A Rare Cause of Hemiparesis: Intracranial Mycotic Aneurysm—A Case Report, and Review of the Literature ()
1. Introduction
Church (1869) was the first to build a relationship between intracranial mycotic aneurysm and endocarditis in a 13-year-old boy. The patient presented with left hemiparesis and subsequently died from a ruptured middle cerebral artery aneurysm [1]. A mycotic or infectious aneurysm is a dilation of an artery due to systemic seeding of infectious agent causing the damage of the vessel wall. Various organisms including predominantly bacterial can cause the aneurysm. It is a rare condition that is life-threatening. Delayed treatment can evolve to sepsis, spontaneous arterial rupture with significant bleeding and death. Twenty-five to thirty percent of patients with infective endocarditis would develop intracranial mycotic aneurysms [2]. They occur more frequently in the anterior circulation and may be multiple. Hemorrhage from an infectious aneurysm is a rare event but is associated with the poor neurological outcome with mortality approaching 80% in some studies [3].
A prolonged course of antibiotics is used, to treat mycotic aneurysm with conservative treatment if the patient presents intracranial hemorrhage, coma, severe comorbidities, stroke with severe damage. Surgery should be considered if the patient presents heart failure, uncontrolled infection, abscess, high embolic risk [4] [5] [6] [7] [8]. In this study, we report a positive outcome of conservative management of one case of mycotic aneurysm revealed by an isolated left hemiparesis mimicking intracranial tumor, followed by surgical treatment in a 48-year-old patient.
2. Case Description
Clinical: A 48-year-old man, a taxi driver, was admitted to the emergency department on the 10th of February 2020, complaining of sudden heaviness in the left upper and lower limbs. No fever, with a past medical history of teeth loss six weeks prior to his admission. The patient did not seek for any medical or dental treatment, he declared that his 42 and 44 teeth were affected with carries some months ago and fell off about six weeks prior to his admission. He is a chronic smoker about 120 packages of cigarettes per year for the past 25 years. The physical examination revealed a left hemiparesis of 3/5 on the muscle tone scale without the stiffness of the neck. He was conscious with a GCS of 15, well oriented in time and space, and his family history was unremarkable.
Diagnosis assessment: The MRI concludes of subarachnoid and cerebral hemorrhage with right parietal hematoma being most probably a vascular malformation or aneurysm (Figure 1). The angiography concluded with a right Sylvian mycotic distal aneurysm in the M4 segment (Figure 2). CBC and Ionogram are normal; CRP was 46 mg/l with antistreptolysin ASLO negative. Transesophageal echocardiography was performed and concluded of infectious endocarditis with mitral and aortic valvular disease grade II-III and mitral grade II aortic insufficiency (Figure 3). The blood culture was positive for staphylococcus coagulase-negative.
Management: The patient received amoxicillin 12 g/24h for 6 weeks. Our patient was not yet a candidate for cardiovascular surgery. After 28 days of treatment, we transferred him to the cardiology department to continue the management, decision-making, and follow-up.
Follow up: CT-angiography is carried out (3) three weeks later after conservative management, to check for the evolution of the mycotic aneurysm. Changes
Figure 1. Axial MRI shows a right parietal cortical-sub-cortical lesion hyperintense on T2-weighted, flair, and diffusion surrounded by susceptibility appearing as low signal intensity due to blood on gradient-echo (GRE) images. A small rim of vasogenic edema surrounds the hematoma showing as hyperintense T2 and FLAIRE perilesional ring with mass effect.
Figure 2. Arteriography. Right distal sylvian aneurysm at the M4 segment (black arrow), saccular in appearance, measuring 7.41 mm × 6.42 mm with a relatively narrow neck measured at 2.82 mm. Presence of an irregular aspect of the branches, with stenosis and dilation, as well as a felted aspect of the distal cortical branches: mycotic aneurysm.
Figure 3. Infectious endocarditis on mitral and aortic valve disease with grade III aortic insufficiency and grade II mitral insufficiency (valvular vegetations = white arrow).
have been found neither in size nor in the shape of the aneurysm. Our patient was still clinically stable and repeated transoesophageal cardiac ultrasound was done. The valvular vegetations increased in size with the largest one passed from 12 mm to 17 mm. The 6th-month check-up was done and found complete regression of mitral and aortic valvular vegetations followed by negative blood culture, confirming the healing of the patient from the infectious endocarditis. But, at the same time, the cerebral arteriography concluded a persistent right middle cerebral M4 mycotic aneurysm of the same size as it was six (6) months ago (Figure 4). Thereafter the patient was admitted to undergo surgery for clipping this aneurysm under neuronavigation since the aneurysm did not regress after medical treatment. A month later, the clipping of the Right M4 segment mycotic aneurysm by trans-sulcal approach was done without incidence (Figure 5). The patient was discharged five (5) days later with a confirmed exclusion of the mycotic aneurysm on the post-operative cerebral arteriography (Figure 6). He was doing well in the post-operative period.
Figure 4. Cerebral arteriography at 6th month check up: Right distal sylvian aneurysm at the M4 segment (white arrow), saccular in appearance, measuring 7.41 mm × 6.42 mm × 2.84 mm.
(a) (b) (c)
Figure 5. Clipping of the right M4 segment mycotic aneurysm by trans-sulcal approach. (a) Trans-sulcal approach; (b) The aneurysm has been dissected, exposed and clipped; (c) Aspiration of the aneurysm content with needle of insulin syringe.
Figure 6. Right M4 segment mycotic aneurysm excluded by clipping (white arrow).
3. Discussion
Mycotic Aneurysm develops as a consequence of vessel wall necrosis following a showering of bacterial emboli into the circulation, usually due to bacterial endocarditis [9]. Their evolution is unpredictable even after the commencement of antibiotic therapy; they can either regress, develop de novo, or rupture. Variable outcomes have been reported, with a mortality rate from 16.8% [9] [10] to 83% [11]. The middle cerebral artery is the most frequent location of the infectious intracranial aneurysm in 63.5% of cases [11], which corresponds to our case report. Some authors advised surgery promptly for enlarging lesions and after a course of antibiotics for lesions that did not regress in size. We have got the same finding in our case; with the 3rd-week cerebral angiography showing no changes in the size of the lesion. Although we do not promptly go into surgery to excise the intracranial aneurysm, we firstly went on with the conservative treatment option. In fact, Kannoth et al. were not able to show any benefits of early or late surgical treatment, whereas Bohmfalk et al. hypothesized that an intervention in the acute phase of the disease is associated with an increased intraoperative risk for aneurysm rupture.
After a thorough discussion with our colleague of the cardiovascular department, transoesophageal cardiac ultrasound was needed to appreciate the evolution of the valvular vegetation in size. The valvular vegetations increased in size with the largest one passed from 12 mm to 17 mm; shifting the patient for cardiosurgery indication [11] [12]. On the second hand, Neurosurgery or endovascular therapy is recommended for very large, enlarging, or ruptured intracranial infectious aneurysms; or after a silent embolism or transient ischaemic attack. Cardiac surgery, if indicated, is recommended without delay. Our patients do not present any of those complications and cannot be managed as such. Moreover, conservative treatment and monitoring are recommended for inpatient without heart failure, uncontrolled infection, abscess, high embolic risk [13] [14]. This is what, Lee et al. described in their studies by showing an increased morbidity and mortality rate in patients with intervention after antibiotics because of fulminant septicemias and hemorrhages. Therefore, the timing of the operative intervention should be determined after taking the clinical situation of the patient into account. The benefit of antibiotics treatment course over surgical clipping or excision of the mycotic aneurysm has not been thoroughly studied and need be for meta-analysis to bring about diagram for therapeutic decision making, knowing that in the literature there is no consensus on when and which patient fit for a prolonged course of antibiotics vs surgical treatment or both. Hamisch CA et al. described both conservative and surgical management of mycotic aneurysm but were not able to conclude on a benefit of one method over the other. The patient of our case report is doing well after the conservative treatment and the aneurysm does not increase nor decreased in size on the 6th-month cerebral arteriography; he has then undergone surgery thereafter for aneurysm clipping. We believe the surgical exclusion of mycotic aneurysm should be done in all patients just after the recommended six (6) weeks antibiotic course with evidence of the patient completely healing from infective endocarditis and if there is no evidence that the aneurysm is regressing under medical treatment.
4. Conclusion
Mycotic aneurysm, a rare consequence of infectious endocarditis, the distal sites of middle cerebral artery commonly found, and conservative treatment with a long course of antibiotics like amoxicillin 12 g/24h for 6 weeks and/or direct surgical clipping to exclude the aneurysm can best manage it. Various results are found in the Literature. There is no consensus, so far, on which method brings about a better outcome; some authors advocate both. Multimodal meta-analysis is necessary to conclude on the real benefit of early surgery in the case of mycotic aneurysm.
Author Contributions
Yao Christian Hugues Dokponou: Conceptualization, Writing original draft, & editing. Mehdi HAKKOU: Writing—review & editing. Olivier OUAMBI: Writing—review & editing. Nourou Dine Adeniran BANKOLE: Writing—review & editing. Abdessamad El Ouahabi: Supervision, Validation, & review.
Ethics and Reporting Guidelines
Informed consent and verbal permission were obtained from the patient prior to the submission of this article. Also, this article respects both the Consensus-based Clinical Case Reporting Guideline and the Recommendations for the Conducting, Reporting, Editing, and Publication of Scholarly Work in Medical Journals [15] [16].