| dc.description.abstract | Early identification of breast cancer is critical for successful treatment globally.
Mammography and ultrasound are used to diagnose and screen breast cancer. These
imaging methods have limited specificity and sensitivity, especially in distinguishing
benign from malignant tumors. Thus, breast cancer identification and grading need novel
imaging tools. Polarization images with Mueller matrix transformation may correctly grade
breast cancer. A laser source 633 nm combines polarized glass system illuminate the tissue
and measures polarization changes. With 589 Mueller matrix images (generated from
21,204 raw images captured via CCD camera) collected from four different types of breast
tissue that countributed a great dataset for building artificial intelligence model to classify
the condition of samples.
A deep learning model for breast cancer grading also has promise. Applying
ResNet-18 and Random Forest network can evaluate medical images and uncover patterns,
values, and characteristics that may greatly support doctors in diagnosing medical
condition of patients. Training this algorithm on a large dataset of Mueller matrix images
may provide reliable and objective breast cancer detection and classification models. These
models might increase diagnosis accuracy and patient outcomes in clinical practice.
Polarization images with Mueller matrix transformation and artificial intelligence models
for breast cancer grading may enable more accurate and suitable treatment options for
breast cancer patients. Healthcare workers may improve therapy and reduce long-term
problems by accurately diagnosing and evaluating breast cancer. This revolutionary
technology may improve breast cancer diagnosis and help patients choose the best therapy. | en_US |
