Abdominal Aortic Aneurysm Clinical Trial
Official title:
Deep Learning Applied to Plain Abdominal Radiographic Surveillance After Endovascular Aneurysm Repair (EVAR) of Abdominal Aortic Aneurysm (AAA)
Deep learning applied to plain abdominal radiographic surveillance after Endovascular Aneurysm Repair (EVAR) of Abdominal Aortic Aneurysm (AAA).
Abdominal aortic aneurysm (AAA) is a condition in which the abdominal aorta, a large artery,
dilates gradually, secondary to a degenerative process within its wall. This can lead to
rupture of the weakened wall with subsequent exsanguination into the abdomen. This scenario
is usually fatal. The diameter of the aneurysm positively correlates with the risk of
rupture. Aneurysm size is therefore the primary determinant when considering whether or not
to electively repair AAAs.
Endovascular aneurysm repair (EVAR) has become the standard treatment for AAAs in the vast
majority of patients. It is a minimally invasive technique that aims to exclude the aneurysm
from the circulation by placement of a synthetic "stent-graft" within the aortic lumen.
Metallic barbs as well as radial force maintain stent-graft position in non-aneurysmal aorta
above the aneurysm as well as in the iliac arteries below the aneurysm.
Level 1 evidence has consistently demonstrated improved perioperative survival with EVAR as
compared to traditional open surgery. However, there are concerns regarding the long-term
durability of EVAR stent-grafts, with 1 in 5 patients requiring further surgery to the
aneurysm in the 5 years after the operation. This is often due to failure of the position and
integrity of the stent-graft. Therefore, standard international practice is to keep patients
are life-long surveillance after EVAR. This is usually in the form of plain radiographs in
combination with either computerised tomography (CT) or duplex ultrasound scans, all
performed on an annual basis.
Stent-grafts are visible on plain radiographs of the abdomen and by comparing series of
images taken over time, it is possible to diagnose a myriad of stent-graft problems including
migration, disintegration and distortion. But these changes can be subtle on plain
radiographs and difficult to spot, even to the most trained human eye. As a result, patients
undergo more detailed scans that unfortunately carry a risk of nephrotoxicity and
radiation-induced malignancy.
The aim of our research is to improve the diagnostic potential of plain radiographs by
applying modern deep learning computer algorithms for interpretation.
Artificial intelligence (AI) in the form of deep learning has shown great success in recent
years on numerous challenging problems. The success of deep learning is largely underpinned
by advances in powerful graphics processing units (GPUs). GPUs enable us to speed up training
algorithms by orders of magnitude, bringing run-times of weeks down to days.
Our study will explore the use of artificial intelligence in interpreting series of
anonymised plain radiographs to identify features of a failing stent-graft.
A deep-learning algorithm will be applied to post-EVAR plain radiographs that have already
been performed at our institution in England over the last 10 years. We will then compare the
effectiveness of the machine in identifying stent-graft related problems to the known
outcomes identified by human interpretation previously.
This project will rely on recent advances in deep learning techniques. It is expected that
deep learning will bring good performance for EVAR surveillance in line with its successful
application in domains such as the recognition of digits, Chinese characters, and traffic
signs where computers have produced better accuracy than humans.
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