Preoperative Onyx Embolization of Aggressive Vertebral Hemangiomas

SUMMARY: We report the first use of Onyx in the embolization of spinal tumors in 2 cases of aggressive vertebral hemangioma. In both cases, Onyx embolization provided effective preoperative tumor devascularization after the initial prolonged particulate embolization with Embospheres made little overall impact. Onyx enables a more rapid and visible embolization than particles and is less technically demanding than traditional liquid embolic agents, such as n-butyl cyanoacrylate.

A 41-year-old woman with 2 months of progressive bilateral lowerextremity weakness underwent CT and MR spine imaging revealing an avidly enhancing mass centered on the L2-vertebral body with paraspinal and epidural extension (Fig 1). After emergent decompressive laminectomy with 3500 mL of blood loss and histopathologic diagnosis of hemangioma, she was referred for embolization before definitive surgery.
Subsequent sequential embolizations of right L1, L2, and left L1 arteries, initiated with the more concentrated Onyx-34 to form a durable plug around the catheter tip and completed with Onyx-18, resulted in deeper penetration of the tumor bed ( Fig 2D). Approximately 0.5-1.0 mL was injected into each pedicle.
Postprocedure CT confirmed Onyx distribution within tumor and feeding arteries (Fig 3). Subsequent vertebrectomy and fixation resulted in nondisruptive blood loss of approximately 1500 mL.

Case 2
A 29-year-old man underwent work-up for 6 months of progressive back pain. CT and MR imaging revealed a lytic T8-vertebral lesion with soft-tissue extension into the anterior epidural space and prominent enhancement. Tumor-embolization was requested before surgical resection and pathologic diagnosis.
On angiography, tumor supply was via a segmental branch of the right T8 intercostal artery. Artery of Adamkiewicz arose from the right T10 intercostal artery.
An Echelon-14 microcatheter (ev3) was used to coil the T8 intercostal artery distal to the feeder origin, then wedged in the more proximal tumor-feeding vessel. After vascular predilation with 300 g of nitroglycerine, 4.5 mL of Onyx-18 was injected without reflux and penetrated the tumor extensively ( Fig 4A). The microcatheter was withdrawn easily.
Postprocedure CT demonstrated distribution of Onyx through most the tumor (Fig 4B), and a vertebrectomy with anterior fixation resulted in 100 mL of blood loss without blood transfusion. Histolopathology was consistent with hemangioma, and Onyx was clearly visible on gross and microscopic inspection (Fig 5).

Discussion
Vertebral hemangiomas have a prevalence of approximately 10% 6 and a predilection for young, female patients and the thoracic spine. 7 Aggressive lesions causing significant bony expansion or extraosseous extension are rare, may cause subacute neurologic impairment, and present a therapeutic challenge due to their vascularity and extent. Acosta et al 8 described 16 cases, recommending combined preoperative embolization and surgical excision.    1. A, Noncontrast CT demonstrates mixed trabecular and lytic infiltration of the L2 vertebra by a soft tissue mass, expanding the right pedicle and extending into paravertebral soft tissues (arrows). B, Postgadolinium T1 fat-sat coronal demonstrates the avidly enhancing, lobulated mass (arrowheads) with prominent flow voids. Note enhancement of the cauda equina below the level of compression (arrows).
Berkefeld et al 1 confirmed the efficacy of PVA embolization of hypervascular spinal tumors, finding a median perioperative blood loss of 1850 mL versus 4350 mL in controls. Hemostasis was not significantly improved if the feeder was simply coiled. However, safe particulate embolization requires large volumes and slow injection rates, resulting in lengthy injection and fluoroscopic times. Despite suspension in iodinated contrast, passage of radiolucent particles through small but dangerous collateral vessels may go unnoticed. Sedimentation and aggregation can obstruct catheters, necessitating larger caliber microcatheters. In addition, vessels embolized with particles, particularly PVA, may undergo recanalization. Kim et al 3 described n-BCA embolization of vascular head, neck, and spine tumors. They recorded only 1 temporary embolic complication in a series of 35 patients. Although tumor penetration and infarction were documented, its efficacy in limiting blood loss was not control matched. n-BCA injections were fast, permanent, and well visualized but required technical expertise and risked catheter adhesion.
Reports of Onyx tumor embolization are limited. Gobin et al 5 used EVOH to embolize 14 head and neck tumors with only 2 temporary adverse events. Advantages over n-BCA included more controlled gradual injections, and they had no cases of catheter entrapment. In our first case, we allowed substantial Onyx reflux without difficulty.

Conclusion
Onyx can be used to safely embolize highly vascular tumors and has the advantages of good visibility, good control, and shorter injection times compared with particulate agents, such as Embospheres or PVA. Our cases add to the few descriptions of Onyx use in tumor embolization and are the first documented uses of Onyx in the treatment of spinal tumors. As the neuroendovascular community becomes more familiar with Onyx through its use in cerebral arteriovenous malformations, its application to other areas such as this should become more widespread. Postembolization frontal radiograph of the T8 vertebra (A) shows Onyx distributed diffusely through the midlateral and right-lateral vertebral body, extending into the right pedicle (arrowhead). Note tip of Cobra catheter (Merit Medical Systems, South Jordan, Utah) (double arrowheads) and microcatheter positioned in tumor feeder (arrow). Noncontrast CT through T8 shows that the Onyx also extends into the epidural portion of the mass (arrow). Note coils positioned more distally in the right T8 intercostal artery (arrowhead).