Stroke: Vascular and Interventional Neurology (Mar 2023)
Abstract Number ‐ 71: Management of Delayed Carotid Stent Fracture with an Overlapping Open Cell Design Stent: Case Report
Abstract
Introduction Stent fracture after carotid angioplasty and stenting is rare. Risk factors include presence of angulation, calcification, and restenosis increasing the risk of stent fracture. Although literature indicates that not all carotid stent fractures are associated with adverse outcomes, there is limited details on successful endovascular management of this entity. We describe a unique case of carotid stent fracture with symptomatic restenosis treated with an overlapping open cell stent with no residual stenosis and resolution of symptomology. Methods Case Report. Results A 79‐year‐old man with medical history of right sided symptomatic carotid artery stenosis which had been previously treated with endarterectomy and subsequently carotid stenting after a follow up carotid ultrasound demonstrated recurrence of severe right internal carotid artery (RICA) stenosis. Approximately 2 years after this index procedure, the patient returned with acute onset of left‐hand numbness. Cerebral angiography was performed that demonstrated 85% stenosis with a fractured carotid stent at segment of stenosis (Figure 1A, B). Furthermore, the lesion was found to be heavily calcified. This was determined to be the primary contributing factor in resultant artery wall stress, which over time led to carotid stent fracture. Angioplasty with placement of a new open cell stent and distal embolic protective device was performed successfully. The open cell stent was chosen for this approach as closed cell stents have been associated with an increased odds of in‐hospital stroke/death for carotid lesions, attributable to the lower degree of conformability with closed cell stents. After our stent placement, there was no significant residual stenosis visualized (Figure 1C, D). The patient’s symptoms resolved without any subsequent complaints on follow‐up visit. Conclusions While carotid stent fractures are a rare occurrence, we report a case of symptomatic carotid artery restenosis with a fractured stent due to significant lesion calcification and wall stress. This case was successfully treated with angioplasty and new open cell stent placement due to its potential advantages over closed cell stents in carotid artery lesions. Current literature indicates that carotid stent fractures have a low prevalence. However, there is a paucity of studies on the mechanism of stent fracture as well as optimal management of these fractured stents, suggesting a need for further study and characterization.