The research, published today in Stroke: Vascular and Interventional Neurology, was led by senior author Sunil A. Sheth, MD, associate professor in the Department of Neurology with McGovern Medical School at UTHealth Houston, as well as co-first authors Hyun Woo Kim, MD, vascular and interventional neurology fellow at UTHealth Houston, and Anjan Nagesh Ballekere, MS, research coordinator in the neurology department.
Approximately 30,000 people living in the U.S. experience a ruptured aneurysm annually. The estimated prevalence of unruptured cerebral aneurysms is 3.2%. Currently, many of these aneurysms are found incidentally on brain imaging, performed often for unrelated reasons, and getting an accurate count remains challenging.
“We have already seen the tremendous benefit that machine learning can bring to patients suffering from acute stroke,” said Sheth, who is also director of the vascular neurology program at McGovern Medical School. “In this study, we see a similar possibility for substantially improving the way in which we identify, counsel, and help patients with brain aneurysms.”
The team studied a prospectively maintained registry that included eight certified stroke centers. They identified patients who underwent computed tomography (CT) angiography for evaluation of possible stroke from March 14, 2021, to Nov. 31, 2021. A machine learning algorithm called Viz Aneurysm analyzed imaging to identify unruptured brain aneurysms at least 4 millimeters in size.
Of the 1,191 CT angiograms performed during the study period, 50 were flagged by the machine learning algorithm as possibly demonstrating an unruptured cerebral aneurysm. Among those, 36 true aneurysms were identified from the 31 CT angiograms, with four cases of multiple aneurysms.
Twenty-four of the 36 aneurysms (67%) were previously not referred for follow-up, with a median size of 4.4 millimeters. Among them, five aneurysms measured greater than 7 millimeters and had an average risk of rupture of 2.4% over five years. In other words, only 33% of unruptured cerebral aneurysms – many of which require attention and may warrant treatment – were originally referred for follow-up in routine clinical care.
“Before Viz Aneurysm, the referral rate of unruptured cerebral aneurysms were significantly lower than we expected,” Kim said. “We believe that machine learning algorithm screening and alerting clinicians to studies that may harbor cerebral aneurysms could improve rates of detection and follow-ups.”
Overall, the most common locations of aneurysms included the internal carotid artery (46%).
The researchers said machine learning algorithms have the potential to improve the identification of unruptured cerebral aneurysms by flagging CT angiograms suspected of aneurysm, and coordinating the potential follow-up with referral and communication options for the entire care team in the same application.
“We hope to continue and improve upon this work in order to benefit patients,” Ballekere said. “This will help improve quality of care for acute stroke patients when implemented.”
Co-authors with McGovern Medical School included Iman Ali, third-year student; neurology residents Sergio Salazar Marioni, MD, and Arash Niktabe, MD; and neurology research coordinators Hussain Azeem and Ananya Iyyangar. Other UTHealth Houston co-authors included Rania Abdelkhaleq, MPH, third-year student at UTHealth Houston School of Public Health, and Luca Giancardo, PhD, associate professor of health data science and artificial intelligence with McWilliams School of Biomedical Informatics at UTHealth Houston. Also co-authoring the study were Omri Segev, BMedSc; Orin Bibas; and Christopher J. Love, PhD, with Viz.ai; and Dan Paz, MD, with Galilee Medical Center in Israel. Viz.ai sponsored the study in part.