Breast cancer is the most commonly diagnosed cancer and is the second leading cause of death among women after lung cancer. Patients who suffer from breast cancer can still recuperate with early diagnosis and proper treatment, despite the fact that breast cancer possesses a high mortality rate. If untreated, breast cancer can surreptitiously spread and invade other organs by transporting its cells via nearby hematogeneous or lymphatic routes. This type of breast cancer is classified as metastatic breast cancer. Whereas, the non-metastatic cancer does not possess this ability. This thesis presents a breast cancer classification between the metastasis and non-metastasis using the densely connected convolutional neural network (DenseNet). Several studies have also successfully revealed the presence of suspicious tissue surrounding the tumor region (peritumor). Inspired by a previous study that utilized image matting to obtain the peritumor from the trimap, the peritumor can further be extracted at different pixel thicknesses by adjusting the unknown region thickness of the trimap. Thus, this study trained the neural network using peritumor images (instead of the tumor only) at different pixel thicknesses: 5, 10, 15, 20, 25, and 30 pixels. This study finds that the peritumor 15 pixels achieved the best performance with an accuracy of 84.8%, a sensitivity of 88.8%, a specificity of 81.3%, and an area under the curve (AUC) of receiver operating characteristic (ROC) of 0.926. In addition, based on the results, the peritumor 10 pixels may not be too farfetched from being considered for future studies as it scored an accuracy of 84.1%, a sensitivity of 83.2%, a specificity of 84.8%, and an AUC score of 0.906.