Development of methods for extraction, comparison and analysis of intrinsic features of medical images, aiming at perceptual content-based retrieval

A possibilidade de recuperar e comparar imagens usando as suas características visuais intrínsecas é um recurso valioso para responder a consultas por similaridade em imagens médicas. Desse modo, a agregação desses recursos aos Sistemas de Arquivamento e Comunicação de Imagens (Picture Archiving and Communication Systems - PACS) vêm potencializar a utilidade e importância destes no contexto de atividades tais como ensino e treinamento de novos radiologistas, estudos de casos e auxílio ao diagnóstico de forma geral, uma vez que as consultas por similaridade permitem que casos parecidos possam ser facilmente recuperados. O trabalho apresentado nesta tese possui duas vertentes. Primeiro, ele apresenta novos métodos de extração e de características, com o objetivo de obter a essência das imagens, considerando um critério específico. Os atributos obtidos pelos algoritmos de extração são armazenados em vetores de características para posteriormente serem utilizados para indexar e recuperar as imagens baseando-se em seu conteúdo, para responder a consultas por similaridade. Há uma relação próxima entre os vetores de características e as funções de distância utilizadas para compará-los. Assim, a segunda parte deste trabalho trata da proposta, análise e comparação de novas famílias de funções de distância. As funções de distância propostas têm por objetivo tratar o problema do gap semântico, o qual representa o principal obstáculo das funções de distância tradicionais, derivadas da família Lp, quando processam consultas por similaridade. As principais contribuições desta tese incluem o desenvolvimento de novos métodos de extração e comparação de características de imagens, que operam sobre os três principais descritores de baixo nível de imagens: distribuição de cor, textura e forma. Os experimentos realizados mostraram que os ganhos em precisão são maiores para os métodos propostos, quando comparados com algoritmos tradicionais. No que diz respeito às famílias de funções de distância propostas (WAID e SAID), pelos resultados iniciais obtidos, podemos afirmar que eles são bastante promissores no sentido de se aproximarem da expectativa do usuário, no momento de comparar imagens. Os resultados obtidos com esse trabalho podem ser futuramente integrados aos PACS. Particularmente, pretendemos acrescentar novos algoritmos e métodos ao cbPACS, que consiste em um sistema PACS em construção, desenvolvido em uma colaboração entre o Grupo de Bases de Dados e Imagens (GBDI) do Instituto de Ciências Matemáticas e de Computação - USP e o Centro de Ciências da Imagens e Física Médica (CCIFM) da Faculdade de Medicina de Ribeirão Preto - USPThe ability of retrieving and comparing images using their inherent pictorial information is a valuable asset to answer similarity queries over medical images. Thus, having such resources added in Picture Archiving and Communication Systems (PACS) increase their applicability and importance in the context of teaching and training new radiologists on diagnosing, since that similar cases can be easily retrieved. Similarity queries also play an important role on gathering close images, what allows to perform case studies, as well as to aid on diagnosing. The work presented in this thesis is twofold. First, it presents new feature extraction techniques, which aim at obtaining the essence of the images regarding a given criteria. The features obtained by the algorithms are stored in feature vectors and employed to index and retrieve the images by content, in order to answer similarity queries. There is a close relationship among feature vectors and the distance function employed to compare them. Thus, the second, part of this work concerns the comparison, analysis and proposal of new families of distance functions to compare the features extracted from the images. The distance functions proposed intend to deal with the semantic gap problem, which is the main drawback of the traditional distance functions derived from the Lp metrics when processing similarity queries. The main contributions of this thesis include the development of new image feature extractors that works on the three aspects of raw image data (color distribution, texture and shape). The experiments have shown that the gain in precision are higher for all the feature extractors proposed, when comparing with the state-of-the-art algorithms. Regarding the two families of distance functions WAID and SAID proposed, by the initial experiments performed we can claim that they are very promising on preserving the user expectation when comparing images. The results provided by this work can be straightforwardly integrated to PACS. Particularly, we intend to add the new algorithms and methods to cbPACS, which is under joined development between the Image Data Base Group of Instituto de CiLncias Matemáticas e de Computaçno of USP and Centro de CiLncias de Imagens e Física Médica of Faculdade de Medicina de Ribeirno Preto of US

Development of methods for extraction, comparison and analysis of intrinsic features of medical images, aiming at perceptual content-based retrieval

A possibilidade de recuperar e comparar imagens usando as suas características visuais intrínsecas é um recurso valioso para responder a consultas por similaridade em imagens médicas. Desse modo, a agregação desses recursos aos Sistemas de Arquivamento e Comunicação de Imagens (Picture Archiving and Communication Systems - PACS) vêm potencializar a utilidade e importância destes no contexto de atividades tais como ensino e treinamento de novos radiologistas, estudos de casos e auxílio ao diagnóstico de forma geral, uma vez que as consultas por similaridade permitem que casos parecidos possam ser facilmente recuperados. O trabalho apresentado nesta tese possui duas vertentes. Primeiro, ele apresenta novos métodos de extração e de características, com o objetivo de obter a essência das imagens, considerando um critério específico. Os atributos obtidos pelos algoritmos de extração são armazenados em vetores de características para posteriormente serem utilizados para indexar e recuperar as imagens baseando-se em seu conteúdo, para responder a consultas por similaridade. Há uma relação próxima entre os vetores de características e as funções de distância utilizadas para compará-los. Assim, a segunda parte deste trabalho trata da proposta, análise e comparação de novas famílias de funções de distância. As funções de distância propostas têm por objetivo tratar o problema do gap semântico, o qual representa o principal obstáculo das funções de distância tradicionais, derivadas da família Lp, quando processam consultas por similaridade. As principais contribuições desta tese incluem o desenvolvimento de novos métodos de extração e comparação de características de imagens, que operam sobre os três principais descritores de baixo nível de imagens: distribuição de cor, textura e forma. Os experimentos realizados mostraram que os ganhos em precisão são maiores para os métodos propostos, quando comparados com algoritmos tradicionais. No que diz respeito às famílias de funções de distância propostas (WAID e SAID), pelos resultados iniciais obtidos, podemos afirmar que eles são bastante promissores no sentido de se aproximarem da expectativa do usuário, no momento de comparar imagens. Os resultados obtidos com esse trabalho podem ser futuramente integrados aos PACS. Particularmente, pretendemos acrescentar novos algoritmos e métodos ao cbPACS, que consiste em um sistema PACS em construção, desenvolvido em uma colaboração entre o Grupo de Bases de Dados e Imagens (GBDI) do Instituto de Ciências Matemáticas e de Computação - USP e o Centro de Ciências da Imagens e Física Médica (CCIFM) da Faculdade de Medicina de Ribeirão Preto - USPThe ability of retrieving and comparing images using their inherent pictorial information is a valuable asset to answer similarity queries over medical images. Thus, having such resources added in Picture Archiving and Communication Systems (PACS) increase their applicability and importance in the context of teaching and training new radiologists on diagnosing, since that similar cases can be easily retrieved. Similarity queries also play an important role on gathering close images, what allows to perform case studies, as well as to aid on diagnosing. The work presented in this thesis is twofold. First, it presents new feature extraction techniques, which aim at obtaining the essence of the images regarding a given criteria. The features obtained by the algorithms are stored in feature vectors and employed to index and retrieve the images by content, in order to answer similarity queries. There is a close relationship among feature vectors and the distance function employed to compare them. Thus, the second, part of this work concerns the comparison, analysis and proposal of new families of distance functions to compare the features extracted from the images. The distance functions proposed intend to deal with the semantic gap problem, which is the main drawback of the traditional distance functions derived from the Lp metrics when processing similarity queries. The main contributions of this thesis include the development of new image feature extractors that works on the three aspects of raw image data (color distribution, texture and shape). The experiments have shown that the gain in precision are higher for all the feature extractors proposed, when comparing with the state-of-the-art algorithms. Regarding the two families of distance functions WAID and SAID proposed, by the initial experiments performed we can claim that they are very promising on preserving the user expectation when comparing images. The results provided by this work can be straightforwardly integrated to PACS. Particularly, we intend to add the new algorithms and methods to cbPACS, which is under joined development between the Image Data Base Group of Instituto de CiLncias Matemáticas e de Computaçno of USP and Centro de CiLncias de Imagens e Física Médica of Faculdade de Medicina de Ribeirno Preto of US

Computational framework to support integration of biomolecular and clinical data within a translational approach

Background The use of the knowledge produced by sciences to promote human health is the main goal of translational medicine. To make it feasible we need computational methods to handle the large amount of information that arises from bench to bedside and to deal with its heterogeneity. A computational challenge that must be faced is to promote the integration of clinical, socio-demographic and biological data. In this effort, ontologies play an essential role as a powerful artifact for knowledge representation. Chado is a modular ontology-oriented database model that gained popularity due to its robustness and flexibility as a generic platform to store biological data; however it lacks supporting representation of clinical and socio-demographic information. Results We have implemented an extension of Chado – the Clinical Module - to allow the representation of this kind of information. Our approach consists of a framework for data integration through the use of a common reference ontology. The design of this framework has four levels: data level, to store the data; semantic level, to integrate and standardize the data by the use of ontologies; application level, to manage clinical databases, ontologies and data integration process; and web interface level, to allow interaction between the user and the system. The clinical module was built based on the Entity-Attribute-Value (EAV) model. We also proposed a methodology to migrate data from legacy clinical databases to the integrative framework. A Chado instance was initialized using a relational database management system. The Clinical Module was implemented and the framework was loaded using data from a factual clinical research database. Clinical and demographic data as well as biomaterial data were obtained from patients with tumors of head and neck. We implemented the IPTrans tool that is a complete environment for data migration, which comprises: the construction of a model to describe the legacy clinical data, based on an ontology; the Extraction, Transformation and Load (ETL) process to extract the data from the source clinical database and load it in the Clinical Module of Chado; the development of a web tool and a Bridge Layer to adapt the web tool to Chado, as well as other applications. Conclusions Open-source computational solutions currently available for translational science does not have a model to represent biomolecular information and also are not integrated with the existing bioinformatics tools. On the other hand, existing genomic data models do not represent clinical patient data. A framework was developed to support translational research by integrating biomolecular information coming from different “omics” technologies with patient’s clinical and socio-demographic data. This framework should present some features: flexibility, compression and robustness. The experiments accomplished from a use case demonstrated that the proposed system meets requirements of flexibility and robustness, leading to the desired integration. The Clinical Module can be accessed in http://dcm.ffclrp.usp.br/caib/pg=iptrans webcite

A New Family of Distance Functions for Perceptual Similarity Retrieval of Medical Images

A long-standing challenge of content-based image retrieval (CBIR) systems is the definition of a suitable distance function to measure the similarity between images in an application context which complies with the human perception of similarity. In this paper, we present a new family of distance functions, called attribute concurrence influence distances (AID), which serve to retrieve images by similarity. These distances address an important aspect of the psychophysical notion of similarity in comparisons of images: the effect of concurrent variations in the values of different image attributes. The AID functions allow for comparisons of feature vectors by choosing one of two parameterized expressions: one targeting weak attribute concurrence influence and the other for strong concurrence influence. This paper presents the mathematical definition and implementation of the AID family for a two-dimensional feature space and its extension to any dimension. The composition of the AID family with Lp distance family is considered to propose a procedure to determine the best distance for a specific application. Experimental results involving several sets of medical images demonstrate that, taking as reference the perception of the specialist in the field (radiologist), the AID functions perform better than the general distance functions commonly used in CBIR