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(Circulation. 2000;101:e165.)
© 2000 American Heart Association, Inc.

Circulation Electronic Pages

Three-Dimensional Reconstruction of a Large Venous Bypass Graft Aneurysm Supplying 2 Coronary Arteries

Stephen M. Wildhirt, MD; Christoph Becker, MD; Herman Reichenspurner, MD, PhD; Bruno Reichart, MD

From the Departments of Cardiac Surgery (S.M.W., H.R., B.R.) and Diagnostic Radiology (C.B.), Ludwig-Maximilians University, Munich, Germany.

Correspondence to Stephen M. Wildhirt, MD, Department of Cardiac Surgery, Ludwig-Maximilians University, Marchioninistraße 15, 81377 Munich, Germany. E-mail wildhirt{at}hch.med.uni-muenchen.de

	Introduction

Top Introduction

 
This 33-year-old patient had had emergency surgery 11 years earlier, at age 22 years, for acute dissection of the ascending aorta involving the main stem of the left coronary artery with grade 4 regurgitation of the aortic valve. The aortic valve and the ascending aorta were replaced with a conduit consisting of a biological prosthetic aortic valve and an aortic prosthesis (Bentall’s technique). Because the dissection involved both coronary ostia, the native coronary arteries were not reimplanted. Instead, 2 saphenous vein segments were used for CABG to the left circumflex artery (LCx) and right coronary artery (RCA). The patient recovered from surgery and remained free of symptoms.

He presented at the age of 33 years with chest pain and shortness of breath during light exercise. Echocardiography showed severe left ventricular hypertrophy as well as intense degeneration and calcification of the grade 4 stenotic aortic valvular bioprosthesis. In addition, reduced myocardial wall motion of the anterolateral region of the left ventricle was noted. The ejection fraction was reduced to 45%.

Aortic angiography showed an aneurysmatic formation in the region of the ascending aorta from which both venous bypass grafts were supplied (Figure 1). Electron beam tomography (EBT) revealed a large aneurysmatic formation in the region of the proximal anastomosis of the aortic prosthesis 5.0 cm in diameter. After 3D reconstruction of the EBT scans, the pathological condition was better appreciated. It revealed a large aneurysm of the venous bypass graft to the LCx from which the CABG to the RCA was supplied (Figure 2).

View larger version (182K): [in this window] [in a new window]   Figure 1. Left anterior oblique view of left ventricle and ascending aorta. Large aneurysmatic formation is visualized (arrows). Aortic vascular prosthesis is marked by arrowheads. LV indicates left ventricle; Ao, native aorta.

View larger version (72K): [in this window] [in a new window]   Figure 2. Shaded-surface 3D reconstruction of ascending aorta. Large venous bypass graft aneurysm supplying both bypass grafts is shown by EBT. GA indicates graft aneurysm; Ao, aorta; PA, pulmonary artery; and CX, LCx. A, anterior view; B, left superior oblique view; and C, right lateral view.

EBT images were performed from scans 3.0 mm thick, increment 2.0 mm, scan duration 0.1 second, 40 slices after intravenous injection of contrast media (3 mL/s; 120 mL total volume). Scans were triggered to late diastole for every heartbeat. The EBT shaded surface was created with Virtuoso software (Siemens Medical Systems). The chest wall was subtracted from the source images before 3D reconstruction.

The patient underwent reoperation. During surgery, the pathological anatomy was similar to what was identified by 3D reconstruction of the EBT. The degenerated aortic valve and the aortic prosthesis were replaced with a mechanical bileaflet valve and an aortic prosthesis as a conduit (Bentall’s technique). The length of the aortic vascular prosthesis was extended to the aortic arch because of the significant atherosclerotic degeneration of the native aorta; the distal anastomosis was performed under hypothermic circulatory arrest. The venous bypass grafts were ligated. Both internal thoracic arteries were used as arterial grafts for the LCx and RCA. Because of a dominant circumflex coronary artery system, a venous CABG was used to supply a large posterolateral branch of the LCx. The patient’s postoperative recovery was prolonged; he required catecholamines and intensive care for 9 days. He was discharged with improved myocardial performance 21 days after surgery.

	Footnotes

 
The editor of Images in Cardiovascular Medicine is Hugh A. McAllister, Jr, MD, Chief, Department of Pathology, St Luke’s Episcopal Hospital and Texas Heart Institute, and Clinical Professor of Pathology, University of Texas Medical School and Baylor College of Medicine.

Circulation encourages readers to submit cardiovascular images to the Circulation editorial office, St Luke’s Episcopal Hospital and Texas Heart Institute, 6720 Bertner Ave, MC1-267, Houston, TX 77030.

This Article Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Request Permissions Citing Articles Citing Articles via Google Scholar Google Scholar Articles by Wildhirt, S. M. Articles by Reichart, B. Search for Related Content PubMed PubMed Citation Articles by Wildhirt, S. M. Articles by Reichart, B. Related Collections Cardiovascular imaging agents/Techniques CT and MRI CV surgery: aortic and vascular disease Computerized tomography and Magnetic Resonance Imaging