Remote Vascular Catastrophes after Neurovascular Interventional Therapy for Type 4 Ehlers-Danlos Syndrome

Case 1

An 18 year-old-woman with EDS 4 presented with left orbital proptosis and chemosis. MR imaging revealed a dilated left superior ophthalmic vein (SOV). A cerebral arteriogram confirmed the presence of a left direct carotid cavernous fistula (DCCF). Although the patient was under systemic heparinization and general anesthesia, the fistula was occluded by advancing a 0.018-in microcatheter across the hole in the internal carotid artery (ICA) and into the SOV. Guglielmi detatachable coils (GDCs) (Target Therapeutics, Natick, MA) were used to pack the vein and occlude the fistula. A diagnostic arteriogram at the conclusion of the procedure showed left ICA occlusion at the level of the anterior clinoid process. A right ICA arteriogram opacified the left middle cerebral artery via the anterior communicating artery. An unsuccessful attempt was made to dilate the left supraclinoid carotid artery by using an angioplasty balloon. After awakening from anesthesia, the patient remained on heparin, and the results of her neurologic examination were normal.

Forty-five minutes after her transfer to the intensive care unit (ICU), the patient vomited violently and complained of sudden, severe neck pain. The left side of her neck appeared swollen. An emergent arteriogram was performed, which revealed a new, left, cervical ICA dissection without pseudoaneurysmal formation or contrast extravasation. The left supraclinoid ICA was now patent. The patient returned to the ICU and heparinization was continued.

Three days later, a follow-up arteriography was performed to view the ICA dissection. At the conclusion of the procedure, the patient vomited violently and became hypotensive and tachycardic. After volume resuscitation and intubation, an abdominal CT scan was performed to confirm a retroperitoneal hemorrhage or hollow organ rupture. CT showed diffuse retroperitoneal and abdominal bleeding. The patient was brought immediately to the operating room where a laparotomy revealed a ruptured splenic artery. The vessel was ligated, and hemostasis ultimately was achieved.

During the next 18 days, the patient began to make a gradual but slow recovery, despite numerous postoperative complications. The day she expired, she was awake and alert, conversing with her parents. She suddenly screamed and became unresponsive, with hypotension and tachycardia that progressed to electrical activity with no pulse. Despite attempts at resuscitation, she died. Postmortem examination revealed a ruptured cardiac posteromedial papillary muscle.

Case 2

A 40-year-old woman with EDS 4 presented with a left DCCF. Embolization of the DCCF was performed successfully via a venous route. After embolization, the patient became tachycardic, with a hematocrit of 21%. Pelvic CT revealed retroperitoneal blood likely secondary to pelvic vein rupture. Conservative management with transfusions and bed rest led to complete recovery.

Seven years later, the patient returned, complaining of headache. Examination revealed a loud, left, cervical bruit. Repeat arteriography revealed cervical vertebral artery arteriovenous fistula (AVF), with the fistula site at approximately the C5 level. The patient was asymptomatic, yet returned 1 month later with the new complaint of a right-sided rushing sound. Repeat arteriography now showed a new right DCCF. Minimal anterior drainage left the patient's eye normal and intraocular pressure was less than 20. Venous drainage to the basal vein of Rosenthal, however, put the patient at increased risk for subarachnoid hemorrhage, and treatment was planned for the near future. Four days later, the patient arrived at the hospital with complaints of nausea, emesis, vertigo, and diplopia. Cerebral MR imaging, including diffusion studies, revealed no posterior fossa parenchymal infarcts. Repeat arteriography, however, revealed a new right vertebral artery AVF. Of note, catheterization of this vessel had not been performed at the time of the previous arteriogram. It was assumed that the patient was now symptomatic from posterior fossa ischemia on the basis of bilateral vertebral artery steal secondary to the bilateral vertebral artery AVFs and the right DCCF, which limited posterior communicating artery perfusion. Working under this assumption, a therapeutic interventional procedure was planned.

Two days later, the patient underwent stenting of the left vertebral artery performed using a Wallstent (Schneider USA, Minneapolis, MN) placed across the fistula site. Catheterization of the fistula was then performed through the stent interstices by using a 0.018-in microcatheter. The venous side was subsequently filled with GDC coils. At the conclusion of the embolization, flow through the left vertebral artery and basilar artery appeared increased, and flow at the fistula site appeared much reduced. We then placed a stent across the numerous small fistula sites involving the right vertebral artery.

When the patient awoke from anesthesia, the results of her neurologic examination were normal. Approximately 20 minutes later, while in the ICU, she became tachycardic and hypotensive. She was immediately returned to the angiography suite where a diagnostic arteriogram showed a right iliac artery perforation with active retroperitoneal bleeding. A wire was advanced beyond the perforation and an Olbert balloon (Meditech, Watertown, MA) was advanced across the bleeding site and inflated. The bleeding was now arrested. Our vascular surgery consultant felt that the patient required iliac artery ligation, which would likely result in amputation. We decided to place a Wallstent across the bleeding site in the hope that the stent would add strength to the vessel wall and allow for some type of direct surgical repair. After stent placement and balloon reinflation, the patient was transferred to the operating room.

Surgical exposure of the iliac artery was accompanied by significant venous bleeding because of the fragility of the patient's tissues. The iliac artery ultimately was identified and ligated. During the exposure, it was clear that in addition to the initial vessel blowout, the proximal stent had also perforated the vessel. The patient ultimately suffered excessive blood loss in the ICU shortly after surgery and died.