The clinical presentation of vertebrobasilar vascular disorders varies and the diagnosis remains a challenge. The vertebrobasilar insufficiency (VBI) results from insufficient blood flow to the posterior portion of the brain due to restricted flow to either the vertebral or the basilar artery. VBI may evolve to posterior circulation infarction (PCI). PCI is at higher risk of early recurrent stroke especially in those with vertebrobasilar stenosis or hypoplasia. Unilateral or bilateral vertebral artery hypoplasia is considered as a risk factor for PCI; however, they are usually associated with different vascular disorders, such as dolichoectasia and fetal type PCA. In our studies, these clinical symptoms and vascular diseases are analyzed by retrospective cohort studies . In the first study of VBI, we found that low VB velocity noted by sonography reveals insufficient flow over posterior circulation and may indicate a higher risk of PCI, and even total ischemic stroke . Increased PCI risk was noted if the mean velocity of vertebrobasilar arteries is below than 15 cm/sec (adjusted odds ratio: 2.55, 95% confidence interval, 1.58-4.13; P<0.001) or 20 cm/sec (adjusted odds ratio: 1.75, 95% confidence interval, 1.14-2.66; P=0.009). In the 2nd study of posterior infarction patients, we adapted sonographic criteria getting from 1st study and added the VAH criteria for extracranial ultrasound analysis. Significant higher frequency of vertebral artery hypoplasia (VAH) and decreased intracranial vertebrobasilar velocity in PCI group (44.75% and 64.33%) is documented (P<0.0001 and P=0.035). Ischemic lesion distributions were correlated with VAH (55.56 %), low vertebral and basilar artery velocity (44.44%, 25.53%) documented by sonography. Low vertebrobasilar velocity is higher correlated with magnetic resonance imaging documented vascular stenosis (48.98%). In the 3rd study, we evaluated the clinical association and pathophysiology of unilateral VAH with vertebrobasilar dolichoectasia(VBD). In the group of VBD, 79.36% patients were found with the coexistence of VAH and VBD. In the group with VAH and VBD co-occurrence and VAH without VBD, Receiver Operating Characteristic (ROC) curve analysis showed a cut-off value of 55.65 mL/min in the differences in side-to-side extracranial vertebral artery flow volume on Doppler sonography, with an area under the curve (AUC) of 0.786 (sensitivity 90.0% ; specificity 62.6% ) indicating an acceptable discrimination. Side-to-side extracranial vertebral artery flow ratio (median) , ROC curve analysis showed an optimal threshold value of 5.28, with an AUC of 0.747(sensitivity 78.0% and specificity 66.1%). In the 4th study, bilateral VAH is found with high frequency (75%) of fetal variant posterior cerebral arteries. The infarction patterns of these patients were all bilateral and in multiple vascular territories. In this group, younger age at stroke onset was also found. Traditionally, the hemodynamic stability of posterior circulation is evaluated from the net Vertebral arterial flow, the collateral flow from spinal artery and combined with the anterior circulation from the posterior cerebral arteries , Our studies emphasized the importance of VAH , whatever unilateral or bilateral . We also connected the pathological evolution with VAH and intracranial vascular abnormalities. From the viewpoints of clinical practice, for patients with such risky characteristics , early medical prevention or surgical correction is suggested. New and applicable criteria for sonographic exam of vertebrobasilar insufficiency and dolichoectasia were analyzed in our studies. They are different from the previous criteria . We hope to get larger scale studies for these criteria and these criteria may be beneficial for a higher sensitivity in clinical diagnosis.