Histopathological image analysis : a review

Over the past decade, dramatic increases in computational power and improvement in image analysis algorithms have allowed the development of powerful computer-assisted analytical approaches to radiological data. With the recent advent of whole slide digital scanners, tissue histopathology slides can now be digitized and stored in digital image form. Consequently, digitized tissue histopathology has now become amenable to the application of computerized image analysis and machine learning techniques. Analogous to the role of computer-assisted diagnosis (CAD) algorithms in medical imaging to complement the opinion of a radiologist, CAD algorithms have begun to be developed for disease detection, diagnosis, and prognosis prediction to complement the opinion of the pathologist. In this paper, we review the recent state of the art CAD technology for digitized histopathology. This paper also briefly describes the development and application of novel image analysis technology for a few specific histopathology related problems being pursued in the United States and Europe

Pattern Recognition

A wealth of advanced pattern recognition algorithms are emerging from the interdiscipline between technologies of effective visual features and the human-brain cognition process. Effective visual features are made possible through the rapid developments in appropriate sensor equipments, novel filter designs, and viable information processing architectures. While the understanding of human-brain cognition process broadens the way in which the computer can perform pattern recognition tasks. The present book is intended to collect representative researches around the globe focusing on low-level vision, filter design, features and image descriptors, data mining and analysis, and biologically inspired algorithms. The 27 chapters coved in this book disclose recent advances and new ideas in promoting the techniques, technology and applications of pattern recognition

Deep Learning in Medical Image Analysis

The accelerating power of deep learning in diagnosing diseases will empower physicians and speed up decision making in clinical environments. Applications of modern medical instruments and digitalization of medical care have generated enormous amounts of medical images in recent years. In this big data arena, new deep learning methods and computational models for efficient data processing, analysis, and modeling of the generated data are crucially important for clinical applications and understanding the underlying biological process. This book presents and highlights novel algorithms, architectures, techniques, and applications of deep learning for medical image analysis

Histopathological image analysis: a review,”

Abstract-Over the past decade, dramatic increases in computational power and improvement in image analysis algorithms have allowed the development of powerful computer-assisted analytical approaches to radiological data. With the recent advent of whole slide digital scanners, tissue histopathology slides can now be digitized and stored in digital image form. Consequently, digitized tissue histopathology has now become amenable to the application of computerized image analysis and machine learning techniques. Analogous to the role of computer-assisted diagnosis (CAD) algorithms in medical imaging to complement the opinion of a radiologist, CAD algorithms have begun to be developed for disease detection, diagnosis, and prognosis prediction to complement the opinion of the pathologist. In this paper, we review the recent state of the art CAD technology for digitized histopathology. This paper also briefly describes the development and application of novel image analysis technology for a few specific histopathology related problems being pursued in the United States and Europe

A Hybrid Similarity Measure Framework for Multimodal Medical Image Registration

Medical imaging is widely used today to facilitate both disease diagnosis and treatment planning practice, with a key prerequisite being the systematic process of medical image registration (MIR) to align either mono or multimodal images of different anatomical parts of the human body. MIR utilises a similarity measure (SM) to quantify the level of spatial alignment and is particularly demanding due to the presence of inherent modality characteristics like intensity non-uniformities (INU) in magnetic resonance images and large homogeneous non-vascular regions in retinal images. While various intensity and feature-based SMs exist for MIR, mutual information (MI) has become established because of its computational efficiency and ability to register multimodal images. It is however, very sensitive to interpolation artefacts in the presence of INU with noise and can be compromised when overlapping areas are small. Recently MI-based hybrid variants which combine regional features with intensity have emerged, though these incur high dimensionality and large computational overheads. To address these challenges and secure accurate, efficient and robust registration of images containing high INU, noise and large homogeneous regions, this thesis presents a new hybrid SM framework for 2D multimodal rigid MIR. The framework consistently provides superior quantitative and qualitative performance, while offering a uniquely flexible design trade-off between registration accuracy and computational time. It makes three significant technical contributions to the field: i) An expectation maximisation-based principal component analysis with mutual information (EMPCA-MI) framework incorporating neighbourhood feature information; ii) Two innovative enhancements to reduce information redundancy and improve MI computational efficiency; and iii) an adaptive algorithm to select the most significant principal components for feature selection. The thesis findings conclusively confirm the hybrid SM framework offers an accurate and robust 2D registration solution for challenging multimodal medical imaging datasets, while its inherent flexibility means it can also be extended to the 3D registration domain

Image analysis for diagnostic support in biomedicine: neuromuscular diseases and pigmented lesions

Tesis descargada desde TESEOEsta tesis presenta dos sistemas implementados mediante técnicas de procesamiento de imagen, para ayuda al diagnóstico de enfermedades neuromusculares a partir de imágenes de microscopía de fluorescencia y análisis de lesiones pigmentadas a partir de imágenes dermoscópicas. El diagnóstico de enfermedades neuromusculares se basa en la evaluación visual de las biopsias musculares por parte del patólogo especialista, lo que conlleva una carga subjetiva. El primer sistema propuesto en esta tesis analiza objetivamente las biopsias musculares y las clasifica en distrofias, atrofias neurógenas o control (sin enfermedad) a través de imágenes de microscopía de fluorescencia. Su implementación reúne los elementos propios de un sistema de ayuda al diagnóstico asistido por ordenador: segmentación, extracción de características, selección de características y clasificación. El procedimiento comienza con una segmentación precisa de las fibras musculares usando morfología matemática y una transformada Watershed. A continuación, se lleva a cabo un paso de extracción de características, en el cual reside la principal contribución del sistema, ya que no solo se extraen aquellas que los patólogos tienen en cuenta para diagnosticar sino características que se escapan de la visión humana. Estas nuevas características se extraen suponiendo que la estructura de la biopsia se comporta como un grafo, en el que los nodos se corresponden con las fibras musculares, y dos nodos están conectados si dos fibras son adyacentes. Para estudiar la efectividad que estos dos conjuntos presentan en la categorización de las biopsias, se realiza una selección de características y una clasi- ficación empleando una red neuronal Fuzzy ARTMAP. El procedimiento concluye con una estimación de la severidad de las biopsias con patrón distrófico. Esta caracterización se realiza mediante un análisis de componentes principales. Para la validación del sistema se ha empleado una base de datos compuesta por 91 imágenes de biopsias musculares, de las cuales 71 se consideran imágenes de entrenamiento y 20 imágenes de prueba. Se consigue una elevada tasa de aciertos de clasificacion y se llega a la importante conclusión de que las nuevas características estructurales que no pueden ser detectadas por inspección visual mejoran la identificación de biopsias afectadas por atrofia neurógena. La segunda parte de la tesis presenta un sistema de clasificación de lesiones pigmentadas. Primero se propone un algoritmo de segmentación de imágenes en color para ais lar la lesión de la piel circundante. Su desarrollo se centra en conseguir un algoritmo relacionado con las diferencias color percibidas por el ojo humano. Consiguiendo así, no solo un método de segmentación de lesiones pigmentadas sino un algoritmo de segmentación de propósito general. El método de segmentación propuesto se basa en un gradiente para imágenes en color integrado en una técnica de level set para detección de bordes. La elección del gradiente se derivada a partir de un análisis de tres gradientes de color implementados en el espacio de color uniforme CIE L∗a∗b∗ y basados en las ecuaciones de diferencia de color desarrolladas por la comisión internacional de iluminación (CIELAB, CIE94 y CIEDE2000). El principal objetivo de este análisis es estudiar cómo estas ecuaciones afectan en la estimación de los gradientes en términos de correlación con la percepción visual del color. Una técnica de level-set se aplica sobre estos gradientes consiguiendo así un detector de borde que permite evaluar el rendimiento de dichos gradientes. La validación se lleva a cabo sobre una base de datos compuesta por imágenes sintéticas diseñada para tal fin. Se realizaron tanto medidas cuantitativas como cualitativas. Finalmente, se concluye que el detector de bordes basado en la ecuación de diferencias de color CIE94 presenta la mayor correlación con la percepción visual del color. A partir de entonces, la tesis intenta emular el método de análisis de patrones, la técnica de diagnóstico de lesiones pigmentadas de la piel más empleada por los dermatólogos. Este método trata de identificar patrones específicos, pudiendo ser tanto globales como locales. En esta tesis se presenta una amplia revisión de los métodos algorítmicos, publicados en la literatura, que detectan automáticamente dichos patrones a partir de imágenes dermoscópicas de lesiones pigmentadas. Tras esta revisón se advierte que numerosos trabajos se centran en la detección de patrones locales, pero solo unos pocos abordan la detección de patrones globales. El siguiente paso de esta tesis, por tanto, es la propuesta de diferentes métodos de clasi- ficación de patrones globales. El objetivo es identificar tres patrones: reticular, globular y empedrado (considerado un solo patrón) y homogéneo. Los métodos propuestos se basan en un análisis de textura mediante técnicas de modelado. En primer lugar una imagen demoscópica se modela mediante campos aleatorios de Markov, los parámetros estimados de este modelo se consideran características. A su vez, se supone que la distribución de estas características a lo largo de la lesión sigue diferentes modelos: un modelo gaussiano, un modelo de mezcla de gaussianas o un modelo de bolsa de características. La clasificación se lleva a cabo mediante una recuperación de imágenes basada en diferentes métricas de distancia. Para validar los métodos se emplea un conjunto significativo de imágenes dermatológicas, concluyendo que el modelo basado en mezcla de gaussianas proporciona la mejor tasa de clasificación. Además, se incluye una evaluación adicional en la que se clasifican melanomas con patrón multicomponente obteniendo resultados prometedores. Finalmente, se presenta una discusión sobre los hallazgos y conclusiones más relevantes extraídas de esta tesis, así como las líneas futuras que se derivan de este trabajo.Premio Extraordinario de Doctorado U

Lycium barbarum (wolfberry) polysaccharide facilitates ejaculatory behaviour in male rats

Poster Session AOBJECTIVE: Lycium barbarum (wolfberry) is a traditional Chinese medicine, which has been considered to have therapeutic effect on male infertility. However, there is a lack of studies support the claims. We thus investigated the effect of Lycium barbarum polysaccharide (LBP), a major component of wolfberry, on male rat copulatory behavior. METHOD: Sprague-Dawley rats were divided into two groups (n=8 for each group). The first group received oral feeding of LBP at dosage of 1mg/kg daily. The control group received vehicle (0.01M phosphate-buffered saline, served as control) feeding daily for 21 days. Copulatory tests were conducted at 7, 14 and 21 days after initiation of treatment. RESULTS: Compared to control animals, animals fed with 1mg/kg LBP showed improved copulatory behavior in terms of: 1. Higher copulatory efficiency (i.e. higher frequency to show intromission rather than mounting during the test), 2. higher ejaculation frequency and 3. Shorter ejaculation latency. The differences were found at all time points (Analyzed with two-tailed student’s t-test, p<0.05). There is no significant difference found between the two groups in terms of mount/intromission latency, which indicates no difference in time required for initiation of sexual activity. Additionally, no difference in mount frequency and intromission frequency was found. CONCLUSION: The present study provides scientific evidence for the traditional use of Lycium barbarum on male sexual behavior. The result provides basis for further study of wolfberry on sexual functioning and its use as an alternative treatment in reproductive medicine.postprintThe 30th Annual Meeting of the Australian Neuroscience Society, in conjunction with the 50th Anniversary Meeting of the Australian Physiological Society (ANS/AuPS 2010), Sydney, Australia, 31 January-3 February 2010. In Abstract Book of ANS/AuPS, 2010, p. 177, abstract no. POS-TUE-19

Gaze-Based Human-Robot Interaction by the Brunswick Model

We present a new paradigm for human-robot interaction based on social signal processing, and in particular on the Brunswick model. Originally, the Brunswick model copes with face-to-face dyadic interaction, assuming that the interactants are communicating through a continuous exchange of non verbal social signals, in addition to the spoken messages. Social signals have to be interpreted, thanks to a proper recognition phase that considers visual and audio information. The Brunswick model allows to quantitatively evaluate the quality of the interaction using statistical tools which measure how effective is the recognition phase. In this paper we cast this theory when one of the interactants is a robot; in this case, the recognition phase performed by the robot and the human have to be revised w.r.t. the original model. The model is applied to Berrick, a recent open-source low-cost robotic head platform, where the gazing is the social signal to be considered