Abstract Keeping lower canine roots is clinically common to construct overdentures; the canine roots connected with attachments can provide even larger retention. However, it needs further verifying whether stress is reasonably loaded on roots so that damages can be avoided to the roots and the surrounding tissues. In order to realize whether magnetic attachment-retained overdentures outperform mechanical attachment-retained overdentures in the stress on abutment teeth, we need to adopt an appropriate approach to make objective evaluation. This study is to investigate the stress distributions under occlusal loading of a ball attachment-retained overdenture and a magnetic attachment-retained overdenture. We built up a more reliable 3-dimensional finite element structural model for overdentures supported by two types of attachments, and to compare the differences in stress distribution on roots and surrounding tissues. The analytical approach of finite element is utilized to study and compare stress distributions of the 2 types of attachments; studies are designed to exert occlusal loading on the overdentures on canine、premolars、and molars, by 50 NT vertically and oblique 45 degree, respectively. The result reveals that a magnetic attachment can effectively reduce the moment of an abutment tooth when a denture is enforced with occlusal loading, and can accordingly avoid the damage to an abutment tooth from inappropriate lateral stress. On the contrary, a ball attachment cannot effectively alleviate the leverage effect, and will possibly result in stress concentration and therefore damage an abutment tooth. Besides, we found that oblique occlusal loading incurs bending moment, and consequently increases the stress among the abutment tooth, periodontal ligament and cortical bone, as might result in the fracture of abutment teeth, the resorption of cortical bone, PDL laceration, and etc. Nevertheless, we also find that the displacement of a magnetic attachment-retained overdenture is slightly higher than that of a ball attachment-retained overdenture. Based on the findings mentioned above, we can infer the following. First, retention enhancement is an overdenture treatment target; however, enhancing retention increases the stress on the roots. Secondly, magnetic attachments perform better in reducing stress on the roots. To sum up, a magnetic attachment-retained overdenture provides sufficient retention and can effectively disperse stress on the residue tissues; it is therefore a very good choice for clinical overdenture treatments.