893 resultados para fractal sets
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Peer reviewed
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Peer reviewed
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Peer reviewed
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Peer reviewed
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This project was supported by the National Natural Science Foundation of China (No. 41572116), the Fundamental Research Funds for the Central Universities, China University of Geosciences, Wuhan) (No. CUG160602).
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This work was supported by the Spanish Ministry for Economy and Competitiveness (grant TIN2014-56633-C3-1-R) and by the European Regional Development Fund (ERDF/FEDER) and the Galician Ministry of Education (grants GRC2014/030 and CN2012/151). Alejandro Ramos-Soto is supported by the Spanish Ministry for Economy and Competitiveness (FPI Fellowship Program) under grant BES-2012-051878.
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Inscriptions: Verso: [stamped] Photograph by Freda Leinwand. [463 West Street, Studio 229G, New York, NY 10014].
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Introdução: A complexidade da utilização da CIF devido ao elevado número de categorias levou à necessidade de desenvolver Core Sets de forma a identificar e agrupar os principais problemas dos indivíduos para as diferentes condições de saúde. Contudo, mostra-se necessário comparar estes Core Sets iniciais com a perspetiva dos indivíduos em diferentes países, para uma melhor utilização deste instrumento na prática clínica. Objetivo: Identificar os principais problemas percecionados pelos indivíduos com AR em Portugal e verificar se estes se encontram contemplados nos comprehensive e brief Core Sets da CIF para a mesma condição. Metodologia: Esta investigação consiste num estudo qualitativo com uma amostra de conveniência com indivíduos com AR. Para a recolha de dados foram utilizadas entrevistas individuais gravadas sobre a forma de áudio, sendo o procedimento do estudo baseado no protocolo de Coenen M., (2008). Resultados: O estudo inclui 20 indivíduos com uma média de idade de 61,35 (±10,5) anos, sendo que 95% pertenciam ao género feminino e 5% ao género masculino. Das 99 categorias identificadas, 41 (42,71%) encontram-se presentes nas 96 categorias do comprehensive Core Sets da CIF e 31 (79,49%) nas 39 categorias dos brief Core Sets da CIF. Conclusões: O presente estudo conclui que embora os Core Sets da CIF para a AR sejam específicos para os indivíduos com esta condição, quando comparados com a população portuguesa, estes não apresentam vários problemas identificados por estes indivíduos. Para além disso, estes Core Sets da CIF contêm problemas que não foram relatados por esta população.
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Introdução: A CIF foi considerada, por alguns clínicos, como não sendo totalmente viável para a aplicação na rotina clínica, já que este sistema de classificação contém mais de 1400 categorias. Posto isto, o processo de desenvolvimento de Core Sets da CIF tem sido priorizado pela OMS, tornando a CIF acessível para a avaliação das cs específicas. Estes pretendem orientar uma avaliação multidisciplinar abrangente, incluindo as categorias da CIF para descrever, de uma forma suficiente, a funcionalidade e incapacidade dos indivíduos. Contudo, podem existir divergências entre a perspetiva de crianças e jovens portugueses com PC e cuidadores sobre a sua cs e os core sets da CIF estabelecidos para a mesma. Objetivo: Identificar os problemas percecionados pelas crianças e jovens com paralisia cerebral e pelos cuidadores em Portugal e analisar em que medida estes aspetos são representados pela versão atual do Comprehensive Core Set da CIF para esta cs. Metodologia: Este estudo é qualitativo, tendo-se utilizado uma amostra conveniente de crianças/jovens com PC e cuidadores. Todos os dados foram recolhidos por meio de entrevistas e posteriormente analisados segundo o protocolo de Coenen. Foi efetuado o linking dos conceitos obtidos das entrevistas para as categorias da CIF, tendo sido comparadas com os Core Sets da CIF para esta condição. Resultados: Este estudo tem uma amostra de 48 indivíduos, sendo que 28 eram crianças e jovens com PC e os restantes 20 eram cuidadores. A média de idades das crianças/jovens incluídos foi 13,04 (±3,26), sendo que a idade mínima incluída foi 8 anos e a idade máxima, 18 anos. A média de idades dos cuidadores incluídos foi de 35,20 (±8,01) anos, sendo que a idade mínima incluída foi 22 anos e a idade máxima 55 anos. Das 256 categorias identificadas, 101 estão contempladas nas categorias dos Comprehensive Core Set da CIF. Estas encontram-se presentes em 58 categorias de 2º nível dos Comprehensive Core Set de um total de 135, correspondendo a 43% dos mesmos. Conclusões: Tendo em conta os resultados obtidos, podemos concluir que os Comprehensive Core Set da CIF para a PC contemplam a grande maioria dos problemas percecionados pela população-alvo, ainda que integre várias categorias que não foram relevantes para esta população em estudo.
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Introdução: Na prática diária, os clínicos necessitam apenas de uma fração das categorias encontradas na CIF. No conflito entre a generalização e a necessidade de captar detalhes, a CIF deve ser adaptada às perspetivas e necessidades de diferentes utilizadores. Esta necessidade surge como a principal motivação por detrás do projeto dos Core Sets, que tem como objetivo extrair uma seleção de categorias de toda a classificação que são relevantes para condições específicas de saúde. Após o desenvolvimento da primeira versão dos Core Sets da CIF para a OA, os autores realçaram a importância desta ser testada sob a perspetiva de diferentes profissionais, em diferentes países e ainda segundo a perspetiva dos indivíduos. Objetivos: Identificar os problemas percecionados pelos indivíduos com OA, da região centro de Portugal e verificar em que medida estes aspetos se encontram compreendidos no Comprehensive e Brief Core Set da CIF, para esta condição de saúde. Metodologia: Foi realizado um estudo qualitativo, recorrendo a uma amostra de conveniência, indivíduos com OA no joelho e/ou anca. A recolha de dados consistiu em entrevistas individuais, e o seu processamento foi efetuado segundo o protocolo de Coenen (2008). Resultados: Foram incluídos 20 indivíduos, perfazendo uma média de idades de 69,65 (±9,8) anos, dos quais 9 são mulheres e 11 homens. Foram identificadas 34 das 55 categorias contempladas no Comprehensive Core Set da CIF e 9 das 12 categorias do Brief Core Set da CIF, 61,82% e 75%, respetivamente. Conclusões: Tendo em conta os resultados, conclui-se que os Comprehensive e Brief Core Sets da CIF para a OA abrangem a perspetiva da população portuguesa, contudo não contemplam alguns dos problemas percecionados pelos indivíduos. Além disso, ainda se verifica que integra algumas categorias não relevantes para esta população.
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Abstract
The goal of modern radiotherapy is to precisely deliver a prescribed radiation dose to delineated target volumes that contain a significant amount of tumor cells while sparing the surrounding healthy tissues/organs. Precise delineation of treatment and avoidance volumes is the key for the precision radiation therapy. In recent years, considerable clinical and research efforts have been devoted to integrate MRI into radiotherapy workflow motivated by the superior soft tissue contrast and functional imaging possibility. Dynamic contrast-enhanced MRI (DCE-MRI) is a noninvasive technique that measures properties of tissue microvasculature. Its sensitivity to radiation-induced vascular pharmacokinetic (PK) changes has been preliminary demonstrated. In spite of its great potential, two major challenges have limited DCE-MRI’s clinical application in radiotherapy assessment: the technical limitations of accurate DCE-MRI imaging implementation and the need of novel DCE-MRI data analysis methods for richer functional heterogeneity information.
This study aims at improving current DCE-MRI techniques and developing new DCE-MRI analysis methods for particular radiotherapy assessment. Thus, the study is naturally divided into two parts. The first part focuses on DCE-MRI temporal resolution as one of the key DCE-MRI technical factors, and some improvements regarding DCE-MRI temporal resolution are proposed; the second part explores the potential value of image heterogeneity analysis and multiple PK model combination for therapeutic response assessment, and several novel DCE-MRI data analysis methods are developed.
I. Improvement of DCE-MRI temporal resolution. First, the feasibility of improving DCE-MRI temporal resolution via image undersampling was studied. Specifically, a novel MR image iterative reconstruction algorithm was studied for DCE-MRI reconstruction. This algorithm was built on the recently developed compress sensing (CS) theory. By utilizing a limited k-space acquisition with shorter imaging time, images can be reconstructed in an iterative fashion under the regularization of a newly proposed total generalized variation (TGV) penalty term. In the retrospective study of brain radiosurgery patient DCE-MRI scans under IRB-approval, the clinically obtained image data was selected as reference data, and the simulated accelerated k-space acquisition was generated via undersampling the reference image full k-space with designed sampling grids. Two undersampling strategies were proposed: 1) a radial multi-ray grid with a special angular distribution was adopted to sample each slice of the full k-space; 2) a Cartesian random sampling grid series with spatiotemporal constraints from adjacent frames was adopted to sample the dynamic k-space series at a slice location. Two sets of PK parameters’ maps were generated from the undersampled data and from the fully-sampled data, respectively. Multiple quantitative measurements and statistical studies were performed to evaluate the accuracy of PK maps generated from the undersampled data in reference to the PK maps generated from the fully-sampled data. Results showed that at a simulated acceleration factor of four, PK maps could be faithfully calculated from the DCE images that were reconstructed using undersampled data, and no statistically significant differences were found between the regional PK mean values from undersampled and fully-sampled data sets. DCE-MRI acceleration using the investigated image reconstruction method has been suggested as feasible and promising.
Second, for high temporal resolution DCE-MRI, a new PK model fitting method was developed to solve PK parameters for better calculation accuracy and efficiency. This method is based on a derivative-based deformation of the commonly used Tofts PK model, which is presented as an integrative expression. This method also includes an advanced Kolmogorov-Zurbenko (KZ) filter to remove the potential noise effect in data and solve the PK parameter as a linear problem in matrix format. In the computer simulation study, PK parameters representing typical intracranial values were selected as references to simulated DCE-MRI data for different temporal resolution and different data noise level. Results showed that at both high temporal resolutions (<1s) and clinically feasible temporal resolution (~5s), this new method was able to calculate PK parameters more accurate than the current calculation methods at clinically relevant noise levels; at high temporal resolutions, the calculation efficiency of this new method was superior to current methods in an order of 102. In a retrospective of clinical brain DCE-MRI scans, the PK maps derived from the proposed method were comparable with the results from current methods. Based on these results, it can be concluded that this new method can be used for accurate and efficient PK model fitting for high temporal resolution DCE-MRI.
II. Development of DCE-MRI analysis methods for therapeutic response assessment. This part aims at methodology developments in two approaches. The first one is to develop model-free analysis method for DCE-MRI functional heterogeneity evaluation. This approach is inspired by the rationale that radiotherapy-induced functional change could be heterogeneous across the treatment area. The first effort was spent on a translational investigation of classic fractal dimension theory for DCE-MRI therapeutic response assessment. In a small-animal anti-angiogenesis drug therapy experiment, the randomly assigned treatment/control groups received multiple fraction treatments with one pre-treatment and multiple post-treatment high spatiotemporal DCE-MRI scans. In the post-treatment scan two weeks after the start, the investigated Rényi dimensions of the classic PK rate constant map demonstrated significant differences between the treatment and the control groups; when Rényi dimensions were adopted for treatment/control group classification, the achieved accuracy was higher than the accuracy from using conventional PK parameter statistics. Following this pilot work, two novel texture analysis methods were proposed. First, a new technique called Gray Level Local Power Matrix (GLLPM) was developed. It intends to solve the lack of temporal information and poor calculation efficiency of the commonly used Gray Level Co-Occurrence Matrix (GLCOM) techniques. In the same small animal experiment, the dynamic curves of Haralick texture features derived from the GLLPM had an overall better performance than the corresponding curves derived from current GLCOM techniques in treatment/control separation and classification. The second developed method is dynamic Fractal Signature Dissimilarity (FSD) analysis. Inspired by the classic fractal dimension theory, this method measures the dynamics of tumor heterogeneity during the contrast agent uptake in a quantitative fashion on DCE images. In the small animal experiment mentioned before, the selected parameters from dynamic FSD analysis showed significant differences between treatment/control groups as early as after 1 treatment fraction; in contrast, metrics from conventional PK analysis showed significant differences only after 3 treatment fractions. When using dynamic FSD parameters, the treatment/control group classification after 1st treatment fraction was improved than using conventional PK statistics. These results suggest the promising application of this novel method for capturing early therapeutic response.
The second approach of developing novel DCE-MRI methods is to combine PK information from multiple PK models. Currently, the classic Tofts model or its alternative version has been widely adopted for DCE-MRI analysis as a gold-standard approach for therapeutic response assessment. Previously, a shutter-speed (SS) model was proposed to incorporate transcytolemmal water exchange effect into contrast agent concentration quantification. In spite of richer biological assumption, its application in therapeutic response assessment is limited. It might be intriguing to combine the information from the SS model and from the classic Tofts model to explore potential new biological information for treatment assessment. The feasibility of this idea was investigated in the same small animal experiment. The SS model was compared against the Tofts model for therapeutic response assessment using PK parameter regional mean value comparison. Based on the modeled transcytolemmal water exchange rate, a biological subvolume was proposed and was automatically identified using histogram analysis. Within the biological subvolume, the PK rate constant derived from the SS model were proved to be superior to the one from Tofts model in treatment/control separation and classification. Furthermore, novel biomarkers were designed to integrate PK rate constants from these two models. When being evaluated in the biological subvolume, this biomarker was able to reflect significant treatment/control difference in both post-treatment evaluation. These results confirm the potential value of SS model as well as its combination with Tofts model for therapeutic response assessment.
In summary, this study addressed two problems of DCE-MRI application in radiotherapy assessment. In the first part, a method of accelerating DCE-MRI acquisition for better temporal resolution was investigated, and a novel PK model fitting algorithm was proposed for high temporal resolution DCE-MRI. In the second part, two model-free texture analysis methods and a multiple-model analysis method were developed for DCE-MRI therapeutic response assessment. The presented works could benefit the future DCE-MRI routine clinical application in radiotherapy assessment.
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This material is based upon work supported by the National Science Foundation through the Florida Coastal Everglades Long-Term Ecological Research program under Cooperative Agreements #DBI-0620409 and #DEB-9910514. This image is made available for non-commercial or educational use only.
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During the SINOPS project, an optimal state of the art simulation of the marine silicon cycle is attempted employing a biogeochemical ocean general circulation model (BOGCM) through three particular time steps relevant for global (paleo-) climate. In order to tune the model optimally, results of the simulations are compared to a comprehensive data set of 'real' observations. SINOPS' scientific data management ensures that data structure becomes homogeneous throughout the project. Practical work routine comprises systematic progress from data acquisition, through preparation, processing, quality check and archiving, up to the presentation of data to the scientific community. Meta-information and analytical data are mapped by an n-dimensional catalogue in order to itemize the analytical value and to serve as an unambiguous identifier. In practice, data management is carried out by means of the online-accessible information system PANGAEA, which offers a tool set comprising a data warehouse, Graphical Information System (GIS), 2-D plot, cross-section plot, etc. and whose multidimensional data model promotes scientific data mining. Besides scientific and technical aspects, this alliance between scientific project team and data management crew serves to integrate the participants and allows them to gain mutual respect and appreciation.
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Gracias al crecimiento, expansión y popularización de la World Wide Web, su desarrollo tecnológico tiene una creciente importancia en la sociedad. La simbiosis que protagonizan estos dos entornos ha propiciado una mayor influencia social en las innovaciones de la plataforma y un enfoque mucho más práctico. Nuestro objetivo en este artículo es describir, caracterizar y analizar el surgimiento y difusión del nuevo estándar de hipertexto que rige la Web; HTML5. Al mismo tiempo exploramos este proceso a la luz de varias teorías que aúnan tecnología y sociedad. Dedicamos especial atención a los usuarios de la World Wide Web y al uso genérico que realizan de los Medios Sociales o "Social Media". Sugerimos que el desarrollo de los estándares web está influenciado por el uso cotidiano de este nuevo tipo de tecnologías y aplicaciones.
