1.Supreceliac aorta bypass surgery for juxtarenal aortic occlusive disease: 2 cases.
Joong Hwan OH ; Suk Joong CHOO ; Eun Kee KIM ; Chong Kook LEE ; Keum Soo PARK
The Korean Journal of Thoracic and Cardiovascular Surgery 1992;25(1):105-111
No abstract available.
Aorta*
2.Radionuclide demonstration of severely tortous thoracic aorta.
Hee Seung BOM ; Ji Yeul KIM ; Myung Ho JEONG ; Jeong Gwan CHO ; Jong Chun PARK ; Jung Chaee KANG
Korean Journal of Nuclear Medicine 1993;27(1):150-152
No abstract available.
Aorta, Thoracic*
3.A Case of Interrupted Aortic Arch.
Yeong Sook KANG ; Sun Hee JUNG ; Tae Chan KWON ; Chin Moo KANG ; Seok Kil ZEON ; Kwang Sook LEE ; Yeong Sun YOO
Journal of the Korean Pediatric Society 1990;33(11):1579-1585
No abstract available.
Aorta, Thoracic*
4.A Successful Repair of Interrupted Aortic Arch.
Dong Su KIM ; Du Yung LEE ; Jun Hee SUL ; Sung Kyu LEE ; Kyu Ok CHOI ; Bum Koo CHO ; Dong Sik CHIN
Journal of the Korean Pediatric Society 1983;26(4):386-391
No abstract available.
Aorta, Thoracic*
5.A Clinical Study of Interrupted Aortic Arch.
Myoung Dong SHIN ; Tae Hun KANG ; Hyoung Doo LEE ; Si Chan SUNG
Journal of the Korean Pediatric Society 1995;38(10):1349-1355
No abstract available.
Aorta, Thoracic*
8.A Startling Encounter during Transesophageal Echocardiography: Real-Time Three-Dimensional Demonstration of Highly Mobile Thrombi on the Aortic Arch.
Il Soon JUNG ; Jae Hyeong PARK ; Kyu Seub KIM ; Seok Woo SEONG ; Dae Hyun KIM ; Jae Hwan LEE ; Si Wan CHOI ; Jin Ok JEONG ; In Whan SEONG
Journal of Cardiovascular Ultrasound 2009;17(2):76-77
No abstract available.
Aorta, Thoracic
9.Penetrating Atherosclerotic Ulcers of the Abdominal Aorta: A Case Report and Review of the Literature
Thomas KOTSIS ; Basileios Georgiou SPYROPOULOS ; Nikolaos ASALOUMIDIS ; Panagitsa CHRISTOFOROU ; Konstantina KATSENI ; Ioannis PAPACONSTANTINOU
Vascular Specialist International 2019;35(3):152-159
Penetrating atherosclerotic ulcers (PAUs) of the aorta are defined as atherosclerotic lesions with aortic intima and media ulceration, which may lead to a complete rupture of the adventitial wall. The present article aimed to report an unusual case of a surgically treated patient with abdominal aorta PAU with an illustration of the key features and to review and analyze the existing literature data. PAUs typically develop in elderly and hypertensive patients and in patients with advanced atherosclerosis. Although originally described for the descending thoracic aorta, a similar clinicopathological entity also occurs in the abdominal aorta. Patients with symptoms of a PAU should be treated immediately if they are fit for surgery. Exceptive observation by imaging modalities is necessary in patients with asymptomatic small (<2 cm) PAU, with or without focal dissection.
Aged
;
Aorta
;
Aorta, Abdominal
;
Aorta, Thoracic
;
Atherosclerosis
;
Humans
;
Rupture
;
Ulcer
10.Prediction of Intimal Tear Site by Computed Tomography in Acute Aortic Dissection Type A.
Jun Sung KIM ; Kay Hyun PARK ; Cheong LIM ; Dong Jin KIM ; Yochun JUNG ; Yoon Cheol SHIN ; Sang Il CHOI ; Eun Ju CHUN ; Jin Young YOO
Korean Circulation Journal 2016;46(1):48-55
BACKGROUND AND OBJECTIVES: Preoperative identification of intimal tear site in acute type A dissection will help procedural planning. The objective of this study was to determine the key findings of computed tomography (CT)-based prediction for tear site and compare the accuracy between radiologists and surgeons. SUBJECTS AND METHODS: Multi-detector CT (MDCT) images from 50 patients who underwent surgical repair of type A aortic dissection were retrospectively reviewed by 4 cardiac surgeons with limited experience or by 3 radiologists specialized in cardiovascular imaging. Surgical findings of intimal tear site were used as references. RESULTS: In surgical findings, the locations of intimal tear that were identified in 43 patients included aorta (n=25), ascending with arch (n=7), and arch only (n=11). The rest were retrograde dissections from the tear of descending aorta. Key CT findings that were most frequently found were defect in the intimal flap shadow (30.0+/-4.0 patients/reviewer, accuracy 87.0+/-11.7%) and differential filling of false lumen by phase and location (9.4+/-2.9 patients/reviewer, 84.8+/-10.4%). Surgeons predicted tear site (75.0+/-7.7% vs. 86.7+/-1.2%, p=0.055) and specified flap defect (80.5+/-10.3% vs. 95.7+/-7.4%, p=0.073) with lower accuracy than radiologists. CONCLUSIONS: With MDCT imaging, well-educated surgeons could be accurate in three fourths of cases. There was room for improvement through experience. Considering the substantial possibility of inaccuracy, critical decisions on CT images should be made through thorough reviewing by as many experienced radiologists and surgeons as possible.
Aorta
;
Aorta, Thoracic
;
Humans
;
Retrospective Studies
;
Tears*
Result Analysis
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