do Cefalostato Virtual na orientação de Crânios em Tomografia Computadorizada é factível e favorece a reprodução do posicionamento craniano; apesar da baixa reprodutibilidade intra observador dos pontos CE, Pg e Gn, novos critérios tridimensionais na definição destes pontos poderiam aumentar a precisão na sua localização; a alta reprodutibilidade intra observador para os pontos Op, TS e N, sugere que os critérios anatômicos próprios das estruturas estudadas favorecem a sua determinação; o ponto TS apresentou maior reprodutibilidade do que o ponto S, embora esta diferença não tenha sido estatisticamente significante, podendo-se substituir o ponto S pelo TS em estudos futuros; existe alta correlação entre a linha entre os pontos TS e Pg e o Eixo Y; a avaliação do comportamento da inclinação da linha orbitomeática (HF) com relação à linha Básio-Opístio sugere que na presença de alterações cranianas este relacionamento propicie auxílio no diagnóstico das alterações craniofaciais. / Objective: The development of new technology in dental diagnosis by cone beam CT (CBCT) image, made possible and accessible the realization of cephalometric evaluation through volumetric reconstructions of the skull. Scientific parameters with evidence-based are needed to implement its use. Some parameters used in conventional cephalometry (2D) maybe need to be forgotten, others should be adapted, and others still to be created. In this research we propose to create a Virtual Cephalostat orientation of the skull in CT, with the intracranial landmarks, because they are more stable. We propose the creation of landmark TS (Tubercle Sella) and the TS-Pg line to replace the landmark S (Sella) and the Y-axis of growth (Downs), respectively. Furthermore, we propose to use the Basion-Opistion line as a reference for cases of craniofacial asymmetry where is not possible to use the Frankfurt horizontal plane, as in some cases of syndromes that affects the most external landmarks. Methods: 49 skulls of Anatomy Museum of UNIFESP Federal University of São Paulo, were scanned in a CBCT. The analyses were performed in 2 stages, within 1-week space. Statistics measurements were calculated (mean, quartiles, minimum, maximum and standard deviation). We also calculated the intraclass correlations (ICC) and the Pearson correlations between the Y axis (S-Gn) and the line between landmarks TS-Pg. Results: Even if there is a low reproducibility in the coordinates for landmarks EC (Ethmoidal Crest), Pg and Gn it was observed a high correlation between the angular measures in question. To describe the inclination of the Y axis according to the slope of the line adopted TS and Pg a simple linear regression model is used, showed by the equation bellow: Ang Sö- Gn = 0,989 Ang TS Pgi i Conclusions: The use of the Virtual Cephalostat in orientation of skulls using CBCT is feasible and facilitates the reproduction of the skull position, despite the low intra observer reproducibility of landmarks EC, Pg and Gn, new 3D criteria in the definition of these landmarks could increase the precision in its location. The high intra observer reproducibility at the landmarks Op, N and TS, suggests that the anatomical criteria themselves promote their reliability; The TS landmark showed a higher reproducibility than the S landmark, even though the difference was not statistically significant, and it should be replaced by the landmark TS in future studies. There is a high correlation between the TS - Pg line and Y-axis. The relationship between the slope of the HF plane and Ba -Op line suggests that in the presence of the alteration of morphology in craniofacial structure, this relationship offer help in the diagnosis of craniofacial changes.

Assimetria

Asymmetry

Cefalogramas

Cefalometria

Cephalograms

Cephalometry

Computed Tomography (CT)

Cone Beam Computed Tomography (CBCT)

Craniofacial

Craniofacial

Orthodontic

Ortodontia

Three-dimensional (3D)

Tomografia Computadorizada

Tridimensional (3D)

Cefalostato virtual-posicionamento inicial para a padronização na marcação de pontos craniométricos em imagens obtidas por tomografia computadorizada, para uso em cefalometria / The Virtual Cephalostat - the preliminar adjustment for standardization of skull orientation in landmarks localization using CT in cephalometric analyses

Vera Lúcia Mestre Rosa

11 September 2009

Objetivo: O desenvolvimento da tecnologia em diagnóstico odontológico por imagem através dos Tomógrafos Computadorizados por Feixe Cônico, tornou possível e acessível a avaliação cefalométrica através de reconstruções volumétricas do crânio. Parâmetros baseados em evidências científicas são necessários para implementar o seu uso. Alguns parâmetros utilizados na cefalometria convencional (bidimensional) deverão ser esquecidos, outros deverão ser adaptados, outros, ainda, deverão ser criados. Propomos aqui a criação de um Cefalostato Virtual para orientação do crânio em TC, com a utilização de pontos intracranianos, que são mais estáveis. Também propomos a criação do ponto TS e da linha TS-Pg em substituição ao ponto S e ao eixo Y de crescimento de Downs, respectivamente. Além disso, propomos a linha Ba-Op como referência para casos de assimetria faciais onde não é possível a utilização do plano Horizontal de Frankfurt, em casos, por exemplo, de síndromes que afetem os pontos de referências mais externos. Métodos: 49 crânios pertencentes ao do Museu de Anatomia UNIFESP, foram escaneados em um tomógrafo computadorizado por feixe cônico (TCFC), na clínica ISOOrthographic, São Paulo. As pontuações foram realizadas em dois momentos, com espaçamento de uma semana. Foram calculadas estatisticamente medidas-resumo (média, quartis, mínimo, máximo e desvio padrão). Foram calculadas também as correlações intraclasse e correlações de Pearson entre o Eixo Y (S-Gn) e linha entre os pontos TS e Pg. Resultados: Apesar de se observar uma baixa reprodutibilidade nas coordenadas, para os pontos CE, Pg e Gn, foi observada alta correlação entre as medidas angulares em questão. Para descrever a inclinação do Eixo Y em função da inclinação da Linha TS e Pg adotou-se um modelo de regressão linear simples descrito pela equação abaixo: Ang Sö- Gn = 0,989 Ang TS Pgi i Conclusões: o uso do Cefalostato Virtual na orientação de Crânios em Tomografia Computadorizada é factível e favorece a reprodução do posicionamento craniano; apesar da baixa reprodutibilidade intra observador dos pontos CE, Pg e Gn, novos critérios tridimensionais na definição destes pontos poderiam aumentar a precisão na sua localização; a alta reprodutibilidade intra observador para os pontos Op, TS e N, sugere que os critérios anatômicos próprios das estruturas estudadas favorecem a sua determinação; o ponto TS apresentou maior reprodutibilidade do que o ponto S, embora esta diferença não tenha sido estatisticamente significante, podendo-se substituir o ponto S pelo TS em estudos futuros; existe alta correlação entre a linha entre os pontos TS e Pg e o Eixo Y; a avaliação do comportamento da inclinação da linha orbitomeática (HF) com relação à linha Básio-Opístio sugere que na presença de alterações cranianas este relacionamento propicie auxílio no diagnóstico das alterações craniofaciais. / Objective: The development of new technology in dental diagnosis by cone beam CT (CBCT) image, made possible and accessible the realization of cephalometric evaluation through volumetric reconstructions of the skull. Scientific parameters with evidence-based are needed to implement its use. Some parameters used in conventional cephalometry (2D) maybe need to be forgotten, others should be adapted, and others still to be created. In this research we propose to create a Virtual Cephalostat orientation of the skull in CT, with the intracranial landmarks, because they are more stable. We propose the creation of landmark TS (Tubercle Sella) and the TS-Pg line to replace the landmark S (Sella) and the Y-axis of growth (Downs), respectively. Furthermore, we propose to use the Basion-Opistion line as a reference for cases of craniofacial asymmetry where is not possible to use the Frankfurt horizontal plane, as in some cases of syndromes that affects the most external landmarks. Methods: 49 skulls of Anatomy Museum of UNIFESP Federal University of São Paulo, were scanned in a CBCT. The analyses were performed in 2 stages, within 1-week space. Statistics measurements were calculated (mean, quartiles, minimum, maximum and standard deviation). We also calculated the intraclass correlations (ICC) and the Pearson correlations between the Y axis (S-Gn) and the line between landmarks TS-Pg. Results: Even if there is a low reproducibility in the coordinates for landmarks EC (Ethmoidal Crest), Pg and Gn it was observed a high correlation between the angular measures in question. To describe the inclination of the Y axis according to the slope of the line adopted TS and Pg a simple linear regression model is used, showed by the equation bellow: Ang Sö- Gn = 0,989 Ang TS Pgi i Conclusions: The use of the Virtual Cephalostat in orientation of skulls using CBCT is feasible and facilitates the reproduction of the skull position, despite the low intra observer reproducibility of landmarks EC, Pg and Gn, new 3D criteria in the definition of these landmarks could increase the precision in its location. The high intra observer reproducibility at the landmarks Op, N and TS, suggests that the anatomical criteria themselves promote their reliability; The TS landmark showed a higher reproducibility than the S landmark, even though the difference was not statistically significant, and it should be replaced by the landmark TS in future studies. There is a high correlation between the TS - Pg line and Y-axis. The relationship between the slope of the HF plane and Ba -Op line suggests that in the presence of the alteration of morphology in craniofacial structure, this relationship offer help in the diagnosis of craniofacial changes.

Assimetria

Cefalogramas

Cefalometria

Craniofacial

Ortodontia

Tomografia Computadorizada

Tridimensional (3D)

Asymmetry

Cephalograms

Cephalometry

Computed Tomography (CT)

Cone Beam Computed Tomography (CBCT)

Craniofacial

Orthodontic

Three-dimensional (3D)

L’asymétrie mammaire chez les adolescentes présentant une scoliose idiopathique

Ramsay, Joyce

12 1900

La scoliose idiopathique de l’adolescence (SIA) est une déformation tridimensionnelle complexe du rachis affectant majoritairement les filles. L’atteinte progressive est surtout esthétique avec, notamment, une déformation de la cage thoracique résultante. L’asymétrie mammaire est une préoccupation fréquente chez ces jeunes filles. Se définissant comme une différence de forme, de position ou de volume des seins ou des complexes aréolo-mamelonnaires, l’asymétrie mammaire est courante chez les femmes, mais habituellement mineure et non visible. Il demeure incertain dans la littérature si l’asymétrie mammaire est plus fréquente chez les scoliotiques. De plus, très peu d’études ont évalué la relation entre la scoliose et l’asymétrie mammaire. De façon instinctive, on serait porté à croire que ce ne sont pas les seins qui sont asymétriques, mais plutôt la déformation du thorax en rotation qui donne cette impression. Les seins représentent un des organes les plus difficiles à mesurer étant donné leur grande variabilité. Plusieurs méthodes de mesure ont été décrites. L’imagerie par résonance magnétique (IRM) est considérée l’outil le plus précis pour définir la glande mammaire et plus particulièrement, sa délimitation sur la cage thoracique. Ce projet consiste à quantifier l’asymétrie mammaire, représentée par une différence de volume entre les deux seins, chez une cohorte de jeunes filles présentant une SIA significative, en utilisant l’IRM comme outil de mesure. Ensuite, une méthode de mesure automatisée, à partir de la topographie surfacique 3D, est proposée. Les résultats obtenus avec cette méthode sont confrontés à ceux de l’IRM. L’influence de la posture sur le volume mammaire est également étudiée à partir de ces deux modalités différentes. Pour réaliser ces objectifs, une cohorte de 30 patientes scoliotiques a été recrutée sur la base de leur courbure thoracique et de leur maturité osseuse et mammaire. Deux imageries de tronc ont été effectuées : la topographie surfacique 3D et la résonance magnétique. Dans un premier temps, la sommation des images segmentées acquises par IRM nous a permis de mesurer de façon très précise le volume mammaire. Notre cohorte présente une asymétrie mammaire moyenne statistiquement significative de 8.32%. 66.6% des patientes présentent une asymétrie ≥ 5%. Par ailleurs, le sein gauche est plus volumineux chez 65.5% des patientes. Une faible corrélation non-significative existe entre les volumes mammaires et l’angle de Cobb ainsi que la gibbosité thoracique. Par la suite, une méthode de mesure automatisée, développée à partir de l’environnement mathématique Matlab, est appliquée directement sur les reconstructions 3D. En bref, elle consiste à identifier les contours des seins pour les exciser afin d’exposer la cage thoracique puis, à soustraire le thorax complet du thorax sans seins pour déterminer les volumes mammaires. Les volumes mammaires acquis par la méthode automatisée sont, de manière attendue, de plus petites tailles que ceux obtenus à l’IRM. Une forte corrélation est établie entre les volumes mammaires obtenus par les deux différentes techniques de mesure. Bien que statistiquement significatives, les asymétries mammaires (r= 0.614, p< .001) ne sont pas aussi fortement corrélées entre elles que les volumes. Le sein droit (r=0.805) présente une corrélation plus élevée que le sein gauche (r=0.747). Finalement, l’influence de la posture est étudiée à partir des maillages 3D de l’IRM (décubitus ventral) et de la topographie surfacique 3D (position debout). D’excellentes corrélations sont confirmées entre les volumes mammaires ; r= 0.896 et r= 0.939, respectivement pour les volumes mammaires gauches et droits. Ce projet a permis de démontrer, pour la première fois, qu’il est possible de calculer le volume mammaire de façon objective et précise avec l’IRM, chez une cohorte scoliotique. Grâce à la précision des repères anatomiques, l’IRM nous a permis de revisiter une croyance populaire dans la communauté de la scoliose. Celle soutenant que l’asymétrie mammaire ressentie par les patientes n’est qu’une perception. Ces nouvelles données nous permettrons de conseiller les jeunes filles avec la SIA, concernant leurs préoccupations sur l’asymétrie de leurs seins. Nous avons confirmé que la méthode de mesure automatisée est réalisable cliniquement et pourrait être utilisée pour prédire les volumes obtenus à l’IRM. Par ailleurs, c’est le premier outil de mesure de volumétrie mammaire complètement automatisé à notre connaissance. Les volumes mammaires obtenus debout et en décubitus ventral sont comparables. / Adolescent idiopathic scoliosis (AIS) is a complex tridimensional deformation of the spine affecting primarily girls. The progressive course is mostly aesthetic with, in particular, a resulting rib cage deformity. Breast asymmetry is a frequent concern expressed by these girls. Defined as a difference in shape, position or volume of the breasts or the nipple complex, breast asymmetry is common in women but usually minor and not visible. It remains unknown in the literature if breast asymmetry is more frequent in scoliotics. Moreover, very few studies have evaluated the relationship between scoliosis and breast asymmetry. It is commonly believed that it is not the breasts that are asymmetric, but rather the trunk rotation giving this perception. The breasts represent one of the most challenging organs to measure due to their great variability. Many measuring methods have been described. Magnetic resonance imaging (MRI) is considered the most precise tool to define the mammary gland and its delimitation on the rib cage. This study aims at measuring objectively breast asymmetry, as described by a volume difference between the breasts, in a cohort of young girls presenting with significant AIS, using the MRI as a measuring tool. Then, an automated measuring method, applied on the 3D surface topography, is proposed. The results obtained with this method are confronted to those of the MRI. The influence of posture on breast volume is also examined from the two different modalities. To achieve these objectives, a cohort of 30 scoliotic patients was enrolled on the basis of their thoracic curvature and their bone and breast maturity. Two torso imaging were performed: 3D surface topography and MRI. Initially, the sommation of segmented images acquired by MRI enabled us to measure very precisely breast volume. The statistically significant mean breast asymmetry was found to be 8.32%. 66.6% of the patients presented an asymmetry ≥ 5%. A weak positive non-significant correlation exists between breast volumes and Cobb angle as well as thoracic gibbosity. Thereafter, an automated measuring method, developed from the numeric environment Matlab, is applied directly on the 3D reconstructions. In short, it consists in identifying the breasts contours to excise them in order to expose the rib cage, then subtracting from the complete thorax, the thorax without breasts to determine the breast volumes. The breast volumes acquired by the automated method are, as expected, smaller than those obtained with MRI. A strong correlation is established between breast volumes obtained from the two different techniques. Although statistically significant, breast asymmetries (r= 0.614, p< .001) are not as strongly correlated therebetween as are breast volumes. The right breast (r=0.805) presents a higher correlation than the left breast (r=0.747). Finally, the influence of posture is studied from the meshes obtained from MRI (prone) and 3D surface topography (standing position). Excellent correlations are confirmed between breast volumes; r= 0.896 and r= 0.939, respectively for the left and right breast volumes. This project enabled us to demonstrate, for the first time, that it is possible to measure breast volume objectively and accurately in a cohort of scoliotic patients. As a result of the anatomic landmarks precision, the MRI allowed us to revisit a common belief in the scoliosis community, which states that breast asymmetry expressed by patients, is in fact a perception. These new data will help us counsel our young girls with AIS, regarding their concerns with the asymmetry of their breasts. We have confirmed that the automated measuring method is clinically feasible and could be used to predict MRI volumes. Furthermore, it is the first breast volumetric measuring tool completely automatic, to our knowledge. Also, the breast volumes obtained in standing and in prone are comparable.

Adolescence

Asymétrie mammaire

Mesure

Seins

Scoliose

Scoliose idiopathique de l'adolescence

Topographie surfacique

Tridimensionnelle

Volume

Adolescence

Adolescent idiopathic scoliosis

Breast

Breast asymmetry

Magnetic resonance imaging (MRI)

Measure

Scoliosis

Surface topography

Three-dimensional (3D)

Volume