Orbital Approaches for Treatment of Carotid Cavernous Fistulas: A Systematic Review

Transorbital puncture for the treatment of cavernous sinus dural arteriovenous fistulas

BACKGROUND

Endovascular embolization of carotid-cavernous sinus dural arteriovenous fistulas (CCFs) is most commonly performed via a transfemoral-transvenous approach. Surgical cut-down of the superior ophthalmic vein is an alternative, well-described route. When these prove inaccessible, a transorbital approach can be used to reach the fistula.

METHODS

We describe the recent experience- including indications, surgical technique, radiological findings and post-operative outcomes- in Melbourne of a series of patients in whom a percutaneous, transorbital direct puncture of the cavernous sinus enabled successful embolization of dural arteriovenous fistulas.

RESULTS

Each of three patients achieved successful embolization of their CCFs via a transorbital puncture. Post-operatively, all patients experienced symptomatic relief with complete resolution of clinical signs secondary to their CCFs.

CONCLUSION

When angioarchitecture does not allow endovascular access, transorbital puncture of carotid-cavernous sinus dural arteriovenous fistulas can be a safe and effective technique. This report supports its success and low complication rate.

Inferior Ophthalmic Vein-Dominant Dural Cavernous Fistula Embolization via Combined Orbitotomy and Direct Puncture of Inferior Ophthalmic Vein: A Case Report and Literature Review

Dural carotid-cavernous fistulas (DCF) typically drain into the superior ophthalmic vein. Predominant involvement of the inferior ophthalmic vein (IOV) is rare, with only 4 documented cases in the literature. Here, the authors describe a case of a 51-year-old man who presented with acute left-sided proptosis, dysmotility, and vision loss and was found to have an IOV-dominant type D dural carotid-cavernous fistulas. The fistula could not be embolized by transfemoral endovascular access or orbitotomy alone and was ultimately managed with combined orbitotomy and direct IOV puncture. All previous reports of IOV-dominant dural carotid-cavernous fistulas in the literature were similarly inaccessible via the transfemoral approach. This case highlights the challenges of IOV cutdown and proposes an alternative management strategy. When IOV cutdown is precluded by the fragile, collapsed, or deep nature of the vessel, conversion to percutaneous IOV puncture may offer a safe and effective approach and mitigate the risks of direct puncture alone.

Carotid Cavernous Fistula

Carotid cavernous fistulae (CCFs) are arteriovenous shunts involving the cavernous sinus. CCFs are defined as direct or indirect. Direct CCFs are treated by deconstructive or reconstructive techniques depending on whether the affected internal carotid artery is required to perfuse the ipsilateral cerebral hemisphere, as determined by a balloon test occlusion. Indirect CCFs, or dural fistulae of the cavernous sinus wall, are most often treated with transvenous embolization. Stereotactic radiosurgery is reserved for cases of indirect CCFs that are not completely obliterated by embolization. Overall, cure rates are high with relatively low complication rates.

The Transorbital Approach: A Comprehensive Review of Targets, Surgical Techniques, and Multiportal Variants

The transorbital approach (TOA) is gaining popularity in skull base surgery scenarios. This approach represents a valuable surgical corridor to access various compartments and safely address several intracranial pathologies, both intradurally and extradurally, including tumors of the olfactory groove in the anterior cranial fossa (ACF), cavernous sinus in the middle cranial fossa (MCF), and the cerebellopontine angle in the posterior cranial fossa (PCF). The TOA exists in many variants, both from the point of view of invasiveness and from that of the entry point to the orbit, corresponding to the four orbital quadrants: the superior eyelid crease (SLC), the precaruncular (PC), the lateral retrocanthal (LRC), and the preseptal lower eyelid (PS). Moreover, multiportal variants, consisting of the combination of the transorbital approach with others, exist and are relevant to reach peculiar surgical territories. The significance of the TOA in neurosurgery, coupled with the dearth of thorough studies assessing its various applications and adaptations, underscores the necessity for this research. This extensive review delineates the multitude of target lesions reachable through the transorbital route, categorizing them based on surgical complexity. Furthermore, it provides an overview of the different transorbital variations, both standalone and in conjunction with other techniques. By offering a comprehensive understanding, this study aims to enhance awareness and knowledge regarding the current utility of the transorbital approach in neurosurgery. Additionally, it aims to steer future investigations toward deeper exploration, refinement, and exploration of additional perspectives concerning this surgical method.

Open Surgical Obliteration of Three Indirect Carotid-Cavernous Fistulas

BACKGROUND AND IMPORTANCE

Carotid-cavernous fistulas (CCFs) are abnormal connections between the carotid artery and the cavernous sinus (CS). CCFs are primarily treated by an endovascular route, but there are situations in which a lesion is not amenable to endovascular or transorbital treatment, necessitating a transcranial approach. In this select group of patients, the use of crushed temporalis muscle to pack the CS fistula site was found to be an effective method for treatment of CCFs.

CLINICAL PRESENTATION

In this case series, we present 3 patients with CCFs in which endovascular treatment was not possible because of occlusion of the petrosal sinuses or stenosis of the superior ophthalmic vein at the superior orbital fissure, rendering the lesion inaccessible by a transvenous or transorbital route. Each patient was treated with a variation of temporalis muscle packing through a skull base triangle; one was treated through the anteromedial triangle, one through the supratrochlear triangle, and the third through the Parkinson triangle. The fistulas were cured in each case.

CONCLUSION

Cavernous-carotid fistulas that are not amenable to endovascular or transorbital treatment can be successfully treated by packing the CS fistula site with crushed temporalis muscle. To cure these patients' symptoms and enhance their quality of life, it is crucial to weigh the advantages and disadvantages of each therapy option.

Transorbital embolization of cavernous sinus dural arterio-venous malformations with surgical exposure and catheterization of the superior ophthalmic vein

PURPOSE

Cavernous sinus dural arterio-venous malformations (dAVF) represent a pathologic connection between branches of the internal and/or external carotid artery and the cavernous sinus. Standard endovascular approaches for dAVF treatment are transvenous embolization through the inferior petrosal sinus or the facial vein and transarterial embolization. These approaches are not always successful or feasible, and alternative techniques are required. Here, we present a case series of a minimally invasive transorbital approach with surgical exposure and catheterization of the superior ophthalmic vein for transvenous fistula coiling.

METHODS

14 patients with dAVFs (Barrow Type B to D) that were treated at a tertiary care medical center over a period of 13 years were included in the study. Patients with persisting dAVF associated symptoms were selected for this approach when conventional endovascular interventions were not successful or not feasible. The surgical procedure was performed under general anaesthesia.

RESULTS

A successful transorbital approach was performed in all 14 cases. In 12 of 14 patients a catheter assisted successful embolization of the fistula was performed using platinum coils with no relevant residual fistula flow. In two cases, a spontaneous thrombosis of the fistula during the surgical procedure required no further embolization. No postoperative therapy-associated complications were observed.

CONCLUSION

The described approach is an effective method to embolize dAVFs in selected cases when catheter assisted transvenous and/or transarterial embolization is not successful or not feasible. In this case series we demonstrate an excellent success rate with no therapy-associated major complications.

Direct puncture of the superior ophthalmic vein for carotid cavernous fistulas: a 21-year experience

BACKGROUND

Direct puncture of the superior ophthalmic vein (SOV) is an alternative approach to traversing the inferior petrosal sinus for embolization of carotid cavernous fistulas (CCFs).

OBJECTIVE

To analyze direct SOV puncture for the treatment of CCFs and review the literature.

METHODS

All patients at a single center, treated for a CCF with direct SOV cannulation between January 1, 2000, and December 31, 2020, were retrospectively analyzed. An additional review of the literature for all case series for direct puncture of the SOV for treatment of CCF was performed.

RESULTS

During the 21-year study period, direct cannulation of the SOV for treatment of a CCF was attempted for 19 patients, with the procedure aborted for one patient because of an inability to navigate the wire into the distal aspect of the cavernous sinus. In 18 patients with direct SOV CCF treatment, 1 experienced a minor complication with an asymptomatic postoperative hemorrhage. Angiographic cure and improvement of symptoms were achieved in 17 patients with a mean (SD) follow-up of 6 (5.2) months. In the review of the literature, an additional 45 patients were reported to have direct cannulation of the SOV for CCF treatment, with angiographic cure in 43 (96%) and decreased objective visual acuity in 1 (2%).

CONCLUSION

Direct SOV cannulation to treat CCFs is safe and effective. Although it is typically used after other endovascular approaches have failed, SOV access for CCF treatment may be warranted as a first-line treatment for select patients.

Combined Transarterial and Inferior Ophthalmic Vein Approach to a Direct Carotid-Cavernous Fistula: Technical Note

OBJECTIVE

We describe our rescue technique for direct puncture of the inferior ophthalmic vein (IOV) for transvenous access of a direct, high-flow carotid-cavernous fistula (CCF).

METHODS

The CCF was caused by rupture of a large internal carotid artery aneurysm. Aneurysm and fistula embolization solely via the transarterial approach did not appear promising due to partial aneurysm thrombosis. Also, transvenous access via the facial vein failed due to extensive vessel tortuosity. Instead, the engorged and arterialized IOV was accessed by direct puncture with an 18-gauge venous cannula. After a small skin incision of the medial aspect of the lower eyelid and further transseptal puncture, the cannula was advanced stepwise between the maxillary bone and the bulbus oculi and below the medial rectus muscle to the IOV under repeated biplane roadmap guidance in 2 planes. Thereafter, the fistula and the aneurysm dome could be embolized with coils via a low-profile microcatheter. Hereby, a protective flow diverter was implanted via the arterial route into the internal carotid artery to seal the parent artery, prevent coil protrusion, and ensure permanent aneurysm occlusion.

RESULTS

At 1-month follow-up, the aneurysm and CCF were completely occluded.

CONCLUSIONS

Direct puncture of the IOV represents a feasible and minimally invasive approach for venous CCF access. The proposed method needs to be validated by further reports.

[Endovascular Treatment for Head and Neck Trauma]

Trauma to the head and neck region can have serious consequences for vital organs such as the brain, and injuries to blood vessels can cause permanent neurological damage or even death. Thus, prompt treatment of head and neck vessels is crucial. Although the level of evidence is moderate, an increasing amount of research indicates that endovascular treatments can be a viable alternative to traditional surgery or medical management. Embolization or reconstructive endovascular procedures can significantly improve patient outcomes. This article provides an overview of various endovascular options available for specific clinical scenarios, along with examples of cases in which they were employed.

The Vascular Architecture of Cavernous Sinus Dural Arteriovenous Fistula and Its Impact on Endovascular Treatment Approach Selection and Outcome

BACKGROUND

A cavernous sinus (CS) dural arteriovenous fistula (DAVF) is a form of abnormal arteriovenous communication that can be treated with endovascular embolization. Establishing an optimal access route should be based on vascular architecture. We reviewed 64 patients with CS-DAVF who underwent endovascular embolization and report the endovascular treatment approach selection and outcome.

METHODS

Clinical data were obtained from 64 patients with CS-DAVF who had been surgically treated at the authors' hospital between 2009 and 2022. Patients' medical records, imaging data, and follow-up outcomes were retrospectively analyzed.

RESULTS

All 64 patients (15 male, 49 female; mean age, 50 years) underwent CS-DAVF embolization. The most common symptoms were exophthalmos (39.1%), chemosis (35.9%), and headache (28.1%). On digital subtraction angiography images, 34.4% of the DAVFs were unilateral, and 82.8% were fed by both the external carotid artery and internal carotid artery. Of the patients' inferior petrosal sinuses (IPSs), 54.7% were nonopacified. The most common intravascular approaches included trans-IPS (37.5%) and trans-artery (28.1%) approaches. More than half of the CS-DAVFs were embolized by both coils and Onyx (62.5%). A total of 85.9% of the fistulas were completely embolized, and the follow-up rate was 76.6%. The modified Rankin Scale score was 0.9 ± 1.0.

CONCLUSIONS

The vascular architecture of CS-DAVF is closely related to endovascular treatment approach selection and outcome. Combined with the modified IPS recanalization technique, the trans-IPS approach is the safest and most effective approach. Dual microcatheter and balloon assistance techniques ensure the safety and completeness of embolization.

First reported single-surgeon transpalpebral hybrid approach for indirect cavernous carotid fistula: illustrative case

BACKGROUND

Failure to reach the cavernous sinus after multiple transvenous attempts, although rare, can be challenging for neurointerventionists. The authors sought to demonstrate technical considerations and nuances of the independent performance of a novel hybrid surgical and endovascular transpalpebral approach through the superior ophthalmic vein (SOV) for direct coil embolization of an indirect carotid cavernous fistula (CCF), and they review salient literature regarding the transpalpebral approach.

OBSERVATIONS

An illustrative case, including patient history and presentation, was reviewed. PubMed, MEDLINE, and Embase databases were searched for articles published between January 1, 2000, and September 30, 2021, that reported ≥1 patient with a CCF treated endovascularly via the SOV approach. Data extracted included sample size, treatment modality, surgical technique, performing surgeon specialty, and procedure outcome. The authors’ case illustration demonstrates the technique for the hybrid transpalpebral approach. For the review, 273 unique articles were identified; 14 containing 74 treated patients fulfilled the inclusion criteria. Oculoplastic surgery was the most commonly involved specialty (5 of 14 studies), followed by ophthalmology (3 of 14). Coiling alone was the treatment of choice in 12 studies, with adjunctive use of Onyx (Medtronic) in 2.

LESSONS

The authors’ technical case description, video, illustrations, and review provide endovascular neurosurgeons with a systematic guide to conduct the procedure independently.

Endovascular Management of Intracranial Dural AVFs: Transvenous Approach

In this third review article on the endovascular management of intracranial dural AVFs, we discuss transvenous embolization approaches. Transvenous embolization is increasingly popular and now the first-line approach for ventral dural AVFs involving the cavernous sinus and hypoglossal canal. In addition, transvenous embolization is increasingly used in lateral epidural dural AVFs in high-risk locations such as the petrous and ethmoid regions. The advantage of transvenous embolization in these locations is the ability to retrogradely embolize the draining vein and fistula while reducing the risk of ischemic cranial neuropathy or brain parenchymal infarction commonly feared from a transarterial approach. By means of coils ± ethylene-vinyl alcohol copolymer, transvenous embolization can achieve angiographic cure rates of 80%-90% in ventral locations. Potential complications include transient cranial neuropathy, neurologic deterioration due to venous outflow obstruction, and perforation while navigating pial veins. Transvenous embolization should be considered when dural AVFs arise in proximity to the vasa nervosum or extracranial-intracranial anastomoses.

Gaining Access to the Superior Ophthalmic Vein for Endovascular Embolization of Indirect Carotid-Cavernous Fistulas

ABSTRACT

Carotid-cavernous fistulas (CCFs) are abnormal connections between the carotid arterial system and the cavernous sinus. These acquired vascular malformations may result in severe orbital congestion and sight-threatening complications. The authors present their experience in gaining access to the superior ophthalmic vein to embolize indirect CCFs in three different patients. Surgical exposure and cannulation of the SOV were successful in all 3 cases. One patient developed an orbital compartment syndrome towards the end of the embolization process, after the irrigation cannula was inadvertently dislodged from the SOV. He required a lateral canthotomy and inferior cantholysis but did not suffer from any related sequelae. Signs and symptoms resolved gradually in all patients and cosmetic results were excellent. In our experience, the SOV offers a reliable access to indirect CCFs, but patients should be monitored closely during the embolization process to prevent ophthalmic complications.

Salvage transorbital approach for the endovascular treatment of carotid cavernous fistulas

PURPOSE

Carotid cavernous fistulas (CCFs) are abnormal connections between the cavernous sinus (CS) and carotid arteries. In direct CCFs, a transarterial route is often the preferred vascular access; in case of indirect CCFs, the complex anatomy of the feeder vessels and their extra-intracranial anastomosis makes the transarterial embolization challenging and often ineffective. The aim of this study was to review our experience with the transorbital approach to treat patients affected by CCF who have already experienced an endovascular failure procedure, in order to assess this salvage technique feasibility, by analyzing possible risks and complications.

METHODS

We performed a retrospective study of all patients affected by CCFs who underwent transorbital embolization between February 2017 and February 2019 at our institution.

RESULTS

All patients (3 cases) tolerated both the retrograde embolization and the direct surgical approach with clinical improvement; the closure of the fistula was complete and verified intraoperatively by angiography. Esthetic result was acceptable in all cases with reduction of the proptosis and the intraocular pressure, and increased visual acuity. There were no complications or clinical recurrence.

CONCLUSION

Transorbital approach for the endovascular treatment of CCFs is a feasible and safe salvage procedure, which can find indication after other endovascular access failures.

Endovascular Treatment of Cavernous Sinus Dural Arteriovenous Fistulae: Review of the Literature and Current Status

Cavernous sinus dural arteriovenous fistulae (CSdAVFs) are characterized by the shunts between dural arteries and dural veins surrounding the cavernous sinus (CS), causing ocular symptoms in addition to intracranial hemorrhage and infarction. As surgical access is difficult, endovascular treatment (EVT) has been considered and performed as the first-line therapy for decades. Although there have been recent advances in techniques and devices, transvenous embolization (TVE) with platinum coils remains the most common procedure. There are multiple access routes to the CS, such as the inferior petrosal sinus, superior ophthalmic vein (SOV), and intercavernous sinus from the contralateral CS. To extirpate the shunt, packing the entire sinus with coils is adopted, occasionally resulting in persistent cranial nerve palsy (CNP) due to compression of the coil mass. To avoid this complication, selective shunt occlusion (SSO), in which the coils are placed in the shunted pouch (SP) defined by the small restricted space where the arterial flow converges, is an effective and safe method. Transarterial embolization (TAE) is another option and use of liquid embolic materials, such as Onyx may be promising; however, the potential risk of ischemic nerve injury due to undesirable ante/retrograde influx of the liquid materials is of concern. In conclusion, EVT, especially TVE, is a safe and effective method for managing CSdAVFs. Understanding the angioanatomy consisting of the feeding artery, shunt point, and the drainage route, including the latent vessels, is essential for a good outcome.

Transvenous embolization of bilateral indirect carotid-cavernous fistulas via a unilateral transorbital approach

A 73-year-old man with a complex ophthalmologic history presented with several weeks of worsening diplopia, visual acuity, and proptosis bilaterally. Cerebral angiography demonstrated bilateral indirect Barrow type B carotid-cavernous fistulas (CCFs). Transarterial embolization was not attempted due to small arterial diameter and risk of stroke. Multiple attempts were made to access the fistula via a transfemoral venous approach and were unsuccessful. A transorbital puncture was performed, which allowed access to both cavernous sinuses via a unilateral approach. After embolization with Onyx, there was no residual fistula. The patient had a left-sided retrobulbar hematoma from the access. Right eye vision improved postoperatively.

The Superior Ophthalmic Vein: Anatomical Perspective for Transvenous Access to the Cavernous Sinus

The anatomical characteristics of the superior ophthalmic vein (SOV), which is crucial when performing craniofacial surgeries and transvenous access to the cavernous sinus, have not been documented. The present study aimed to explore them using magnetic resonance angiography (MRA). A volumetric, phase-contrast MRA was performed in 74 outpatients not bearing vascular or tumorous pathologies in the face, orbit, and cavernous sinus. The entire course of the SOV was delineated in 46 patients (62%), for 76% on the right side and 83% on the left. These SOVs consistently showed a characteristic morphology with a laterally coursing proximal segment and a medially coursing distal segment. The latter segment was connected to the angular, supraorbital, supratrochlear, facial, and external nasal veins that were inconsistently delineated. The angular vein was tortuous in 51% of the patients on the right and 53% on the left. The morphology of the proximal part of the SOV was also variable and involved a tortuous segment in 11% of the patients on the right and in 7% on the left. Furthermore, in 4 patients (8.7%), a fenestration was found in the right SOVs. Inconsistent tributaries of the SOV, tortuous angular vein, and possible tortuous segment and fenestration of the SOV can make orbital transvenous access to the cavernous sinus difficult.

Endovascular treatment of the cavernous sinus dural arteriovenous fistula: current status and considerations

A cavernous sinus dural arteriovenous fistula (CS-DAVF) is an abnormal arteriovenous communication involving the dura mater within or near the CS wall. The dural arteries from the internal carotid artery and external carotid artery supply the CS-DAVF, and the superior ophthalmic vein (SOV) and inferior petrous sinus (IPS) are frequent venous drainers. In CS-DAVF cases, high-risk lesions require treatment. Endovascular treatment (EVT) has been the first-line option for CS-DAVFs. To our knowledge, a review of the EVT of CS-DAVFs is lacking. Therefore, in this paper, we review the available literature on this issue. In addition, some illustrative cases are also provided to more concisely expound the EVT of CS-DAVFs. According to the recent literature, transvenous embolization via the IPS is considered the most effective method for EVT of CS-DAVFs. In addition, the transorbital approach is another reasonable choice. Other venous approaches can also be tried. Because of the low cure rate, transarterial embolization for CS-DAVFs is limited to only highly selected patients. In the EVT of CS-DAVFs, various agents have been used, including coil, Onyx, and n-butyl cyanoacrylate, with coil being the preferred one. In addition, when EVT cannot obliterate the CS-DAVF, stereotactic radiotherapy may be considered. In general, despite various complications, EVT is a feasible and effective method to manage CS-DAVFs by way of various access routes and can yield a good prognosis.

Carotid-cavernous fistula: current concepts in aetiology, investigation, and management

A carotid-cavernous fistula (CCF) is an abnormal communication between arteries and veins within the cavernous sinus and may be classified as either direct or dural. Direct CCFs are characterized by a direct connection between the internal carotid artery (ICA) and the cavernous sinus, whereas dural CCFs result from an indirect connection involving cavernous arterial branches and the cavernous sinus. Direct CCFs frequently are traumatic in origin and also may be caused by rupture of an ICA aneurysm within the cavernous sinus, Ehlers-Danlos syndrome type IV, or iatrogenic intervention. Causes of dural CCFs include hypertension, fibromuscular dysplasia, Ehlers-Danlos type IV, and dissection of the ICA. Evaluation of a suspected CCF often involves non-invasive imaging techniques, including standard tonometry, pneumotonometry, ultrasound, computed tomographic scanning and angiography, and/or magnetic resonance imaging and angiography, but the gold standard for classification and diagnosis remains digital subtraction angiography. When a direct CCF is confirmed, first-line treatment is endovascular intervention, which may be accomplished using detachable balloons, coils, liquid embolic agents, or a combination of these tools. As dural CCFs often resolve spontaneously, low-risk cases may be managed conservatively. When invasive treatment is warranted, endovascular intervention or stereotactic radiosurgery may be performed. Modern endovascular techniques offer the ability to successfully treat CCFs with a low morbidity and virtually no mortality.