Abstract
Purpose
Our goals are (1) to report a consecutive prospective series of children who had posterior circulation stroke caused by vertebral artery dissection at the V3 segment; (2) to describe a configuration of the vertebral artery that may predispose to rotational compression; and (3) to recommend a new protocol for evaluation and treatment of vertebral artery dissection at V3.
Methods
All children diagnosed with vertebral artery dissection at the V3 segment from September 2014 to July 2020 at our institution were included in the study. Demographic, clinical, surgical, and radiological data were collected.
Results
Sixteen children were found to have dissection at a specific segment of the vertebral artery. Fourteen patients were male. Eleven were found to have compression on rotation during a provocative angiogram. All eleven underwent C1C2 posterior fusion as part of their treatment. Their mean age was 6.44 years (range 18 months–15 years). Mean blood loss was 57.7 mL. One minor complication occurred: a superficial wound infection treated with oral antibiotics only. There were no vascular or neurologic injuries. There have been no recurrent ischemic events after diagnosis and/or treatment. Mean follow-up was 33.3 months (range 2–59 months). We designed a new protocol to manage V3 dissections in children.
Conclusion
Posterior C1C2 fusion is a safe and effective option for treatment of dynamic compression in vertebral artery dissection in children. Institution of and compliance with a strict diagnostic and treatment protocol for V3 segment dissections seem to prevent recurrent stroke.
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Data Availability
Pertinent data is shown in Table 1; full data is available upon request.
References
Fink M, Slavova N, Grunt S, Perret E, Regényi M, Steinlin M, Bigi S (2019) Posterior arterial ischemic stroke in childhood: clinical features and neuroimaging characteristics. Stroke 50:2329–2335
Nash M, Rafay MF (2019) Craniocervical arterial dissection in children: pathophysiology and management. Pediatr Neurol 95:9–18
Roach ES, Golomb MR, Adams R, Biller J, Daniels S, deVeber G, Ferriero D, Jones BV, Kirkham FJ, Scott RM, Smith ER (2008) Management of stroke in infants and children: a scientific statement from a special writing group of the American Heart Association Stroke Council and the Council on Cardiovascular Disease in the Young. Stroke 39:2644–2691
Lu DC, Zador Z, Mummaneni PV, Lawton MT (2010) Rotational vertebral artery occlusion-series of 9 cases. Neurosurgery 67:1066–1072
Lu DC, Gupta N, Mummaneni PV (2009) Minimally invasive decompression of a suboccipital osseous prominence causing rotational vertebral artery occlusion. Case report. J Neurosurg Pediatr 4:191–195
Cornelius JF, George B, N’dri Oka D, Spiriev T, Steiger HJ, Hanggi D (2012) Bow-hunter’s syndrome caused by dynamic vertebral artery stenosis at the cranio-cervical junction: a management algorithm based on a systematic review and a clinical series. Neurosurg Rev 35:127–135
Vilela MD, Goodkin R, Lundin DA, Newell DW (2005) Rotational vertebrobasilar ischemia: hemodynamic assessment and surgical treatment. Neurosurgery 56:35–36
Greiner HM, Abruzzo TA, Kabbouche M, Leach JL, Zuccarello M (2010) Rotational vertebral artery occlusion in a child with multiple strokes: a case-based update. Childs Nerv Syst 26:1669–1674
Sedney CL, Rosen CL (2011) Cervical abnormalities causing vertebral artery dissection in children. J Neurosurg Pediatr 7:272–275
Shetty SR, Shankaraiah BA, Hegde T, Nagarajaiah RK (2012) Bow hunter’s stroke – a rare presentation of CV junction anomaly: case report. Neurol India 60:520–521
Anene-Maidoh TI, Vega RA, Fautheree GL, Reavey-Cantwell JF (2013) An unusual case of pediatric bow hunter’s stroke. Surg Neurol Int 4:148
Kageyama H, Yoshimura S, Iida T, Shirakawa M, Uchida K, Tomogane Y, Miyaji Y (2016) Juvenile cerebral infarction caused by bow hunter’s syndrome during sport: two case reports. Neurol Med Chir (Tokyo) 56:580–583
Blount TJ, Larsen PD, Thorell WE (2016) Occipital bony abnormality and multiple strokes in a pediatric patient: case report and review of the current literature. Child Neurol Open 3:1–4
Rollins N, Braga B, Hogge A, Beavers S, Dowling M (2017) Dynamic arterial compression in pediatric vertebral arterial dissection. Stroke 48:1070–1073
DeVela G, Taylor M, Zhang B, Linscott LL, Chen AM, Karami KB, Furthmiller A, Leach JL, Vadivelu S, Abruzzo T (2018) Quantitative arterial tortuosity suggests arteriopathy in children with cryptogenic stroke. Stroke 49:1011–1014
Cohen NT, Harrar DB, Diab YA, Pearl MS, Murnick JG (2020) Atlanto-occipital ligament calcification: a novel imaging finding in pediatric rotational vertebral artery occlusion. Pediatr Radiol 50:137–141
Golomb MR, Ducis KA, Martinez ML (2020) Bow hunter’s syndrome in children: a review of the literature and presentation of a new case in a 12-year-old girl [published online June 8, 2020]. J Child Neurol. https://doi.org/10.1177/0883073820927108
Fox CK, Fullerton HJ, Hetts SW, Halbach VV, Auguste KI, Lawton MT, Gupta N (2020) Single center series of boys with recurrent strokes and rotational vertebral arteriopathy [published online July 20, 2020]. Neurology. https://doi.org/10.1212/WNL.0000000000010416
Ford FR (1952) Syncope, vertigo and disturbances of vision resulting from intermittent obstruction of the vertebral arteries due to defect in the odontoid proces and excessive mobility of the second cervical vertebra. Bull Johns Hopkins Hosp 91(3):168–173
Ghanim MT, Bergmann S, Turner RD, Eskandari R, Mahajerin A (2020) Recurrent stroke in a child with atlantoaxial instability following chiropractic manipulation. J Pediatr Hematol Oncol 42(6):e518–e520
Dickman CA, Sonntag VK, Papadopoulos SM, Hadley MN (1991) The interspinous method of posterior atlantoaxial arthrodesis. J Neurosurg 74:190–198
Matsuyama T, Morimoto T, Sakaki T (1997) Comparison of C1-2 posterior fusion and decompression of the vertebral artery in the treatment of bow hunter’s stroke. J Neurosurg 86:619–623
Duval EL, Van Coster R, Verstraeten K (1998) Acute traumatic stroke: a case of bow hunter’s stroke in a child. Eur J Emerg Med 5:259–263
Missori P, Marruzzo D, Peschillo S, Domenicucci M (2014) Clinical remarks on acute post-traumatic atlanto-axial rotatory subluxation in pediatric-aged patients. World Neurosurg 82(5):e645–e648
Uohara MY, Beslow LA, Billinghurst L, Jones BM, Kessler SK, Licht DJ, Ichord RN (2017) Incidence of recurrence in posterior circulation childhood arterial ischemic stroke. JAMA Neurol 74:316–323
Chough CK, Cheng BC, Welch WC, Park CK (2010) Bow hunter’s stroke caused by a severe vacet hypertrophy of C1-2. J Korean Neurosurg Soc 47:134–136
Patankar AP (2019) Vertebro-basilar stroke due to Bow-Hunter syndrome: an unusual presentation of rotatory atlanto-axial subluxation in a fourteen year old [published online September 22, 2019]. Br J Neurosurg. https://doi.org/10.1080/02688697.2019.1668538
Abd el-Bary TH, Dujovny M, Ausman JI (1995) Microsurgical anatomy of the atlantal part of the vertebral artery. Surg Neurol 44:391–392
Castillo C, Vinas FC, Gutikhonda M, Diaz FG (1998) Microsurgical anatomy of the suboccipital segment of the vertebral artery. Neurol Res 20:201–208
Morris SA, Orbach DB, Geva T, Singh MN, Gauvreau K, Lacro RV (2011) Increased vertebral artery tortuosity index is associated with adverse outcomes in children and young adults with connective tissue disorders. Circulation 124:388–396
Acknowledgments
We would like to thank Ms. Suzanne Truex, medical illustrator, for the drawings and figures, and Ms. Rayna Ross, program coordinator, for the tables and paper formatting.
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Bruno P. Braga: Conceptualization, design, methodology, investigation, writing-original draft, writing-review and editing, and supervision
Rafael Sillero: Conceptualization, design, methodology, and writing-review and editing,
Rosalina M. Pereira: Conceptualization, methodology, investigation, and writing-review and editing
Kamran Urgun: Conceptualization, methodology, and writing-review and editing
Dale M. Swift: Conceptualization, methodology, and writing-review and editing
Nancy K. Rollins: Conceptualization, methodology, and writing-review and editing
Amy J. Hogge: Conceptualization, methodology, and writing-review and editing
Michael M. Dowling: Conceptualization, design, methodology, investigation, and writing-review and editing
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A portion of this study was presented as an oral presentation at 2019 AANS Annual Scientific Meeting in San Diego, CA, USA, April 2019.
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Braga, B.P., Sillero, R., Pereira, R.M. et al. Dynamic compression in vertebral artery dissection in children: apropos of a new protocol. Childs Nerv Syst 37, 1285–1293 (2021). https://doi.org/10.1007/s00381-020-04956-1
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DOI: https://doi.org/10.1007/s00381-020-04956-1