Superior Ophthalmic Vein Cannulation for Carotid Cavernous Fistula


Article Author:
Amar Shah


Article Editor:
Bhupendra Patel


Editors In Chief:
Brian Downs
Ziad Katrib


Managing Editors:
Avais Raja
Orawan Chaigasame
Khalid Alsayouri
Kyle Blair
Radia Jamil
Erin Hughes
Patrick Le
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Hassam Zulfiqar
Navid Mahabadi
Hussain Sajjad
Steve Bhimji
Muhammad Hashmi
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Abbey Smiley
Sarosh Vaqar
Mark Pellegrini
James Hughes
Beenish Sohail
Hajira Basit
Phillip Hynes
Sandeep Sekhon


Updated:
5/15/2019 10:14:57 PM

Introduction

The superior ophthalmic vein (SOV) approach for embolization of carotid-cavernous fistulas (CCFs) was first described over 25 years ago.[1] Carotid-cavernous fistulas are typically divided into four subtypes, defined by etiology and nature of the lesion. Direct (Barrow A) lesions involve an endothelial tear of the carotid itself while indirect lesions (Barrow B, C, or D) involve small branches of the internal or external carotid systems. While 10% to 60% of CCFs may spontaneously resolve and up to an additional 30% of low-flow CCFs may resolve with conservative management (carotid compression therapy), many progressive lesions require intervention.[2] Direct lesions are amenable to endoarterial treatment. Indirect lesions are appropriately treated with transvenous embolization; the ipsilateral inferior petrosal sinus (IPS) is the preferred route. Initial reports characterized case series in which the SOV route was utilized when traditional access through the IPS failed. Typically, the SOV can be accessed through the facial-angular venous system. However, cases exist in which stenosis, hypoplasia, or tortuosity of the vessels prevent safe transvenous access via this route. Surgical cutdown for direct cannulation of the SOV is a safe, effective option in these cases in which other endovascular approaches have been exhausted. With advances in endovascular access techniques, the necessity of this approach has decreased. Still, direct cannulation of the SOV via surgical cutdown remains an important technique in the surgical armamentarium.

Anatomy

Knowledge of orbital anatomy is crucial to avoid damaging key structures within the orbit, particularly once the orbital fat pad has been exposed. The superior ophthalmic vein forms at the junction of the supraorbital (SPOV), angular, and supratrochlear veins within the superomedial orbit. It is consistently found approximately 6 mm above the superior sulcus of the eyelid nasally. Additionally, the SOV can be identified by following the SPOV into the orbit; the SPOV itself can be within the supraorbital notch when present.[3] As the SOV courses posteriorly and laterally with the ophthalmic artery (located posteriorly and laterally to the superior oblique), it receives draining vessels from superior orbital structures, including the ethmoid veins, central retinal vein, muscular veins, and superior vortex veins. The SOV crosses the anterior portion of the optic nerve and traverses the superior orbital fissure, eventually terminating in the cavernous sinus. The SOV has also been noted to run directly underneath the superior rectus in the superomedial quadrant of the periorbital cone, a useful landmark when the vessel is not hypertrophied outside of the deep orbit.[2] Anastomosis with the inferior ophthalmic vein is variable.

Indications

Direct cannulation of the SOV for endovascular treatment is appropriate for indirect CCFs. Typical signs and symptoms include pulsatile visual defects, headache, ocular and orbital pain, diplopia, conjunctival chemosis, proptosis, and orbital bruits. A common association is congestion of the inferior petrosal sinus and arterialization of the ophthalmic and orbital veins. The superior ophthalmic vein may be used for transvenous access to lesions of the cavernous sinus when other routes have been exhausted or are anatomically unavailable. Aberrant anatomy of the inferior petrosal sinus, in which it is exquisitely tortuous or in discontinuity with the proximal jugular system, may make that approach impossible. Access to the SOV via the angular vein through the facial vein is commonly employed as well, though the small caliber of the vessels and sharp angles may make this route technically challenging. In such cases, if arterial access is insufficient, direct cannulation of the SOV should be employed.[4]

Contraindications

Conservative management will lead to resolution of symptoms in a significant number of cases; detailed assessment of symptomology in the immediate pre-operative period is critical to avoid unnecessary intervention. If thrombosis of the SOV is observed intra-operatively, further intervention may not be required. Patients with suspected direct or mixed CCFs will require endoarterial treatment and should not be solely treated with transvenous embolization.

Equipment

Standard microsurgical and endovascular equipment is required for this procedure. This procedure can be safely performed in the endovascular suite with proper anesthesia support. It is important to have a surgical headlight, together with the appropriate orbital surgical instruments which allow proper orbital exposure (Sewell retractors, ribbon retractors) and long bayonet forceps and bipolar cautery forceps to allow easy access to any bleeders deep within the orbit. Neurosurgical cottonoids are useful to separate the fat from the vessels. Muscle hooks are useful to lift the SOV gently while ligation bands or sutures are applied. As the surgeon will be operating with limited mobility because of the radiology machinery, a good assistant is very useful. As these procedures are performed infrequently, we give a list of the necessary surgical instruments to the interventional radiology department.

Personnel

This procedure requires a team with neurointerventional and orbital surgical expertise. The procedure can be performed in the angiography suite with the assistance of anesthesia staff.

Preparation

Digital subtraction angiography is both the gold standard for diagnosis (and initial therapy) of CCF. However, CT, CT angiography, and MRI may be used to confirm the diagnosis if in doubt and to rule out other potential etiologies (tumor, posterior communicating artery aneurysm, infection, etc). A detailed history should be obtained and physical examination should be performed on the day of the procedure to assess necessity of intervention.

Technique

Informed consent must be obtained, and the risks and benefits of the operation explained. The patient is positioned supine in the angiography suite and induced under general anesthesia. A femoral sheath is placed in the standard fashion for angiography. The sterile field includes the eye, eyebrow, forehead, and the cheek.

Incision

A small incision is made in the medial upper eyelid crease; alternately, a sub-brow incision may be used. Authors prefer the medial upper eyelid incision. The incision is carried down through the orbicularis oculi muscle using blunt separation with Stevens scissors. It is important to obtain hemostasis at this point as there will be oozing from the tissues below the orbicularis oculi muscle which can interfere with the surgical site.

Orbitotomy

The orbital septum is opened medially, revealing the medial retroseptal fat pad which will be whiter than the central fat pad. This fat is bluntly dissected in the posterolateral direction until an arterialized feeder of the SOV is identified, which is traced back until the main trunk of the SOV is found. If multiple feeders are identified, milking of the vessels may help identify the direction of flow. If the vessel has not significantly engorged, it has been suggested that an osteotomy may be needed to broaden exposure to the deep orbit, although we have not found .this to be necessary in over 40 cases. Sewell retractors together with moist neurosurgical cottonoids are invaluable at this stage. If the surgeon is familiar with the anatomy of the angular vessels, the supraorbital and supratrochlear vessels, the superior ophthalmic vein can be identified with relative ease by following one of this vessels leading into the superior ophthalmic vein. Another maneuver that we have found helpful is to use a blunt separating motion with either a hemostat or Stevens scissors. This allows separation of the superomedial orbital tissues which in turn will expose the dilated superior ophthalmic vein. For the sake of completeness, it should be mentioned that some surgeons perform an additional brow incision, dissect the subcutaneous tissues and the frontalis muscle until the orbital rim is reached. They then design a small orbitofrontal bone flap is made in the orbital rim. In this approach, the SOV can be identified within the superomedial portion of the periorbital cone following gentle retraction of the superior rectus.[2] However, as mentioned, authors have not had a need to perform any osteotomies when good retraction, lighting and a proper knowledge of the anatomy is available.

Isolation of the Superior Ophthalmic Vein

The SOV is bluntly isolated, freed from attachments, and exposed to the surface for incision of the vessel wall. Rubber loops may be used around the superior ophthalmic vein to allow manipulation. The vein is kept taut with these loops (4-0 silk sutures may also be used), and the vein is entered with an angiocatheter. Brisk bleeding confirms a full-thickness opening and allows cannulation. The angiocatheter is usually tied with a suture, and the catheter is advanced to the cavernous sinus with fluoroscopic guidance using gentle injection of contrast through the catheter. Once placement is confirmed, obliteration of the cavernous sinus can be performed using standard endovascular techniques (liquid embolic agents, coiling).[5] Care is taken to leave one of the ophthalmic veins patent to prevent a sudden increase in intraocular pressures. Arterial angiography is performed to confirm obliteration of the fistula, after which the catheter is withdrawn.

The SOV is ligated distal to the insertion point unless it is large and thick-walled, in which case the vessel is primarily closed. The orbit may be irrigated with an antibiotic solution.

Closure

After meticulous hemostasis is obtained, the orbital incision is closed using simple 6-0 catgut sutures. Follow-up angiography is recommended if there is suspicion for recurrence of the fistula. Clinical follow-up is recommended at 3 and 6 months post-intervention. The patient's vision and intraocular pressures are assessed.

Complications

Surgical cutdown of the superior ophthalmic vein is typically well tolerated. Complications include damage to orbital structures, particularly the superficial nerves and extraocular muscles. Few such complications have been reported in the literature, however. During endovascular treatment, vessel rupture with subsequent hemorrhage is possible. In one observed case of SOV rupture, no retro-orbital hematoma was noted, and the patient was successfully managed conservatively. Aggressive embolization of the cavernous sinus may lead to cranial nerve deficits.

Clinical Significance

In reported case series, over 95% of patients receiving endovascular embolization via direct surgical access of the SOV remained symptom and recurrence-free at last clinical follow-up.[1][2][4][5][6] Even in settings of incomplete embolization, clinical improvement has been observed. Direct cannulation of the SOV is a safe and effective approach for the endovascular treatment of indirect CCFs in settings in which other endovascular approaches have been exhausted.[7][8][9][10][9]

Enhancing Healthcare Team Outcomes

Superior ophthalmic vein cannulation for treatment of carotid cavernous fistula requires a multi-disciplinary approach. A neurointerventionalist is required for the femoral access and eventual endovascular treatment of the fistula once the vein has been cannulated. An orbital surgeon is required for the surgical procedure. Trained staff are required to assist in the interventional suite while anesthetists will be needed to monitor the patient. Nursing and clinic staff can aid in screening in patients on the day of surgery to ensure that symptoms are ongoing. Pharmacists may be needed to aid with post-operative pain management, which is typically minor in this setting. (Level V)


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Superior Ophthalmic Vein Cannulation for Carotid Cavernous Fistula - Questions

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Direct cannulation of the superior ophthalmic vein aims to take direct advantage of its connection to which venous structures?



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A patient presented to your clinic for treatment of a low-flow indirect carotid cavernous fistula. You are performing the exposure for a direct cannulation of the superior ophthalmic vein. You have made your superior sulcus incision and opened the orbicularis oculi and orbital septum. You are unable to identify the superior ophthalmic vein, even after tracing back the supraorbital vein. What is the next best operative step?



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Which of the following is the preferred access route for first time endovascular treatment of indirect carotid-cavernous fistulas?



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A 58-year-old woman originally presented six months ago with complaints of pulsatile blurring of her vision, a subjective pulsatile orbital bruit, and headache. She was found to have a low-flow indirect carotid-cavernous fistula. Her inferior petrosal sinus was in discontinuity with her jugular system, so transfacial catheterization of the superior ophthalmic vein was attempted. After two unsuccessful attempts, she is scheduled for direct cannulation and told to perform carotid compression in the interim. In the preoperative holding area, she reports that she has been symptom-free for over two weeks. Which of the following is the next best step in management?



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To perform cannulation of the superior ophthalmic vein it can be consistently identified in which region of the orbit?



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Superior Ophthalmic Vein Cannulation for Carotid Cavernous Fistula - References

References

Teng MM,Guo WY,Huang CI,Wu CC,Chang T, Occlusion of arteriovenous malformations of the cavernous sinus via the superior ophthalmic vein. AJNR. American journal of neuroradiology. 1988 May-Jun     [PubMed]
Wolfe SQ,Cumberbatch NM,Aziz-Sultan MA,Tummala R,Morcos JJ, Operative approach via the superior ophthalmic vein for the endovascular treatment of carotid cavernous fistulas that fail traditional endovascular access. Neurosurgery. 2010 Jun     [PubMed]
Reis CV,Gonzalez FL,Zabramski JM,Hassan A,Deshmukh P,Albuquerque FC,Preul MC, Anatomy of the superior ophthalmic vein approach for direct endovascular access to vascular lesions of the orbit and cavernous sinus. Neurosurgery. 2009 May     [PubMed]
Miller NR,Monsein LH,Debrun GM,Tamargo RJ,Nauta HJ, Treatment of carotid-cavernous sinus fistulas using a superior ophthalmic vein approach. Journal of neurosurgery. 1995 Nov     [PubMed]
Chalouhi N,Dumont AS,Tjoumakaris S,Gonzalez LF,Bilyk JR,Randazzo C,Hasan D,Dalyai RT,Rosenwasser R,Jabbour P, The superior ophthalmic vein approach for the treatment of carotid-cavernous fistulas: a novel technique using Onyx. Neurosurgical focus. 2012 May     [PubMed]
Quiñones D,Duckwiler G,Gobin PY,Goldberg RA,Viñuela F, Embolization of dural cavernous fistulas via superior ophthalmic vein approach. AJNR. American journal of neuroradiology. 1997 May     [PubMed]
Baldauf J,Spuler A,Hoch HH,Molsen HP,Kiwit JC,Synowitz M, Embolization of indirect carotid-cavernous sinus fistulas using the superior ophthalmic vein approach. Acta neurologica Scandinavica. 2004 Sep     [PubMed]
Jiang C,Lv X,Li Y,Wu Z,Shi J, Surgical access on the superior ophthalmic vein to the cavernous sinus dural fistula for embolization. Journal of neurointerventional surgery. 2013 May     [PubMed]
Briganti F,Caranci F,Leone G,Napoli M,Cicala D,Briganti G,Tranfa F,Bonavolontà G, Endovascular occlusion of dural cavernous fistulas through a superior ophthalmic vein approach. The neuroradiology journal. 2013 Oct     [PubMed]
El-Hindy N,Kalantzis G,Patankar T,Georgalas I,Jyothi S,Goddard T,Chang B, Difficult indirect carotid-cavernous fistulas--alternative techniques to gaining access for treatment. Clinical interventions in aging. 2014;     [PubMed]

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