An approach to analyze the breast tissues in infrared images using nonlinear adaptive level sets and Riesz transform features
| Autor: | S. S. Suganthi, C.M. Sujatha, S. Prabha |
|---|---|
| Rok vydání: | 2015 |
| Předmět: |
Level set method
Computer science Biomedical Engineering Biophysics Wavelet Analysis Health Informatics Bioengineering Breast Neoplasms Similarity measure Signal-To-Noise Ratio Sensitivity and Specificity Biomaterials Signal-to-noise ratio Wavelet Fourier transformation Image Interpretation Computer-Assisted image quality Humans Computer vision Segmentation controlled study diagnostic test accuracy study human Breast automation Ground truth business.industry breast examination signal noise ratio priority journal Feature (computer vision) Thermography Adaptive histogram equalization diagnostic accuracy Female Artificial intelligence breast infrared photography business infrared photography Algorithms Information Systems |
| Zdroj: | Technology and health care : official journal of the European Society for Engineering and Medicine. 23(4) |
| ISSN: | 1878-7401 |
| Popis: | Background: Breast thermography is a potential imaging method for the early detection of breast cancer. The pathological conditions can be determined by measuring temperature variations in the abnormal breast regions. Accurate delineation of breast tissues is reported as a challenging task due to inherent limitations of infrared images such as low contrast, low signal to noise ratio and absence of clear edges. Objective: Segmentation technique is attempted to delineate the breast tissues by detecting proper lower breast boundaries and inframammary folds. Characteristic features are extracted to analyze the asymmetrical thermal variations in normal and abnormal breast tissues. Methods: An automated analysis of thermal variations of breast tissues is attempted using nonlinear adaptive level sets and Riesz transform. Breast thermal images are initially subjected to Stein's unbiased risk estimate based orthonormal wavelet denoising. These denoised images are enhanced using contrast-limited adaptive histogram equalization method. The breast tissues are then segmented using non-linear adaptive level set method. The phase map of enhanced image is integrated into the level set framework for final boundary estimation. The segmented results are validated against the corresponding ground truth images using overlap and regional similarity metrics. The segmented images are further processed with Riesz transform and structural texture features are derived from the transformed coefficients to analyze pathological conditions of breast tissues. Results: Results show that the estimated average signal to noise ratio of denoised images and average sharpness of enhanced images are improved by 38% and 6% respectively. The interscale consideration adopted in the denoising algorithm is able to improve signal to noise ratio by preserving edges. The proposed segmentation framework could delineate the breast tissues with high degree of correlation (97%) between the segmented and ground truth areas. Also, the average segmentation accuracy and sensitivity are found to be 98%. Similarly, the maximum regional overlap between segmented and ground truth images obtained using volume similarity measure is observed to be 99%. Directionality as a feature, showed a considerable difference between normal and abnormal tissues which is found to be 11%. Conclusion: The proposed framework for breast thermal image analysis that is aided with necessary preprocessing is found to be useful in assisting the early diagnosis of breast abnormalities. � 2015 - IOS Press and the authors. |
| Databáze: | OpenAIRE |
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