LOS ANGELES – As Stephanie Weiss was coming to grips with the news she had two large and three small aneurysms in her brain, the Los Angeles independent travel consultant was told there was no minimally invasive way to treat at least one of the defects: a wide-neck aneurysm. She would have to undergo open-brain surgery.
But in a second consultation, with neurosurgeon Michael J. Alexander, MD, at Cedars-Sinai Medical Center, she learned about a new device – approved by the Food and Drug Administration just last April – that made it possible to close even wide-neck aneurysms like hers that were pressing against the optic nerves without the risks, pain and longer recovery of major surgery.
In a June 23 procedure that took less than two hours, Alexander sealed off the wide-neck aneurysm with the new device and stabilized the other large aneurysm with a conventional procedure called coiling – all accomplished by inserting a catheter and instruments into a blood vessel in the groin and guiding them into Weiss’ brain.
“I’ve gone to a dentist and it’s been more complicated,” says Weiss, 58, who was on the phone with her office two hours after the Thursday procedure, spent one night in the hospital, cleaned and vacuumed her house on Sunday and went back to work on Monday.
Aneurysms, weak areas of arteries that balloon out, can have catastrophic brain-damaging and life-threatening consequences if they burst. With very small aneurysms, the risks of intervention may be greater than the chances of rupture; therefore, these may be monitored over time. For most aneurysms that pose a threat, two main treatment options exist: In an open-brain operation, surgeons may place a metal clip at the neck of the aneurysm to close it, or surgeons or neurointerventionalists may use the minimally invasive route to fill the aneurysm with platinum coils.
“Large and wide-neck aneurysms have presented a special challenge because the base of the ‘balloon’ is very broad. The coils would just pop back out of the aneurysm and potentially block the artery,” says Alexander, professor and clinical chief of the Department of Neurosurgery and director of the Neurovascular Center at Cedars-Sinai. “In recent years, we’ve used stents – called vascular remodeling devices – to keep coils in the aneurysm and out of the artery, but the Pipeline device virtually eliminates the need for coiling in some cases and may be an option in instances where coiling has failed.”
The tube-like Pipeline stent is placed in the artery to cover the aneurysm, maintain blood flow through the artery and provide a mesh scaffold for blood vessel cells to grow and form a permanent, stable seal.