View clinical trials related to Intracranial Aneurysm.
Filter by:the goal of this clinical trail is to evaluate the clinical efficiency of intracranial aneurysm assistive software in the morphological measurement. The trail is designed as retrospective, multicenter, controlled clinical trail. Collecting probable cases images retrospectively according to inclusion criteria and exclusion criteria strictly. Controlling bias strictly, to make sure the measurement of intracranial aneurysm assistive software is evaluated reliably and precisely. In our trail, six physicions were recruited, containing three neuroradiologists, two radiologists and a residents. Software-assistant planning controls against no software-assisant planning,which aims to evaluate the improvement of morphological measurement efficiency of physicians.
Intracranial aneurysm (IA) is a cerebrovascular disorder in which the weakness of a cerebral artery wall causes a localized dilation of the blood vessel. Intracranial aneurysm can develop and rupture, and about 85% of spontaneous subarachnoid hemorrhage (SAH) cases are caused by the rupture of Intracerebral aneurysm. Two treatments are available globally: microsurgical clipping and endovascular treatment. Endovascular treatment of Intracerebral aneurysms using detachable platinum coils ( was introduced in 1990 by Guido Guglielmi, an Italian neurosurgeon ) of different shapes and sizes are deposited into the aneurysm through a microcatheter, which reduces the blood flow and induces thrombus formation . Wide neck aneurysm defined by neck diameter greater than 4 mm or dome-to-neck ratio less than 2 Despite advances in endovascular techniques , the treatment of wide-necked aneurysms remains problematic . Endovascular treatment of intracranial aneurysms is associated with lower morbidity and mortality rates and faster recovery compared with traditional microsurgical clipping. In wide-necked Intracerebral aneurysms, complete coil embolization is often technically difficult owing to the risks of distal coil migration or coil impingement on the parent vessel . Complete coil embolization using a single microcatheter without a supporting device in cases of wide-necked Intracerebral aneurysm is technically difficult. Total occlusion rates have increased recently as a result of the advancement of supporting devices These may include balloon remodeling, use of three-dimensional (3D) coils (Russian Doll Technique), combined use of stents and coils (Stent assisted coiling), flow diverters, use of intrasaccular flow disruption (like WEB), Double catheter Technique or combined extra- and intrasaccular devices.
The goal of this clinical trial is to test augmented reality (AR) based neuronavigation system in surgeries for patients of brain neoplasm or cerebral vascular disease. The main questions it aims to answer are: • AR based neuronavigation system can achieve accuracy that is not inferior to conventional intraoperative navigation system. Participants will participate the study after informed consent. When participants undergo surgery for their brain tumor, we will set up 2 types of neuronavigation, conventional navigation system and developed AR based neuronavigation system. Surgeon will plan and conduct surgery based on only conventional navigation system, but 3D errors at several selected points between two types of navigation will be measured and analyzed.
The primary objective of this trial is to evaluate the safety and efficacy of the cerebral flow diverter in the endovascular treatment of wide-necked cerebral aneurysms
The purpose of this study is to assess the efficacy and safety of Self-expanding Intracranial Stent (Tonbridge), by comparing the data obtained from Self-expanding Intracranial Stent (Zhuhai Tonbridge Medical Tech. Co., Ltd.) and LVIS/LVIS Jr. (MicroVention Europe SARL) for endovascular treatment of intracranial aneurysms.
The goal of this clinical trial is to compare intracranial aneurysm patients. The main question it aims to answer are: Which heparinization regimen is most beneficial to patients during surgery for intracranial aneurysms. Participants will be randomized to different intraoperative heparinization regimens: (i) 50 U/kg intravenous (IV) at 1-h intervals reduced by half to a minimum of 1000 u/h; (ii) 70 U/kg IV at 1-h intervals reduced by half to a minimum of 1000 u/h. MRI will be performed within 72 h after surgery, and the DWI sequence of MRI will be analyzed. If there is a comparison group: Researchers will compare different intraoperative heparinization protocol groups to see which dose of intraoperative heparin has the best prognosis for use.
Purpose: Examination of microangiopathic changes that may develop after flow-directed stenting of intracranial aneurysms with susceptibility-weighted imaging (SWI), and vessel wall imaging (VWI) of vessel wall inflammation that may be associated with stenosis in the stented vessel and rupture of the aneurysm. Methods: SWI and VWI examinations will be performed before and after treatment in patients who are planned for flow-directing aneurysm treatment. Clinical follow-up of the cases will be performed during the first 3 months post-procedure. At the end of the 3rd month, SAG and DDG findings related to and unrelated to intracranial hemorrhage will be detected by control imaging.
Cerebral aneurysms are common changes in intracranial angioarchitecture. Unruptured aneurysms are increasingly identified thanks to the imaging techniques used in daily clinical practice. Since bleeding remains a highly dramatic event burdened by significant morbidity-mortality (about 50%), endovascular therapy, in combination with classic surgical therapy, is an essential element in contemporary medicine. Endovascular and surgical treatment represent the standard of care. The rationale of this study is to identify clinical and radiological characteristics, mainly neuro-radiological ones, not fully explored in previous studies, which can help predict the outcome of patients affected by cerebral aneurysm. The study will have the characteristics of a retrospective study on patients with cerebral aneurysm treated at our center from 1 January 2015 to 31 December 2023. Objective of the study is the multidimensional evaluation in patients with cerebral aneurysms, ruptured and unruptured, undergoing an endovascular embolization procedure or surgical treatment.
This is a preliminary randomised controlled trial comparing the use of pre-operative 3D models to select an intrasaccular flow disruptor for endovascular aneurysm cure.
the goal of this clinical trail is to evaluate the efficiency and safety of intracranial aneurysm assistive software in the preoperative assessment. The trail is designed as retrospective, multicenter, controlled clinical trail. Collecting probable cases images retrospectively according to inclusion criteria and exclusion criteria strictly. Controlling bias strictly, to make sure the efficiency and safety of intracranial aneurysm assistive software is evaluated reliably and precisely. In our trail, software-assisstant planning controls against experienced-surgeon-independent planning,which aims to avoid bias effictively and eliminate non-test interferences.