1.Identification of masses in digital mammogram using gray level co-occurrence matrices
A Mohd. Khuzi ; R Besar ; WMD Wan Zaki ; NN Ahmad
Biomedical Imaging and Intervention Journal 2009;5(3):1-13
Digital mammogram has become the most effective technique for early breast cancer detection modality. Digital
mammogram takes an electronic image of the breast and stores it directly in a computer. The aim of this study is to develop an automated system for assisting the analysis of digital mammograms. Computer image processing techniques
will be applied to enhance images and this is followed by segmentation of the region of interest (ROI). Subsequently, the textural features will be extracted from the ROI. The texture features will be used to classify the ROIs as either masses or non-masses. In this study normal breast images and breast image with masses used as the standard input to the proposed system are taken from Mammographic Image Analysis Society (MIAS) digital mammogram database. In MIAS database, masses are grouped into either spiculated, circumscribed or ill-defined. Additional information includes
location of masses centres and radius of masses. The extraction of the textural features of ROIs is done by using gray level co-occurrence matrices (GLCM) which is constructed at four different directions for each ROI. The results show that the GLCM at 0º, 45º, 90º and 135º with a block size of 8X8 give significant texture information to identify between masses and non-masses tissues. Analysis of GLCM properties i.e. contrast, energy and homogeneity resulted in receiver operating characteristics (ROC) curve area of Az = 0.84 for Otsu’s method, 0.82 for thresholding method and Az = 0.7 for K-mean clustering. ROC curve area of 0.8-0.9 is rated as good results. The authors’ proposed method contains no complicated algorithm. The detection is based on a decision tree with five criterions to be analysed. This simplicity leads to less computational time. Thus, this approach is suitable for automated real-time breast cancer diagnosis system
2.From ultrasound images to block based region motion estimation
SSS Ranjit ; KS Sim ; R Besar ; CP Tso
Biomedical Imaging and Intervention Journal 2009;5(3):1-5
By applying a hexagon-diamond search (HDS) method to an ultrasound image, the path of an object is able to be
monitored by extracting images into macro-blocks, thereby achieving image redundancy is reduced from one frame to
another, and also ascertaining the motion vector within the parameters searched. The HDS algorithm uses six search
points to form the six sides of the hexagon pattern, a centre point, and a further four search points to create diamond pattern within the hexagon that clarifies the focus of the subject area.
3.Cytotoxicity and scanning electron microscopy study of gentamycin-coated HA effect on biofilm.
Au LF ; Othman F ; Mustaffa R ; Vidyadaran S ; Rahmat A ; Besar I ; Akim AM ; Khan MA ; Saidi M ; Shamsudin MN ; Froemming GA ; Ishak AK
The Medical Journal of Malaysia 2008;63 Suppl A():16-17
Biofilms are adherent, multi-layered colonies of bacteria that are typically more resistant to the host immune response and routine antibiotic therapy. HA biomaterial comprises of a single-phased hydroxyapatite scaffold with interconnected pore structure. The device is designed as osteoconductive space filler to be gently packed into bony voids or gaps following tooth extraction or any surgical procedure. Gentamycin-coated biomaterial (locally made hydroxyapatite) was evaluated to reduce or eradicate the biofilm on the implant materials. The results indicated that the HA coated with gentamycin was biocompatible to human osteoblast cell line and the biofilm has been reduced after being treated with different concentrations of gentamycin-coated hydroxyapatite (HA).