Cerebrovascular manifestations of radiotherapy for head and neck cancers are well described. In Southeast Asia, because nasopharyngeal cancer is common, patients with late cerebrovascular consequences are encountered regularly. This case report describes the long-term follow-up of a Chinese male patient with symptomatic severe radiation-associated atherosclerosis, who had carotid artery angioplasty and stenting performed, and the subsequent complications encountered cerebral hyperperfusion syndrome, baroreflex failure, and progressive carotid artery stenosis.Radiation-induced stenosis of the carotid artery is a significant risk factor for large-vessel ischemic stroke, which usually leads to significant impairment of neurological function. We performed intra-arterial thrombectomy on a 63-year-old male patient who had laryngeal cancer and postradiation carotid stenosis. He presented with acute-onset dysarthria and left hemiplegia. Brain computed tomography perfusion scan showed right middle cerebral artery ischemic change.  https://www.selleckchem.com/JAK.html  Angiography confirmed total occlusion of the right internal carotid artery. Intra-arterial mechanical thrombectomy with carotid stenting was performed immediately, and recanalization was achieved. The patient fully recovered and was discharged after a 1-week hospitalization. Our experience suggests that early intervention for radiation-related carotid stenosis might be essential and beneficial for the outcome of large-vessel ischemic stroke.Cerebral venous thrombosis (CVT) is a rare cause of stroke worldwide with a wide range of clinical presentations. Anticoagulation therapy has been regarded as the first line of management of CVT to prevent the progression of thrombosis and to re-establish the venous flow. We present a case of severe CVT who did not respond to conventional anticoagulation therapy but responded well to mechanical thrombectomy (MT). This report highlights the features of CVT to consider for early MT.Uncertainty exists over the efficacy and safety of endovascular treatment in patients with large ischemic cores in anterior circulation. Several trials have shown some potential benefits in selected patients despite their late presentation. In particular, perfusion imaging modalities equipped with automatic software has been proven useful in identifying patients with large ischemic cores that are at risk of infarct core expansion, meaning that this specific patient group could still benefit from reperfusion treatment. We reported a case of late-presenting and progressing acute ischemic stroke who was selected by perfusion imaging with RAPID software and successfully underwent endovascular thrombectomy. On admission, her National Institutes of Health Stroke Scale (NIHSS) score was 7. Computed tomography angiography showed complete occlusion of the proximal right middle cerebral artery. Subsequent advanced perfusion imaging with automatic software showed that the ischemic core was 88 mL, Tmax >6 s volume was 131 mL, and mismatch volume was 43 mL. She was rapidly transferred to the Cath lab for thrombectomy with a stent retriever. Her NIHSS score was 15 before the endovascular procedure. She had a dramatic recovery with an NIHSS score of 4 at 24-h after the procedure. She was discharged on day 9 with a modified Rankin Score of 1. Our findings suggest that endovascular treatment can be beneficial to the patients, particularly younger ones, with large ischemic cores with the aid of perfusion imaging.Reperfusion therapy is the most effective treatment for acute ischemic stroke. At present, many clinical studies have shown that mechanical thrombectomy is efficient and safe for acute ischemic stroke of large artery occlusion disease in the time window of 24 h. However, there is limited information on the safety and effectiveness of this technique in cases of recurrent ischemic stroke. We report a case of early recurrent stroke of the anterior circulation after a week of the first stroke. Imaging examinations showed that there existed occlusion of corresponding vessels and obvious ischemic penumbra. Symptoms of the patient were progressive worsening and medical treatment failed; therefore, the corresponding vessel was opened. The low perfusion status in brain tissue and clinical defect symptoms of the patients have improved a lot. In conclusion, thrombectomy for early recurrent ischemic stroke may be effective. Moreover, there may be a wider reperfusion time window for ischemic stroke patients.A significant proportion of patients with large-vessel occlusion (LVO) initially present to the hospital with transient ischemic attack (TIA) and mild clinical manifestations such as low National Institutes of Health Stroke Scale (NIHSS) scores (≤5). However, due to the natural course of the disease, the individuals may subsequently develop worsening symptoms. To date, there is lack of evidence-based guidelines on mechanical thrombectomy (MT) among those patients. Therefore, the predicting factors associated with better or worse outcomes for acute stroke patients receiving MT compared to those not receiving the treatment are unknown. We describe a TIA case with LVO who was treated with MT; we used perfusion imaging as a decision aid. A 55-year-old male patient with a past medical history of TIA, hypertension, and hyperlipidemia was admitted to our hospital for evaluation of transient mild right hemiparesis and dysarthria lasting for 5 min 3 h before admission. He reported that he had experienced the same condition 1 day before. On admission, neurological examination showed normal function with an NIHSS score of 0. Computed tomography angiography revealed left proximal M1 occlusion. In addition, perfusion magnetic resonance imaging maps calculated by the RAPID software showed acute small lesions on the left hemisphere with core volume (0 mL) and a large ischemic penumbra (70 mL). Immediate endovascular thrombectomy was performed 5 h following symptom onset with complete recanalization and clinical recovery. The case suggests that MT in LVO patients with low NIHSS scores, even a score of 0, on presentation is potentially a safe and effective treatment. The use of perfusion imaging in the acute phase of stroke should be encouraged for the decision-making process.