| Abstract|| |
Extra cranial vertebrovertebral arteriovenous fistulas (VV AVF) are commonly associated with trauma. Their presentation may vary from palpable thrill and myelopathy or myeloradiculopathy. Sudden onset paraparesis is rare.
Keywords: Embolization; neurofibromatosis type 1; NF 1; vertebrovertebral arteriovenous fistula
|How to cite this article:|
Narayana RV, Pati R, Dalai S. Endovascular management of spontaneous vertebrovertebral arteriovenous fistula associated with neurofibromatosis 1. Indian J Radiol Imaging 2015;25:18-20
|How to cite this URL:|
Narayana RV, Pati R, Dalai S. Endovascular management of spontaneous vertebrovertebral arteriovenous fistula associated with neurofibromatosis 1. Indian J Radiol Imaging [serial online] 2015 [cited 2020 May 25];25:18-20. Available from: http://www.ijri.org/text.asp?2015/25/1/18/150132
| Introduction|| |
Extracranial vertebrovertebral arteriovenous fistula (VV AVF) is a rare condition. It is commonly caused by trauma, but can be congenital, spontaneous, iatrogenic, idiopathic, or related to dysplastic syndromes. We describe a case of spontaneous VV AVF associated with neurofibromatosis Typ e 1. The patient presented to us with sudden-onset right arm weakness. He was successfully treated by endovascular embolization.
| Case Report|| |
A 42-year-old man with neurofibromatosis (NF) Type 1 presented with neck pain, weakness of both the arms, and humming sound on the right side of the neck for past 3 months. The weakness was more on the right arm. He was admitted for further evaluation and management. His right upper limb power suddenly deteriorated during the hospital stay.
General examination of the patient revealed multiple cutaneous neurofibromata, cafß-au-lait spots and Lisch nodules, palpable thrill, and a bruit on the right side of the neck. Neurological examination revealed 0/5 power in the right upper limb and 4/5 power in the left upper limb, with brisk deep tendon reflexes in all four limbs.
Doppler ultrasonography (Voluson 730, GE) of the right side of the neck demonstrated a high-flow arteriovenous fistula. Computed tomography (CT) (Siemens, Erlangen, Germany) and magnetic resonance imaging (MRI) (Siemens-Symphony, Erlangen, Germany) of cervical spine were done. CT scan showed erosion of the right pedicle [[Figure 1]A] of C4 vertebra. MRI demonstrated large areas of flow void extending from C4 to C6 with cord compression [[Figure 1]B]. Detailed digital subtraction angiography (DSA) (Siemens, Erlangen, Germany) of cerebral circulation was done subsequently. DSA demonstrated a high-flow vertebrovertebral arteriovenous fistula (VV AVF) connecting the right vertebral artery (VA) at its origin to the vertebral venous plexus [[Figure 2]A]. There were multiple intersegmental collaterals bilaterally, supplied via right ascending cervical arteries [[Figure 2]B]. There were large venous pouches with drainage into the intraspinal extradural and paraspinal venous plexus. The anterior cerebral circulation was normal in all phases of the angiogram. There was no filling of the fistula from the anterior circulation. The vertebrobasilar circulation was normal otherwise, except the VV AVF.
|Figure 1 (A and B): (A) CT scan demonstrating defect in the pedicle due to erosion (B) MRI demonstrating the fistula with large flow voids with features of venous hypertension as suggested by high T2 signals in the cervicomedullary junction in the second panel|
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|Figure 2 (A and B): (A) Right subclavian artery angiogram demonstrating the VV AVF supplied by right vertebral artery (B) VV AVF additionally supplied through right ascending cervical artery|
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The patient was planned for embolization of the VV AVF with detachable coils under general anesthesia. During intubation, the patient was found to have short mento-thyroid distance. Hence, fiberoptic bronchoscopy-assisted intubation was done. A 6-Fr femoral short sheath was placed into the right common femoral artery. A 6-Fr envoy-guiding catheter (Codman Neurovascular, Raynham, Massachusetts, USA) was placed into the right subclavian artery. The fistula was cannulated with Echelon 14 microcatheter and Xpedion 14 wire (ev3 Endovascular, Inc., Plymouth, MN, USA) through the guiding catheter. The fistula was coiled by placing Axium 20 × 50 cm (ev3 Endovascular, Inc, Plymouth, MN, USA) as the first coil [[Figure 3]A]. The coil conformed well to the fistula, but there was no significant flow alteration. Ten more coils (Axium 20 × 40 mm, 18 × 40 mm, 16 × 30 mm, 16 × 30 mm, 14 × 40 mm, 14 × 30 mm, 12 × 30 mm, 10 × 20 mm, 8 × 16 mm, and 6 × 15 mm) were serially placed into the fistula under roadmap guidance. The flow in the fistula was slower compared to the pre-embolization state. However, further coils could not be pushed with repeated attempts, as the microcatheter came out of the fistula during the placement of the last coil. Right subclavian artery angiogram as well as left VA angiogram demonstrated residual fistula. Second session of embolization was planned.
|Figure 3 (A-D): (A) Coiling from right vertebral artery access, (B) Access of the fistula from left VA through vertebrobasilar junction, (C) Post embolization vertebral and brachiocephalic angiogram demonstrating complete cure of the fistula, (D) Coil mass in the fistula|
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Stage II embolization
The patient was observed for 3 months. At the end of 3 months, there was only a partial improvement in neurological status with significant residual deficits. Hence, an angiogram with possible stage II embolization was planned. The fistula was cannulated from the left VA through the vertebrobasilar junction into the right VA with the combination of Echelon 14 microcatheter with Xpedion 14 microwire [[Figure 3]B]. The fistula was coiled by serial placement of four coils (Axium 8 × 20 mm, 7 × 15 mm, 6 × 15 mm, and 5 × 12 mm) into the fistula and the adjacent VA. Check angiogram demonstrated residual filling of the fistula. subsequently it was decided to embolize the residual fistula with glue (n-butyl cyanoacrylate) and lipiodol from the ascending right cervical artery. For this, 66% glue was prepared by mixing appropriate amount of lipiodol. A total volume of 5 ml of glue was prepared and 3.5 ml of which was injected. The microcatheter was flushed with 5% dextrose. Under blank roadmap, the 66% glue was injected into the fistula in less than 45 sec. The check angiogram demonstrated complete exclusion of the fistula from the circulation [[Figure 3]C]. The final angiogram from the left VA and right subclavian artery demonstrated complete cure of the fistula with stable coil and glue mass [[Figure 3]D]. Patient was shifted to intensive care after the embolization and extubated after 6 h.
Immediately after the procedure, there was no humming sound and the thrill disappeared. The right upper limb power improved to 4/5 and the left upper limb power to 5/5 over the next 72 h. The patient was discharged a week after the procedure and subsequently followed-up at 3, 6, and 12 months. There was no neurological deficit at follow-up. Doppler USG at the end of 3 months and 1 year showed no residual fistula.
| Discussion|| |
VV AVFs are classified either as segmental and intersegmental types or as upper and lower cervical groups. In the segmental type, the fistula involves the VA branch, and in the intersegmental type, VA itself is involved. Trauma is the commonest cause of VV AVF.  Traumatic fistulas are most commonly of iatrogenic cause, secondary to internal jugular vein puncture or neck surgery. Spontaneous VV AVF is least common and is associated with various vascular dysplastic disorders like NF, fibromuscular dysplasia, Marfan's syndrome, or Ehlers-Danlos syndrome More Details type IV. ,, There are limited number of case reports of a spontaneous VVF associated with NF1. The majority of patients are female.  Symptomatology of VV AVFs varies according to the site of the fistula and its flow pattern. Clinical manifestations may vary from a simple bruit to radiculopathy, myeloradiculopathy, and myelopathy. Our case was a spontaneous VV AVF associated with NF 1. The patient presented with features of cervical cord compression and a palpable thrill. The proposed pathogenesis of VV AVF in dysplastic syndromes is dysplastic smooth muscle proliferation in the vessel wall leading to vasculopathy, aneurysm formation, leakage, and rupture into the adjacent vein. 
The goal of treatment should be occlusion of the fistula site. This can be achieved by endovascular means and is the treatment of choice in most cases. Surgical treatment is difficult and dangerous due to proximity of important neurovascular structures. Various endovascular techniques can be employed to occlude the fistula, such as transarterial detachable balloons,  stent grafts, transarterial coiling, and trapping of parent vessel with coils. , Combined transarterial, transvenous,  and direct percutaneous embolization with coils and liquid embolics have been described for treatment of VV AVFs. A combination of coils and balloons or coils and glue/onyx can be used for successful occlusion of fistulas in some situations.  Onyx is a newer liquid embolic agent and allows a longer injection time with high volume of embolic materials, hence producing more stable results with lesser complications.
We did transarterial embolization of the fistula from both the VAs with a combination of coils and n-butyl cyanoacrylate (glue). A complete occlusion of the fistula could be achieved without any complications and with a good clinical outcome.
| Conclusion|| |
VV AVF is a rare condition of abnormal connection between VAs and/or its branches and vertebral venous plexus. Endovascular treatments of VV AVF are safe and efficacious. High-flow VV AVF needs detailed angiographic study and proper planning for successful endovascular treatment.
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Dr. Sibasankar Dalai
OP No: 12, First Floor, Seven Hills Hospital, Rockdale Layout, Visakhapatnam - 530 017, Andhra Pradesh
Source of Support: None, Conflict of Interest: None
[Figure 1], [Figure 2], [Figure 3]