Contrast-Enhanced Ultrasound Effectively Monitors Aortic Aneurysm Treatment

Contrast-enhanced ultrasound is an effective, noninvasive way to monitor patients who undergo endovascular repair for abdominal aortic aneurysms, according to a new study.

“Our findings support the addition of contrast-enhanced ultrasound as a complementary tool in the follow-up of these patients,” said Rosa Gilabert, MD, PhD, from the Hospital Clinic at the University of Barcelona (Spain). The study’s findings were published online before print on May 15, 2012, in the journal Radiology.

An abdominal aortic aneurysm occurs when the large blood vessel supplying blood to the abdomen, pelvis, and legs becomes abnormally large or balloons outward. Abdominal aortic aneurysms can occur in anyone; but are most typically found in men over the age of 60 with one or more risk factors, such as smoking, high blood pressure, a positive family history, high cholesterol, peripheral vascular disease, or obesity. The aneurysm places stress on the wall of the aorta that can lead to wall rupture. Mortality rates after rupture are high.

Endovascular repair of abdominal aortic aneurysms (EVAR) involves placement of a stent graft called an endograft into the vessel to bypass the area of the aorta weakened by the aneurysm and keep it from rupturing. EVAR has substantially reduced mortality around the time of surgery when compared with open repair. However, EVAR effectiveness can be compromised by a complication, known as an endoleak, which carries the subsequent risk of rupture of the aneurysm sac.

Routine surveillance of endovascular stent placement with computed tomography (CT) angiography enables detection of potential complications in patients with endografts, but it also exposes the patient to ionizing radiation and potential kidney damage from the CT contrast agent.

Dr. Gilabert and colleagues studied ultrasound with a second-generation contrast agent and contrast-specific software as an alternative to CT angiography. The newer contrast agent consists of a suspension of microbubbles similar in size to red blood cells. Because of their small size, the microbubbles do not pass through the cells lining the inner surface of the blood vessel walls and thus provide a pure intravascular contrast agent that allows a real time investigation over several minutes, with the visualization of the dynamic enhancement pattern in real time.

“The main advantage of contrast-enhanced ultrasound is that it offers the possibility of real-time exploration of EVAR-treated patients, without the exposure to ionizing radiation or the risk of damage to the kidneys,” Dr. Gilabert said. “To avoid the potential risk of kidney toxicity is particularly important, because impaired renal function is not uncommon in these patients.”

The researchers evaluated the technology in 35 patients who underwent EVAR. The patients had CT angiography and contrast-enhanced ultrasound studies performed at one- and six-month follow-up and yearly thereafter. A total of 126 CT angiography and contrast-enhanced ultrasound studies were performed. Contrast-enhanced ultrasound had a sensitivity of 97%, a specificity of 100% and an accuracy of 99% for endoleak detection. The technology enabled the accurate classification of 26 of 33 endoleaks and did not overlook any clinically significant endoleak.

“These results support that contrast-enhanced ultrasound can be integrated in the EVAR follow-up,” Dr. Gilabert concluded.

Related Links:
Hospital Clinic at the University of Barcelona