This thesis developed image processing techniques enabling the detection and segregation of biological three dimensional images into its component features based upon shape and relative size of the features detected. The work used articular cartilage images and separated fibrous components from the cells and background noise. Measurement of individual components and their recombination into a composite image are possible. Developed software was used to analyse the development of hyaline cartilage in developing sheep embryos
A close relationship has been found between the 3D collagen structure and physiological condition of...
Image processing, analysis and rendering techniques have been used to solve two specific problems in...
ObjectiveTo assess the ability of nonlinear optical microscopy (NLOM) to image ex vivo healthy and d...
This thesis works on 3D image analysis for effcient cartilage detection, Rician noise removal, visua...
This thesis is concerned with the development of analysis strategies for microscopic images of colla...
Understanding complex systems within the human body presents a unique challenge for medical engineer...
Osteoarthritis is characterised by functional failure of synovial joints. It is directly related to ...
Summary Objective: The aims of this study were: to 1) develop a novel sample processing protocol to ...
This dissertation illustrates the three-dimensional structure and composition of the most superficia...
High-resolution non-invasive three-dimensional (3D) imaging of chondrocytes in articular cartilage r...
Articular cartilage injuries are debilitating and often lead to osteoarthritis: a foremost cause of ...
Tion of the collagen fibres in the superficial zone, which is align predominantly in a spatial direc...
Tion of the collagen fibres in the superficial zone, which is align predominantly in a spatial direc...
SummaryObjectiveTo assess the ability of nonlinear optical microscopy (NLOM) to image ex vivo health...
Utilising confocal and second harmonic generation microscopy, this PhD project developed a 3D imagin...
A close relationship has been found between the 3D collagen structure and physiological condition of...
Image processing, analysis and rendering techniques have been used to solve two specific problems in...
ObjectiveTo assess the ability of nonlinear optical microscopy (NLOM) to image ex vivo healthy and d...
This thesis works on 3D image analysis for effcient cartilage detection, Rician noise removal, visua...
This thesis is concerned with the development of analysis strategies for microscopic images of colla...
Understanding complex systems within the human body presents a unique challenge for medical engineer...
Osteoarthritis is characterised by functional failure of synovial joints. It is directly related to ...
Summary Objective: The aims of this study were: to 1) develop a novel sample processing protocol to ...
This dissertation illustrates the three-dimensional structure and composition of the most superficia...
High-resolution non-invasive three-dimensional (3D) imaging of chondrocytes in articular cartilage r...
Articular cartilage injuries are debilitating and often lead to osteoarthritis: a foremost cause of ...
Tion of the collagen fibres in the superficial zone, which is align predominantly in a spatial direc...
Tion of the collagen fibres in the superficial zone, which is align predominantly in a spatial direc...
SummaryObjectiveTo assess the ability of nonlinear optical microscopy (NLOM) to image ex vivo health...
Utilising confocal and second harmonic generation microscopy, this PhD project developed a 3D imagin...
A close relationship has been found between the 3D collagen structure and physiological condition of...
Image processing, analysis and rendering techniques have been used to solve two specific problems in...
ObjectiveTo assess the ability of nonlinear optical microscopy (NLOM) to image ex vivo healthy and d...