The breast cancer is the most common cancer of women in the world and it is the major cause of the death for women in recent years. However, it is a type of cancer which has an excellent curability if it can be detected in early stage. Recently the computer-aided diagnosis systems can provide radiologists not only the existence information of the tumors but also the lesion classification of malignancy and benignancy. In this paper, the dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) is used to detect changes of the contrast agent (CA) concentration over time which are modeled as a result of the exchange of CA molecules between compartments. Furthermore, the diffusion-weighted magnetic resonance imaging (DWI) is used to provide the information about local characteristic of water diffusion of biological tissues. An experienced radiologist indicates the tumor in DCE-MRI and a region growing based algorithm is then applied to segment the tumor. After the manual registration process between DCE-MRI and DWI by a radiologist, the tumor region in corresponding DCE-MRI is mapped into DWI. Then a modified fuzzy c-means clustering is used to identify the most possible malignant kinetic curve of the segmented tumor for analysis. The Tofts pharmacokinetic model is used to fit the kinetic curve of the tumor and the parameters of the model are used as the diagnosis features. Furthermore, the three-dimensional (3-D) morphology features, shape and texture, from DCE-MRI are proposed to improve the diagnosis performance. The shape features including compactness, margin, and ellipsoid fitting could describe the 3-D shape information of the tumor and the 3-D texture features based on the grey level co-occurrence matrix is also used to analyze the lesions. Besides, the apparent diffusion coefficient (ADC) features extracted from DWI give the quantitative measurement for the water diffusion of a lesion are also included in this study. In the experiments, 138 biopsy-proved lesions with 54 benign and 84 malignant used to evaluate the performance of the proposed diagnosis system for breast MRI. Its accuracy, sensitivity, specificity, and Az value are up to 91.30% (126/138), 92.86% (78/84), 88.89% (48/54), and 0.9333, respectively. From the experiment result, the conventional kinetic characteristics features, Tofts features and ADC features could have the better performance. Especially, the ADC features have the best sensitivity.