Since the Doppler ultrasound (US) is successfully applied for detecting the blood flow, the studies of tumor vascularity have played important roles to diagnose diseases of breast recently. The tumor vascularity is critical for growth, invasion, and metastasis. In general, malignant tumors need more complex blood vessels to obtain sufficient nutrients for growing. In the past, researches about vascularity just count the number of vascular pixel or voxel to analyze the malignancy of tumor. However, the morphology characteristic can be employed to provide more important diagnosis information. In this paper, we demonstrate a computer-aided diagnostic (CAD) system for three-dimensional (3-D) power Doppler breast US image that can quantify vascular morphology in a region within the fixed distance inside and outside the tumor. At first, the tumor is segmented by a 3-D level set method and the 3-D distance map could be computed based on the segmented tumor contour. After the skeleton of blood vessels is extracted by using a 3-D thinning algorithm, the morphological features can be calculated for the vessels in the band at the fixed distance to the tumor contour based on the 3-D distance map. Finally, the extracted vascular features are used for the binary logistic regression model to classify the malignancy of the tumor. In our experiments, 119 lesions containing 66 benign tumors and 53 malignant tumors, are used to test the accuracy of our proposed computer-aided system. From the experimental results, we could find that the proposed method has better performance than the conventional method. Moreover, the proposed method could achieve a high performance with the accuracy, sensitivity, specificity and Az value being 84.03% (100/119), 84.91% (45/53), and 83.33% (55/66), 0.9104 respectively.