7 research outputs found
Anotación Automática de Imágenes Médicas Usando la Representación de Bolsa de Características
La anotación automática de imágenes médicas se ha convertido en un proceso necesario para la gestión, búsqueda y exploración de las crecientes bases de datos médicas para apoyo al diagnóstico y análisis de imágenes en investigación biomédica. La anotación automática consiste en asignar conceptos de alto nivel a imágenes a partir de las características visuales de bajo nivel. Para esto se busca tener una representación de la imagen que caracterice el contenido visual de ésta y un modelo de aprendizaje entrenado con ejemplos de imágenes anotadas. Este trabajo propone explorar la Bolsa de Características (BdC) para la representación de las imágenes de histología y los Métodos de Kernel (MK) como modelos de aprendizaje de máquina para la anotación automática. Adicionalmente se exploró una metodología de análisis de colecciones de imágenes para encontrar patrones visuales y sus relaciones con los conceptos semánticos usando Análisis de Información Mutua, Selección de Características con Máxima-Relevancia y Mínima-Redundancia (mRMR) y Análisis de Biclustering. La metodología propuesta fue evaluada en dos bases de datos de imágenes, una con imá- genes anotadas con los cuatro tejidos fundamentales y otra con imágenes de tipo de cáncer de piel conocido como carcinoma basocelular. Los resultados en análisis de imágenes revelan que es posible encontrar patrones implícitos en colecciones de imágenes a partir de la representación BdC seleccionan- do las palabras visuales relevantes de la colección y asociándolas a conceptos semánticos mientras que el análisis de biclustering permitió encontrar algunos grupos de imágenes similares que comparten palabras visuales asociadas al tipo de tinción o conceptos. En anotación automática se evaluaron distintas configuraciones del enfoque BdC. Los mejores resultados obtenidos presentan una Precisión de 91 % y un Recall de 88 % en las imágenes de histología, y una Precisión de 59 % y un Recall de 23 % en las imágenes de histopatología. La configuración de la metodología BdC con los mejores resultados en ambas colecciones fue obtenida usando las palabras visuales basadas en DCT con un diccionario de tamaño 1,000 con un kernel Gaussiano. / Abstract. The automatic annotation of medical images has become a necessary process for managing, searching and exploration of growing medical image databases for diagnostic support and image analysis in biomedical research. The automatic annotation is to assign high-level concepts to images from the low-level visual features. For this, is needed to have a image representation that characterizes its visual content and a learning model trained with examples of annotated images. This paper aims to explore the Bag of Features (BOF) for the representation of histology images and Kernel Methods (KM) as models of machine learning for automatic annotation. Additionally, we explored a methodology for image collection analysis in order to _nd visual patterns and their relationships with semantic concepts using Mutual Information Analysis, Features Selection with Max-Relevance and Min- Redundancy (mRMR) and Biclustering Analysis. The proposed methodology was evaluated in two image databases, the _rst have images annotated with the four fundamental tissues, and the second have images of a type of skin cancer known as Basal-cell carcinoma. The image analysis results show that it is possible to _nd implicit patterns in image collections from the BOF representation. This by selecting the relevant visual words in the collection and associating them with semantic concepts, whereas biclustering analysis allowed to _nd groups of similar images that share visual words associated with the type of stain or concepts. The Automatic annotation was evaluated in di_erent settings of BOF approach. The best results have a Precision of 91% and Recall of 88% in the histology images, and a Precision of 59% and Recall of 23% in histopathology images. The con_guration of BOF methodology with the best results in both datasets was obtained using the DCT-based visual words in a dictionary size of 1; 000 with a Gaussian kernel.Maestrí
Implementing decision tree-based algorithms in medical diagnostic decision support systems
As a branch of healthcare, medical diagnosis can be defined as finding the disease based on the signs and symptoms of the patient. To this end, the required information is gathered from different sources like physical examination, medical history and general information of the patient. Development of smart classification models for medical diagnosis is of great interest amongst the researchers. This is mainly owing to the fact that the machine learning and data mining algorithms are capable of detecting the hidden trends between features of a database. Hence, classifying the medical datasets using smart techniques paves the way to design more efficient medical diagnostic decision support systems.
Several databases have been provided in the literature to investigate different aspects of diseases. As an alternative to the available diagnosis tools/methods, this research involves machine learning algorithms called Classification and Regression Tree (CART), Random Forest (RF) and Extremely Randomized Trees or Extra Trees (ET) for the development of classification models that can be implemented in computer-aided diagnosis systems. As a decision tree (DT), CART is fast to create, and it applies to both the quantitative and qualitative data. For classification problems, RF and ET employ a number of weak learners like CART to develop models for classification tasks.
We employed Wisconsin Breast Cancer Database (WBCD), Z-Alizadeh Sani dataset for coronary artery disease (CAD) and the databanks gathered in Ghaem Hospital’s dermatology clinic for the response of patients having common and/or plantar warts to the cryotherapy and/or immunotherapy methods. To classify the breast cancer type based on the WBCD, the RF and ET methods were employed. It was found that the developed RF and ET models forecast the WBCD type with 100% accuracy in all cases. To choose the proper treatment approach for warts as well as the CAD diagnosis, the CART methodology was employed. The findings of the error analysis revealed that the proposed CART models for the applications of interest attain the highest precision and no literature model can rival it. The outcome of this study supports the idea that methods like CART, RF and ET not only improve the diagnosis precision, but also reduce the time and expense needed to reach a diagnosis. However, since these strategies are highly sensitive to the quality and quantity of the introduced data, more extensive databases with a greater number of independent parameters might be required for further practical implications of the developed models
Recuperação de informação multimodal em repositórios de imagem médica
The proliferation of digital medical imaging modalities in hospitals and other
diagnostic facilities has created huge repositories of valuable data, often
not fully explored. Moreover, the past few years show a growing trend
of data production. As such, studying new ways to index, process and
retrieve medical images becomes an important subject to be addressed by
the wider community of radiologists, scientists and engineers. Content-based
image retrieval, which encompasses various methods, can exploit the visual
information of a medical imaging archive, and is known to be beneficial to
practitioners and researchers. However, the integration of the latest systems
for medical image retrieval into clinical workflows is still rare, and their
effectiveness still show room for improvement.
This thesis proposes solutions and methods for multimodal information
retrieval, in the context of medical imaging repositories. The major
contributions are a search engine for medical imaging studies supporting
multimodal queries in an extensible archive; a framework for automated
labeling of medical images for content discovery; and an assessment and
proposal of feature learning techniques for concept detection from medical
images, exhibiting greater potential than feature extraction algorithms that
were pertinently used in similar tasks. These contributions, each in their
own dimension, seek to narrow the scientific and technical gap towards
the development and adoption of novel multimodal medical image retrieval
systems, to ultimately become part of the workflows of medical practitioners,
teachers, and researchers in healthcare.A proliferação de modalidades de imagem médica digital, em hospitais,
clínicas e outros centros de diagnóstico, levou à criação de enormes
repositórios de dados, frequentemente não explorados na sua totalidade.
Além disso, os últimos anos revelam, claramente, uma tendência para o
crescimento da produção de dados. Portanto, torna-se importante estudar
novas maneiras de indexar, processar e recuperar imagens médicas, por
parte da comunidade alargada de radiologistas, cientistas e engenheiros. A
recuperação de imagens baseada em conteúdo, que envolve uma grande
variedade de métodos, permite a exploração da informação visual num
arquivo de imagem médica, o que traz benefícios para os médicos e
investigadores. Contudo, a integração destas soluções nos fluxos de trabalho
é ainda rara e a eficácia dos mais recentes sistemas de recuperação de
imagem médica pode ser melhorada.
A presente tese propõe soluções e métodos para recuperação de informação
multimodal, no contexto de repositórios de imagem médica. As contribuições
principais são as seguintes: um motor de pesquisa para estudos de imagem
médica com suporte a pesquisas multimodais num arquivo extensível; uma
estrutura para a anotação automática de imagens; e uma avaliação e
proposta de técnicas de representation learning para deteção automática de
conceitos em imagens médicas, exibindo maior potencial do que as técnicas
de extração de features visuais outrora pertinentes em tarefas semelhantes.
Estas contribuições procuram reduzir as dificuldades técnicas e científicas
para o desenvolvimento e adoção de sistemas modernos de recuperação de
imagem médica multimodal, de modo a que estes façam finalmente parte
das ferramentas típicas dos profissionais, professores e investigadores da área
da saúde.Programa Doutoral em Informátic
Bibliometric Studies and Worldwide Research Trends on Global Health
Global health, conceived as a discipline, aims to train, research and respond to problems of a transboundary nature, in order to improve health and health equity at the global level. The current worldwide situation is ruled by globalization, and therefore the concept of global health involves not only health-related issues, but also those related to the environment and climate change. Therefore, in this Special Issue, the problems related to global health have been addressed from a bibliometric approach in four main areas: environmental issues, diseases, health, education and society