Catastrophic Mycotic Aneurysm at the Site of Stent Retriever Thrombectomy in Endocarditis

A 50-year-old man with a history of smoking and unspecified drug use suffered an acute ischemic stroke and was transferred to our stroke center for mechanical thrombectomy (MT). He had awoken with a complete right hemispheric syndrome and a right middle cerebral artery (MCA) occlusion of the M1 seg-ment on CT angiogram (CTA) (Figure 1a). He did not receive thrombolysis at the referring center because of the unknown time of onset, although his ASPECTS was favorable (9) on baseline CT. He underwent MT with TICI 2a (Thrombolysis in cerebral infarction) recanalization after one pass with a stent retriever (Figure 1b)

A 50-year-old man with a history of smoking and unspecified drug use suffered an acute ischemic stroke and was transferred to our stroke center for mechanical thrombectomy (MT). He had awoken with a complete right hemispheric syndrome and a right middle cerebral artery (MCA) occlusion of the M1 segment on CT angiogram (CTA) (Figure 1a). He did not receive thrombolysis at the referring center because of the unknown time of onset, although his ASPECTS was favorable (9) on baseline CT. He underwent MT with TICI 2a (Thrombolysis in cerebral infarction) recanalization after one pass with a stent retriever ( Figure 1b).
On Day 1, there was little improvement in his neurological deficit. His CT scan revealed an expected evolution of the right MCA infarct in addition to a left MCA territory subacute infarct, retrospectively visible on the baseline CT (not shown). Aspirin was started. He developed fever the same day, and his blood cultures were positive for gram-positive cocci bacteria, later identified as Streptococcus viridans and Streptococcus oralis. A rapid transthoracic echocardiogram showed a mitral valve vegetation, and intravenous antibiotics were started. When further questioned, he confirmed that he had undergone dental extraction 3 months prior. His urinary toxicology screen was positive for amphetamines and opiates.
A CTA performed on Day 4 revealed a right MCA mycotic aneurysm at the site of the original occlusion (Figure 2a). Additional right MCA cortical branch aneurysms were also identified, one of which was associated with a new temporal intraparenchymal hematoma (Figure 2b).
On Day 9, another follow-up CTA showed that the right MCA aneurysm had more than doubled in size (Figure 2c). He also developed a new left MCA aneurysm (6 × 5 mm), and the distal right MCA aneurysm had progressed to 2 mm (not shown). On the same day, he developed a thunderclap headache and sudden coma.  Urgent CT showed a large right subinsular intraparenchymal hemorrhage with mass effect and intra-ventricular extension (Figure 2d), most likely secondary to rupture of the right MCA aneurysm. After discussion with his family, conservative management was preferred and the patient was listed as a potential organ donor after confirmation of neurological death.
While it is recommended that thrombolysis be avoided in patients with infectious endocarditis and acute stroke given the high risk of hemorrhagic transformation, 1 the safety of thrombectomy remains less clear. Many case reports suggest successful outcomes, 2,3 but the risk of hemorrhagic complications remains high, 4 as shown in our patient, in whom the potentially rapid and catastrophic evolution of intracranial mycotic aneurysms is also illustrated. Endothelial injury caused by stent retriever deployment has been described in MRI studies, 5 and we hypothesize that such injury may have favored local bacterial seeding and mycotic aneurysm formation at the site of thrombectomy in our patient. While suspected or confirmed bacterial endocarditis is not an absolute contra-indication to MT, specific risks, including further septic embolization, intraprocedural arterial rupture, and mycotic aneurysm formation, must be key considerations when offering endovascular stroke treatment to this patient population.