3D-TOF and contrast enhanced Magnetic Resonance Angiographies (MRA's) are the most commonly used tools for diagnosis of cerebrovascular diseases. The 3D-TOF image acquisition techniques are applied to acquire intracranial vascular; meanwhile, the contrast enhancement image acquisition techniques are used to acquire bilateral internal carotid artery. Due to the sampling constraints, the contrast enhanced MRA images results in the coarse resolution. On the contrary, the 3D-TOF images present a small range of intracranial vascular imaging. In this paper, the axial plane MRA and the coronal plane MRA from various sources are fused to provide more comprehensive images than each one of them. Particle Swarm Optimization (PSO) and Genetic Algorithm (GA) are applied to search for the optimum of geometric parameters. The results of performance comparison showed that PSO outperformed GA both in alignment quality and computational time. In this paper, image registration tools for fusing 3D information of cerebrovascular and carotid from various sources of MRA images are developed to enhance the quality of medical research and clinical diagnosis.