Pearls and Pitfalls in Cardiovascular Imaging Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Section 1 Cardiac pseudotumors and other challenging diagnoses
- Section 2 Cardiac aneurysms and diverticula
- Section 3 Anatomic variants and congenital lesions
- Section 4 Coronary arteries
- Section 5 Pulmonary arteries
- Section 6 Cardiovascular MRI artifacts
- Section 7 Acute aorta and aortic aneurysms
- Section 8 Post-operative aorta
- Case 66 Surgical pledget mimicking aortic pseudoaneurysm
- Case 67 Pseudoendoleak post-endovascular stent graft placement due to calcified material in the aneurysm sac
- Case 68 Type II endoleak occult on arterial phase images
- Case 69 Elephant trunk graft mimicking aortic dissection
- Case 70 Pseudodissection due to aortic graft kinking
- Case 71 Perigraft fluid collections
- Case 72 Post-operative air in the aorta: when is it of concern?
- Section 9 Mesenteric vascular
- Section 10 Peripheral vascular
- Section 11 Veins
- Index
- References
Case 67 - Pseudoendoleak post-endovascular stent graft placement due to calcified material in the aneurysm sac
from Section 8 - Post-operative aorta
Published online by Cambridge University Press: 05 June 2015
- Frontmatter
- Contents
- List of contributors
- Preface
- Section 1 Cardiac pseudotumors and other challenging diagnoses
- Section 2 Cardiac aneurysms and diverticula
- Section 3 Anatomic variants and congenital lesions
- Section 4 Coronary arteries
- Section 5 Pulmonary arteries
- Section 6 Cardiovascular MRI artifacts
- Section 7 Acute aorta and aortic aneurysms
- Section 8 Post-operative aorta
- Case 66 Surgical pledget mimicking aortic pseudoaneurysm
- Case 67 Pseudoendoleak post-endovascular stent graft placement due to calcified material in the aneurysm sac
- Case 68 Type II endoleak occult on arterial phase images
- Case 69 Elephant trunk graft mimicking aortic dissection
- Case 70 Pseudodissection due to aortic graft kinking
- Case 71 Perigraft fluid collections
- Case 72 Post-operative air in the aorta: when is it of concern?
- Section 9 Mesenteric vascular
- Section 10 Peripheral vascular
- Section 11 Veins
- Index
- References
Summary
Imaging description
CT is the primary imaging modality used to evaluate patients after endoluminal stent placement. The role of CT is to confirm that the aortic pathology (aneurysm and/or dissection) has been excluded, demonstrate that the aortic branches remain patent, and to identify complications, most commonly the presence of an endoleak. An endoleak occurs when blood extends into the aneurysm sac outside of the stent, either by retrograde perfusion from an aortic arterial branch, leak from the proximal or distal end of the stent, or through the stent graft or where adjacent stent grafts overlap. Serial post-treatment CT imaging should demonstrate gradual decrease in the size of the excluded aneurysm sac. In the presence of an endoleak, the sac will stay the same or enlarge.
When performing CT after endoluminal stent placement, a precontrast acquisition is necessary for distinguishing calcification or surgical material within the aneurysm sac from an endoleak, and improves specificity and positive predictive value in identifying endoleaks. As shown in this case, high-attenuation calcification within an aneurysm sac can mimic an endoleak on post-contrast CT, but is definitively characterized as calcification by comparing to a non-contrast acquisition (Figure 67.1).
Importance
Calcification or surgical material within the aneurysm sac may mimic endoleak if only post-contrast images are obtained. Proper protocol design is an integral component to highquality diagnostic interpretation. Knowledge of pitfalls such as this mandates use of a precontrast acquisition following endoluminal stent placement to serve as comparison for the post-contrast sequences. Endoleaks may be followed if small, but can require reintervention. If left untreated, an endoleak can eventually result in rupture of the aneurysm sac.
Typical clinical scenario
Patients typically undergo lifelong serial follow-up imaging after the endovascular stent has been placed. Approximately 25% develop an endoleak, most commonly type II. Delayed endoleaks occur in 10% on average, with reports as high as 30%.
- Type
- Chapter
- Information
- Pearls and Pitfalls in Cardiovascular ImagingPseudolesions, Artifacts, and Other Difficult Diagnoses, pp. 216 - 217Publisher: Cambridge University PressPrint publication year: 2015