There is a great need for high-quality diamond with low dislocation density for high-output power device applications. In this study, we attempted to identify dislocations originating from the homo-epitaxial film/substrate interface in relation to the off-angle of the initial substrate by comparing the dislocation images obtained using X-ray topography by synchrotron radiation light source. For homo-epitaxial film growth on (001) substrate tilted by ~3°, three dislocations were found after growth, corresponding to a density of 30 cm^-2. On the other hand, the density of dislocations generated from the film/substrate interface for homo-epitaxial growth on a (001) substrate with zero tilt angle was 240 cm^-2. This fact indicates that the combination of oxygen feeding during growth and lateral growth using a tilted substrate is an effective way to minimize the number of additional dislocations originating from the homo-epitaxial film/substrate interface.