Revascularization of Concurrent Renal and Cerebral Artery Stenosis in a 14-Year-Old Girl with Takayasu Arteritis and Moyamoya Syndrome

Concurrent involvement of bilateral renal and cerebral arteries, usually incurred as stenosis, is rare in childhood-onset Takayasu arteritis (c-TA). We report the case of a 14-year-old girl, with c-TA, presenting with transient ischemic attack after endovascular revascularization for renal artery stenosis and cerebrovascular stroke after surgical revascularization for cerebral artery stenosis associated with childhood-onset moyamoya syndrome. We deem that decrease of blood pressure by endovascular revascularization and improvement of cerebral perfusion by surgical revascularization may have jeopardized the cerebral deep watershed zone to cerebral ischemia followed by cerebral hyperperfusion syndrome and caused transient ischemic attack and cerebrovascular stroke in our patient. Revascularization could be a double-edge sword for c-TA patients presenting with concomitant renal artery stenosis and cerebral artery stenosis, and should be performed with caution. Quantitative analysis of cerebral blood flow by brain magnetic resonance imaging and angiography should be performed within 48 hours after surgical revascularization in c-TA.

Risk assessment of hyperperfusion induced intracranial hemorrhage after stenting in patients with severe carotid stenosis / 中国脑血管病杂志

Objective To assess the risk of hyperperfusion induced intracranial hemorrhage (HICH) after carotid artery stenting (CAS) in patients with symptomatic severe carotid stenosis.Methods From June 2009 to June 2015,the clinical data of 210 patients with symptomatic severe carotid stenosis (70％-99％) treated with CAS at Department of Neurosurgery,Changhai Hospital,the Second Military Medical University,were analyzed retrospectively.Seven of them (3.3 ％) developed HICH after operation.The relationship between the clinical baseline and imaging characteristics and HICH were assessed.All patients received the evaluation of cerebral CT perfusion examination.The time to peak (TTP) index of cerebral blood flow was defined as the TTP ratio of the affected and contralateral sides,t test was used to conduct the comparison of measurement data,and Poisson test was used to conduct the comparison of the enumeration data.Results There was significant difference in the TTP index between the HICH group and non-HICH group (1.15 ± 0.10 vs.1.30 ± 0.15,t =4.461,P ＜ 0.01).The receiver operating characteristic (ROC)curve analysis results suggested that the TTP index ＞ 1.22 could be used as a risk factor for predicting HICH (sensitivity 100％,specificity 75.9％).Conclusion Under the condition of prompting the preoperative TTP index ＞ 1.22,the risk of HICH may be higher after CAS in patients with severe carotid stenosis.

Delayed Cerebral Hyperperfusion Syndrome after Carotid Artery Stenting: the Finding of Multimodal MRI

A 78-year-old right handed man with hypertension presented with sudden onset dysarthria and right hemiparesis. Magnetic resonance angiography revealed near-occlusion of left proximal internal carotid artery. Emergent carotid stenting was performed. On the 17th day after carotid stenting, he showed decreased consciousness. Magnetic resonance imaging (MRI) showed edematous change with high signal and increased perfusion in the left hemisphere. Our case shows that delayed cerebral hyperperfusion syndrome can occur even 2 weeks after carotid artery stenting and multimodal MRI can help accurate diagnosis.

Acute Subdural Hematoma after Carotid Artery Stenting

Cerebral hyperperfusion syndrome is a major cause of morbidity and mortality following carotid artery stenting (CAS). We present a case of acute subdural hematoma (SDH) 2 hours after CAS. In this case, arterial origin of bleeding was verified during operation. To our knowledge, there is no prior case report of SDH without intraparenchymal nor subarachnoid hemorrhage subsequent to CAS. We postulate that SDH was caused by sudden rise in intracranial pressure due to the hyperperfusion which disrupted a corticodural bridging artery.

The nursing care for patients with hyperperfusion syndrome occurring after carotid artery stenting;initial experience in 9 cases / 介入放射学杂志

Objective To analyze the clinical features of hyperperfusion syndrome occurring after carotid artery stenting, and to discuss its nursing measures. Methods Among 220 patients who received carotid artery stenting, nine developed hyperperfusion syndrome after stent implantation. Their clinical materials were retrospectively analyzed. The nursing measures, including properly controlling blood pressure, relieving brain edema, monitoring cerebral blood flow, medication with sedation drug, stopping or reducing antiplatelet therapy, close observation of blood pressure and clinical symptoms, cooperation with physicians to control the blood pressure and to dynamically make reexamination, etc. Results Of the nine patients with hyperperfusion syndrome, complete recovery was achieved in eight at the time of discharge and death due to intracranial hemorrhage occurred in one. Conclusion The key point of nursing for patients with hyperperfusion syndrome is close cooperation with physicians to control the patient ’s blood pressure so as to ensure a proper cerebral blood flow.

Perioperative complications of stent angioplasty for intracranial arterial stenosis：clinical analysis and therapeutic strategy / 介入放射学杂志

Intracranial artery stenosis is one of the main causes inducing transient ischemic attack (TIA) or cerebral ischemic stroke. Being a minimally-invasive and reliably-effective technique, intracranial artery stent angioplasty has brought about a new approach for the treatment of intracranial artery stenosis , and thus provides more opportunities to the patients who are not suitable for intracranial vascular bypass surgery. However, the higher occurrence of perioperative complications caused by stent angioplasty should be seriously taken into consideration by clinical physicians. In order to reduce the occurrence of complications , in this paper the perioperative complications of stent angioplasty for intracranial artery stenosis are analyzed , and the therapeutic strategies as well as the proper approaches are discussed.

Fatal Propofol Infusion Syndrome Associated with Refractory Partial Status Epilepticus in a Patient with Cerebral Hyperperfusion Syndrome

Status epilepticus is rare complication of cerebral hyperperfusion syndrome and is a critical medical emergency that requires potent anesthetics. Propofol has the advantages of being rapid-acting and possessing a weaker cardiopulmonary suppression profile, but its use is associated with serious propofol infusion syndrome. We report herein a case of cerebral hyperperfusion syndrome after carotid endarterectomy presenting with refractory partial status epilepticus and fatal outcome associated with propofol infusion syndrome.

Delayed Cerebral Hyperperfusion Syndrome Three Weeks after Carotid Artery Stenting Presenting as Status Epilepticus

Cerebral hyperperfusion syndrome (CHS) is increasingly recognized as an uncommon, but serious, complication subsequent to carotid artery stenting (CAS) and carotid endarterectomy (CEA). The onset of CHS generally occurs within two weeks of CEA and CAS, and a delay in the onset of CHS of over one week after CAS is quite rare. We describe a patient who developed CHS three weeks after CAS with status epilepticus.

Post-Carotid Endarterectomy Cerebral Hyperperfusion Syndrome : Is It Preventable by Strict Blood Pressure Control?

OBJECTIVE: Cerebral hyperperfusion syndrome (CHS) is a serious complication after carotid endarterectomy (CEA). However, the prevalence of CHS has decreased as techniques have improved. This study evaluates the role of strict blood pressure (BP) control for the prevention of CHS. METHODS: All 18 patients who received CEA from February 2009 through November 2012 were retrospectively reviewed. All patients were routinely managed in an intensive care unit by a same protocol. The cerebral perfusion state was evaluated on the basis of the regional cerebral blood flow (rCBF) study by perfusion computed tomography (pCT) and mean velocity by transcranial doppler (TCD). BP was strictly controlled (100% increase in the rCBF by pCT or in the mean velocity by TCD compared with preoperative values) or CHS was detected, BP was maintained below 120/80 mm Hg. RESULTS: TCD and pCT data on the patients were analyzed. Ipsilateral rCBF was significantly increased after CEA in the pCT (p=0.049). Post-CEA hyperperfusion was observed in 3 patients (18.7%) in the pCT and 2 patients (12.5%) in the TCD study. No patients developed clinical CHS for one month after CEA. Furthermore, no patients developed additional neurological deficits related to postoperative cerebrovascular complications. CONCLUSION: Intensive care with strict BP control (<140/90 mm Hg) achieved a low prevalence of post-CEA hyperperfusion and prevented CHS. This study suggests that intensive care with strict BP control can prevent the prevalence of post-CEA CHS.

Hyperperfusion Syndrome after Carotid Stent-Supported Angioplasty in Patients with Autonomic Dysfunction

Cerebral hyperperfusion syndrome (CHS) is a rare, serious complication of carotid revascularization either after carotid endarterectomy or carotid stent placement. Although extensive effort has been devoted to reducing the incidence of CHS, little is known about the prevention. Postprocedural hypertension is very rare due to autoregulation of carotid baroreceptors but may occur if presented with autonomic dysfunction. We present two cases of CHS after cerebral revascularization that presented autonomic dysfunction.

Hyperacute hyperperfusion intracerebral hemorrhage complicating carotid endarterectomy: A case report

Most complications of carotid endarterectomy originate from either thrombotic or embolic ischemia. Although the incidence of hemorrhagic hyperperfusion syndrome after carotid endarterectomy is extremely rare, it can cause significant morbidity and mortality. Several mechanisms are involved in the pathophysiology of cerebral hyperperfusion syndrome including impaired cerebral autoregulation and normal pressure breakthrough. Presently, a different mechanism is suggested. Unfortunately, suggestions for prevention are limited to strict perioperative control of hypertension in patients with critical stenosis and chronic cerebral hypoperfusion. We report hypertensive-like ipsilateral basal ganglia hemorrhage after carotid endarterectomy.

Fatal Subarachnoid Hemorrhage After Early Carotid Stenting For Progressive Stroke: Case Report / 대한뇌혈관외과학회지

Subarachnoid hemorrhage (SAH) after surgical or interventional treatment for carotid stenosis is rare, with only a few cases reported in the literature. Our department treated a 78-year-old female with symptoms of deteriorated mental functioning and focal neurological signs. Despite medical treatment, serial magnetic resonance imaging (MRI) studies revealed a progressive extension of multiple infarctions in her left cerebral hemisphere. Cerebral angiography revealed greater than 95% stenosis in the proximal left internal carotid artery (ICA), accompanied by multiple stenoses of the contralateral ICA. For this progressive stroke, we performed early carotid stenting in the left ICA stenosis. Two hours after the procedure, the patient suddenly collapsed, and a computed tomography (CT) scan showed a diffuse SAH with acute hydrocephalus. Despite medical and surgical treatment, the patient died six days after the procedure. The case presented here and a review of the reports on the previous instances suggest that long-standing, severe carotid stenosis with contralateral multiple severe stenoses, persistent hypertension, and the extensive use of heparin and antithrombotic agents may predispose patients to SAH.

Acetazolamide-Challenged Brain CT Perfusion before and after Carotid Stenting / 신경중재치료의학

PURPOSE: To test hypothesis that pre-stenting measurement of reactivity index by using acetazolamide-challenged CT perfusion could identify patients at risk for hyperperfusion after carotid stenting. MATERIALS AND METHODS: For 24 regions of interest in 12 patients with symptomatic unilateral high-grade carotid stenosis, asymmetric indexes for cerebral blood volume, cerebral blood flow, and mean transit time and reactivity index were calculated from resting and acetazolamide-challenged CT perfusion before and 1 day after carotid stenting. We subsequently compared pre-stenting asymmetric indexes and reactivity index with percent increase of cerebral blood flow 1 day after carotid stenting. RESULTS: Percent increase of cerebral blood flow on the first post-stenting day was not significantly different between visually decreased and normal cerebrovascular reserve groups. There was no significant correlation between pre-stenting asymmetric indexs of resting CT perfusion parameters and percent increase of cerebral blood flow 1 day after carotid stenting. On the other hand, pre-stenting reduction of reactivity index showed fair correlation with 1 day cerebral blood flow increase. However, hyperperfusion or hyperperfusion syndrome was not observed in any patient with reduced reactivity index. CONCLUSION: Pre-stenting measurements of resting CT perfusion parameters and reactivity index could not predict hyperperfusion after carotid stenting. However, pre-stenting reduction of reactivity index seems to fairly correlate with immediate post-stenting cerebral blood flow increase. Further studies with larger population should be performed to validate this preliminary result.

Coil Embolization of High-flow Pial Arteriovenous Fistula and Management of Hyperperfusion Syndrome: a Case Report / 신경중재치료의학

Intracranial pial arteriovenous fistulas (AVFs) are uncommon, high-flow connection between an artery and a vein without an intervening nidus, vascular lesions treated using endovascular approach with a variety of embolic materials. To our knowledge, hyperperfusion syndrome as a result of embolization of pial AVFs has not been reported before. We report our experience in the treatment of high-flow pial AVF using detachable coils and hyperperfusion syndrome after coil embolization.

Hyperperfusion syndrome following carotid artery stenting:a case report and review of literatures / 介入放射学杂志

Objective Hyperperfusion syndrome is a rare and devastating complication of carotid artery angioplasty and stenting(CAS).We report the clinical character of this complication in a patient undergoing CAS.Methods This report is a retrospective review of one case with severe extracranial carotid stenosis of carotid angioplasty and stenting performed on March,2004.We analysesed the clinical and imagining character of this hyperperfusion syndrome related to CAS. Results The patient with subtotal occlusion of the right internal carotid artery had a 10-mm lesion treated percutaneously with implantation of 2 stents (Precise 6?30mm、10?40mm) under general anesthesia.The stenosis was postdilated with a 5?20mm balloon. Postprocedural angiography showed no significant stenosis, the blood pressure varied between 230～300/100～130mmHg,the heart rate decreased to 55/min. An urgent brain CT revealed extensive hemorrhage with 80ml in the right basal ganglia. Surgical evacuation was performed urgently under general anesthesia.After operation the patient presented with vegetative status.Conclusions Intracerebral hemorrhage is related to cerebral hyperperfusion after CAS.One of risk factors for hyperperfusion syndrome is of severe ipsilateral stenosis of 90% severity or greater with collateral carotid stenosis. Peri-and postintervention TCD monitoring is mandantory, TCD can be identified patients at risk of cerebral hyperperfusion,to decrease postintervention hemorrhage.

Hyperperfusion Syndrome after Evacuation of Chronic Subdural Hematoma

Hyperperfusion syndrome (HS) is characterized by unilateral headache, seizures, and hypertension and may result in intracerebral hemorrhage. HS is a serious complication following carotid endarterectomy or angioplasty, but it is rarely reported after evacuation of chronic subdural hematoma (CSH). A 75-year-old man developed headache, seizure, and hemiparesis after evacuation of CSH. HS is diagnosed by a postoperative transcranial Doppler. His symptoms subsided with anti-hypertensive medications. Early recognition of this syndrome may be important in reducing postoperative morbidity of CSH.

Hyperperfusion Syndrome after Extracranial-Intracranial Bypass Surgery

OBJECTIVE: Cerebral hyperperfusion syndrome after extracranial-intracranial(EC-IC) bypass is a rare event but it may be disastrous. It can cause vomiting, confusion, seizure and intracerebral hemorrhage. We report 11 cases of hyperperfusion syndrome after EC-IC bypass surgery for recent 5 years in detail. METHODS: Authors performed EC-IC bypass surgery for augmentation of cerebral blood flow in 60 patients for recent 5 years. In 60 patients of EC-IC bypass procedures, we experienced 11 cases of hyperperfusion syndrome. It was observed that hyperfusion induced headache and vomiting in 2 cases, seizure in 1 case, temporary neurologic deficit in 5 cases, and intracerebral hemorrhage in 3 cases. RESULTS: All patients except three cases of intracerebral hemorrhag recovered completely. Five patients with temporary neurologic deficit improved within maxmum of 10days. In three cases of intracerebral hemorrhage, emergency hematoma removal was performed. Two of them, with moyamoya disease, recovered with minor neurologic deficit. The other, with traumatic intracarotid artery injury died. CONCLUSION: Hyperfusion syndromes may be due to relative hyperperfusion of a cerebral hemisphere in which autoregulation had been impaired because of preoperative chronic hypoperfusion. We strongly recommend that revascularization is deferred to 8 weeks till impaired autoregulation is restored, and meticulous blood pressure control should be done in the postoperative course of EC-IC bypass surgery.

A Case of Post-Carotid Endarterectomy Hyperperfusion Syndrome

Most neurologic complications after carotid endarterectomy (CEA) are ischemic in nature, either embolic or thrombotic. However brain edema can also cause neurologic dysfunction that may be related to hyperperfusion secondary to failure of vascular autoregulation. In Korea there has been no report on hyperperfusion syndrome following CEA. We report the first case of hyperperfusion syndrome in 70 cases of CEA series (1.43%) since November 1994. The patient presented with headache and seizures associated with marked unilateral cerebral hemispheric edema on the sixth post-CEA day. Imaging studies included CT, MRI, MRA, carotid duplex, TCD and SPECT. The possible risk factors for developing hyperperfusion syndrome in this patient included: high-grade stenosis, poor collateral flow, evidence of chronic ipsilateral hypoperfusion, development of immediate post-CEA hypertension, and post-CEA increment of internal carotid artery blood flow velocity to 190% of the pre-CEA level on follow-up TCD. Cerebral hyperperfusion syndrome is a rare but significant complication of CEA that may be reversible. Hyperperfusion syndrome should be questioned if the patient develops a new neurological problem after CEA.

Reversible Cerebral Damage Following Bilateral Ascending Aorta-Internal Carotid Artery Bypass Operation for Aortitis Syndrome: A Case Report / 日本心臓血管外科学会雑誌

Aortitis is an inflammatory arteriopathy that often progresses to obliteration of multiple large arteries. Surgical treatment for obstructive lesions due to aortitis syndrome therefore is difficult in many cases. The patient was a 23-year-old female who at the age of 19 had been diagnosed as aortitis syndrome with cerebral vessel involvement, and she subsequently received steroids. She increasingly experienced syncopal attacks, and was indicated for surgical treatment. Angiography revealed obstruction of the left common carotid and left subclavian arteries, and severe stenosis of the right common carotid and right vertebral arteries. She underwent bilateral ascending aorta-carotid artery bypass operation with 7mm ring-supported EPTFE grafts. After the operation she developed clinical signs of temporary brain damage due to hyperperfusion syndrome, but she now completely recovered and maintains a good clinical condition.