The cerebral vasculature is a complex network of blood vessels that provides oxygen and nutrients to the brain, while also regulating blood flow and pressure within the brain. The maintenance of the cerebral blood flow and pressure is critical for the normal functioning of the brain, as any disruptions can lead to neurological disorders and even death. Therefore, to understand the quantitative aspects of cerebrovascular is essential to develop effective treatments for these conditions. The study presents an innovative method for quantitatively analyzing of cerebral vasculature using advanced imaging techniques and computational modelling. This approach includes a unique mathematical representation of blood vessels observed in Time-of-flight (TOF) MRA images. The images were then processed to quantify the properties of the vascular network. We collect the vessel data from two database which they contain 61 healthy subjects and 45 healthy subjects respectively. The initial dataset comprises digital reconstructions of the human brain presented in SWC format, whereas the second dataset includes cerebrovascular TOF-MRA volumes along with their corresponding ground truth. For all selected subjects from the second group, brain vessels were traced using a semi-automated software. To calculate the blood flow, we adapt the model proposed by Flores. This solves the pressure at each node as well as cerebral blood flow (CBF). Our statistical analysis results showed a gradual decline in the steady state level of cerebral blood flow for both males and females, it was also observed that males tend to exhibit higher cerebral blood flow compared to females. This also showed that all subjects displayed only a minor phase shift angle at the cardiac frequency. On the other hand, the negligible phase shift implies that pressure and flow undergo nearly simultaneously changes, pointing towards a close interconnection between the different components of the circulatory system. This could signify optimal cardiovascular well-being and effective regulation of blood flow.