metricas
covid
Buscar en
Neurología (English Edition)
Toda la web
Inicio Neurología (English Edition) A paediatric case of basilar occlusion treated with mechanical thrombectomy usin...
Información de la revista
Vol. 31. Núm. 5.
Páginas 347-350 (junio 2016)
Vol. 31. Núm. 5.
Páginas 347-350 (junio 2016)
Letter to the Editor
Acceso a texto completo
A paediatric case of basilar occlusion treated with mechanical thrombectomy using stent retrievers
Oclusión basilar pediátrica tratada mediante trombectomía con stents extractores
Visitas
3685
C.M. Garnés Sáncheza,
Autor para correspondencia
cmgarnes@hotmail.com

Corresponding author.
, G. Parrillab, B. García Villalbab, H. Alarcón Martínezc, E. Martínez Salcedoc, S. Reyes Domínguezd
a Servicio de Neurología, Hospital Universitario Santa Lucía, Santa Lucía, Cartagena, Murcia, Spain
b Servicio de Neurorradiología Intervencionista, Hospital Universitario Virgen de la Arrixaca, El Palmar, Murcia, Spain
c Sección de Neuropediatría, Hospital Universitario Virgen de la Arrixaca, El Palmar, Murcia, Spain
d Sección UCI pediátrica, Hospital Universitario Virgen de la Arrixaca, El Palmar, Murcia, Spain
Este artículo ha recibido
Información del artículo
Texto completo
Bibliografía
Descargar PDF
Estadísticas
Figuras (2)
Texto completo

Paediatric stroke is defined as stroke occurring in patients between one month and 18 years of age.1 Paediatric stroke is much less common than stroke in adults; however, morbidity (50% with serious neurological sequelae or epilepsy, with the ensuing socio-economic consequences),2 and mortality rates (15%-25%) are high.3 Fewer than 10% of paediatric strokes affect vertebrobasilar circulation.3 The typical form of presentation of paediatric basilar occlusion is a deterioration in the level of consciousness,4 which is the most common cause of locked-in syndrome.5 The wide range of clinical presentations and low incidence of this disorder lead to diagnostic delays in children.3 Paediatric basilar occlusion is frequently misdiagnosed as complicated migraine or epilepsy3 and its aetiology remains unknown in the majority of cases.3,4 No known treatment has been proven effective in randomised controlled clinical trials with children; what is known about this entity comes from isolated cases or case series.

Generally, in clinical practice, being younger than 18 years is an exclusion criterion for intravenous or intra-arterial thrombolysis.6,7 In the last few years, however, the excellent results of mechanical devices in adults8–10 (older retrievers or more recent models, such as stent retrievers) have opened the possibility of using these treatments for other indications.11,12 Such recent studies as the IMS-III, the SYNTHESIS, or the MR RESCUE,13–15 which failed to demonstrate the superiority of mechanical thrombectomy over ‘the best medical treatment available’, have been criticised for various design flaws, including the use of older retrievers (for example, the Merci) in place of stent retrievers, which have shown better recanalisation rates.

We present the case of a paediatric patient with a basilar occlusion effectively treated with stent retrievers and provide a brief review of the relevant literature.

One month after a viral myositis, a 9-year-old boy presented at the emergency department with vomiting and rapidly progressive drowsiness. A neurological examination revealed a low level of consciousness, anarthria, skew deviation, and predominantly left-sided asymmetrical flaccid tetraparesis. Extensor plantar reflex was observed on the left foot, but there was no response on the right. His NIHSS score was 35 points. Laboratory test results were within normal limits. An emergency cranial CT scan revealed a small hypodense chronic lesion on the left subcortical occipital area, with no other relevant findings. The results from a lumbar puncture were also normal. The day after admission, the patient underwent a cranial MRI scan. T2-weighted sequences showed hyperintensities in the lumen of the basilar artery, and FLAIR sequences revealed the presence of hyperintense lesions compatible with ischaemic lesions in the pons and the white matter of the temporal and occipital lobes. The latter lesions showed different intensities in diffusion sequences as they were at a different stage of progression (Fig. 1).

Figure 1.

(1) An emergency low-dose CT scan shows a small hypodense occipital subcortical lesion adjacent to the occipital horn of the left lateral ventricle, with no other relevant findings. (2) Brain MRI scan: an axial FLAIR sequence reveals hyperintense lesions compatible with ischaemic lesions on the pons and in white matter of the temporal and occipital lobes. (3) An axial DWI sequence (b=1000s/mm2) confirmed the presence of an acute ischaemic lesion on the pons, with markedly restricted diffusion. The left occipital and right temporal lesions are not hyperintense in the DWI sequence due to a longer progression time.

(0.11MB).

These findings raised suspicion of basilar thrombosis. Emergency CT angiography and perfusion CT scan were requested since we had not been able to satisfactorily assess MRI angiography and perfusion MR images due to a technical error. CT images revealed the presence of an occlusion at the level of the proximal portion of the basilar artery and an extensive area of penumbra in both occipital and temporal lobes. Mechanical thrombectomy was considered in view of the patient's poor clinical state. Thirty-six hours after symptom onset, our patient underwent a digital subtraction angiography through the femoral artery, which confirmed the presence of an occlusion in the proximal portion of the basilar artery. In light of these findings, the patient underwent a mechanical thrombectomy with stent retriever (Solitaire FR revascularisation device SFR-4-20, ev3, Irvine, CA, USA); the procedure achieved complete recanalisation of the basilar artery and all its distal branches (Fig. 2). The next day, a follow-up CT scan showed an established pontine infarction without haemorrhagic complications; the patient initiated treatment with low-molecular-weight heparin as an embolic aetiology was suspected. In the next few days, the patient began to improve and started rehabilitation. We conducted an aetiological study of the stroke, including a study of thrombophilia and vasculitis, serology tests, and transthoracic and transoesophageal echocardiography; the study yielded no conclusive results. The patient was discharged 16 days after symptom onset; he had a normal level of consciousness, and showed normal cranial nerves, mild dysarthria, mild left-sided dysmetria, mild left spastic hemiparesis (able to hold up the left arm for more than 10 seconds with minimal drift), and spasticity (NIHSS score=3).

Figure 2.

Cerebral digital subtraction angiography, left vertebral artery injection, AP view. (A) Image taken before treatment confirming the occlusion of the middle third of the basilar artery. (B) Image taken during the procedure which shows the mechanical extraction device (stent retriever) open inside the basilar artery. (C) Final follow up image showing the recanalisation of the basilar artery and all its distal branches.

(0.12MB).

Paediatric basilar thrombosis manifests with severe symptoms and is associated with high morbidity and mortality rates. No treatment has proven to be safe and efficacious in randomised controlled clinical trials; the only experience we have is based on isolated cases or case series.16 Intravenous thrombolysis has demonstrated efficacy in some cases,1,17 but its use is limited due to the short treatment window (below 3-4.5 hours). Mechanical thrombectomy has the advantage of a longer treatment window and theoretically a lower risk of bleeding. However, until now no clinical studies have demonstrated its efficacy in children and its use is therefore still experimental.16

In a recent review article,16 the authors went over 63 published cases of basilar thrombosis in children. Of the 45 patients who did not receive intravascular treatment, 24 improved satisfactorily (53%), while 13 of the 18 who were treated showed good outcomes (72%). Despite this apparent positive tendency, interpreting these results is complicated since the term ‘intravascular treatment’ encompasses intra-arterial thrombolytic therapy, mechanical thrombectomy, and combined treatment.

In regards to mechanical thrombectomy, the literature reports 9 cases of basilar thrombosis treated with different mechanical devices, only 2 of which used stent retrievers.11,12 These devices were self-expanding stents of 3 to 6mm in length which deploy inside the thrombus and stick to it to then be removed with the thrombus inside. In adults, stent retrievers have been shown to be more effective than older devices,18 probably thanks to their larger area of contact. However, with reference to children only the 2 previously mentioned cases have been published.11,12

Ours is the first case in Spain and supports stent-retriever thrombectomy as a valid treatment for children with basilar thrombosis. In our patient, a 9-year-old male, clinical progression after stent-retriever thrombectomy was positive (baseline NIHSS score=35, NIHSS score on discharge=3) despite the diagnostic delay (the patient was outside the treatment window for intravenous thrombolysis) and the fact that thrombectomy was performed 36 hours after symptom onset.

In our view, in cases of basilar thrombosis there are various factors which give stent-retriever thrombectomy an advantage over methods which use older devices, especially the longer treatment window for the posterior territory (24-48 hours according to the literature, 36 hours in our case), greater speed, and higher recanalisation rates.18 These factors make mechanical thrombectomy with stent retrievers a viable treatment option in cases of paediatric basilar thrombosis when other treatments are ineffective or contraindicated. We must be mindful, however, that up to this point no randomised clinical trial has demonstrated the efficacy of mechanical thrombectomy in either adults or children.

References
[1]
M. Arnold, M. Steinlin, A. Baumann, K. Nedeltchev, L. Remonda, S.J. Moser, et al.
Thrombolysis in childhood stroke. Report of 2 cases and review of the literature.
[2]
G. De Veber, D. MacGregor, R. Curtis, S. Mayank.
Neurologic outcome in survivors of childhood arterial ischemic stroke and sinovenous trombosis.
J Child Neurol, 15 (2000), pp. 316-324
[3]
N.P. Rosman, S. Adhami, G.B. Mannheim, N.P. Katz, R.P. Klucznik, M.A. Muriello.
Basilar artery occlusion in children: misleading presentations, “locked-in” state, and diagnostic importance of accompanying vertebral artery occlusion.
J Child Neurol, 18 (2003), pp. 450-462
[4]
M. Janmaat, J.P. Gravendeel, M. Uyttenboogaart, P.C. Vroomen, O.F. Brouwer, G.J. Luijckx.
Local intra-arterial thrombolysis in a 4-year-old male with vertebrobasilar thrombosis.
Dev Med Child Neurol, 51 (2009), pp. 155-158
[5]
M.A. Bruno, C. Schnakers, F. Damas, F. Pellas, I. Lutte, J. Bernheim, et al.
Locked-in syndrome in children. Report of five cases and review of the literature.
Pediatr Neurol, 41 (2009), pp. 237-246
[6]
A. Furlan, R. Higashida, L. Wechsler, M. Gent, H. Rowley, C. Kase, et al.
Intra-arterial prourokinase for acute ischemic stroke. The PROACT II Study: a randomized controlled trial. Prolyse in acute cerebral thromboembolism.
JAMA, 282 (1999), pp. 2003-2011
[7]
R. Belvis.
Thrombolysis for acute stroke in pediatrics.
Stroke, 38 (2007), pp. 1722-1723
[8]
P. Mordasini, C. Brekenfeld, J.V. Byrne, U. Fischer, M. Arnold, M.R. Heldner, et al.
Technical feasibility and application of mechanical thrombectomy with the Solitaire FR Revascularization Device in acute basilar artery occlusion.
AJNR, 1 (2013), pp. 159-163
[9]
T. Andersson, A. Kuntze Söderqvist, M. Söderman, S. Holmin, N. Wahlgren, M. Kaijser.
Mechanical thrombectomy as the primary treatment for acute basilar artery occlusion: experience from 5 years of practice.
J Neurointerv Surg, 3 (2013), pp. 221-225
[10]
M. Espinosa de Rueda, G. Parrilla, J. Zamarro, B. García-Villalba, F. Hernández, A. Moreno.
Treatment of acute vertebrobasilar occlusion using thrombectomy with stent retrievers: initial experience with 18 patients.
AJNR, 34 (2013), pp. 1044-1048
[11]
S.R. Taneja, I. Hanna, A. Holdgate, J. Wenderoth, D.J. Cordato.
Basilar artery occlusion in a 14-year-old female successfully treated with acute intravascular intervention: case report and review of the literature.
J Paediatr Child Health, 47 (2011), pp. 408-414
[12]
J. Fink, L. Sonnenborg, L.L. Larsen, A.P. Born, M. Holtmannspötter, D. Kondziella.
Basilar artery thrombosis in a child treated with intravenous tissue plasminogen activator and endovascular mechanical thrombectomy.
J Child Neurol, 28 (2013), pp. 1521-1526
[13]
J.P1 Broderick, Y.Y. Palesch, A.M. Demchuk, S.D. Yeatts, P. Khatri, M.D. Hill, Interventional Management of Stroke (IMS) III Investigators, et al.
Endovascular therapy after intravenous t-PA versus t-PA alone for stroke.
N Engl J Med, 368 (2013), pp. 893-903
[14]
A. Ciccone, L. Valvassori, M. Nichelatti, A. Sgoifo, M. Ponzio, R. Sterzi, et al.
Endovascular treatment for acute ischemic stroke.
N Engl J Med, 368 (2013), pp. 904-913
[15]
C.S. Kidwell, R. Jahan, J. Gornbein, J.R. Alger, V. Nenov, Z. Ajani, et al.
A trial of imaging selection and endovascular treatment for ischemic stroke.
N Engl J Med, 29 (2014), pp. 633-645
[16]
M. Chikkannaiah, W.D. Lo.
Childhood basilar artery occlusion: a report of 5 cases and review of the literature.
J Child Neurol, (2013),
[17]
K. Tanaka, T. Uehara, K. Sato, T. Amano, K. Minematsu, K. Toyoda.
Successful intravenous rt-PA thrombolysis for a childhood cardioembolic stroke with Emery-Dreifuss muscular distrophy.
Cerebrovasc Dis, 33 (2012), pp. 92-93
[18]
J.L. Saver, R. Jahan, E.I. Levy, T.G. Jovin, B. Baxter, R.G. Nogueira, et al.
Solitaire flow restoration device versus the Merci Retriever in patients with acute ischaemic stroke (SWIFT): a randomised, parallel-group, non-inferiority trial.
Lancet, 6 (2012), pp. 1241-1249

Please cite this article as: Garnés Sánchez CM, Parrilla G, García Villalba B, Alarcón Martínez H, Martínez Salcedo E, Reyes Domínguez S. Oclusión basilar pediátrica tratada mediante trombectomía con stents extractores. Neurología. 2016;31:347–350.

This study was presented in poster format at the 65th Annual Meeting of the Spanish Society of Neurology on 22 November 2013.

Copyright © 2013. Sociedad Española de Neurología
Descargar PDF
Opciones de artículo
es en pt

¿Es usted profesional sanitario apto para prescribir o dispensar medicamentos?

Are you a health professional able to prescribe or dispense drugs?

Você é um profissional de saúde habilitado a prescrever ou dispensar medicamentos

Quizás le interese:
10.1016/j.nrleng.2018.12.014
No mostrar más