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J Thorac Cardiovasc Surg 1999;117:292-297
© 1999 Mosby, Inc.

SURGERY FOR ADULT CARDIOVASCULAR DISEASE

QUANTITATIVE ANGIOGRAPHIC ASSESSMENT OF CORONARY ANASTOMOSES PERFORMED WITHOUT CARDIOPULMONARY BYPASS

From the Departments of Surgery^a and Radiology^b and the Cardiac Catheterization Laboratory,^c Montreal Heart Institute, Montreal.

Received for publication March 12, 1998. Revisions requested June 12, 1998; revisions received Aug 26, 1998. Accepted for publication Sept 18, 1998. Address for reprints: Michel Carrier, MD, Montreal Heart Institute, 5000 Belanger St E, Montreal, Quebec H1T 1C8, Canada.

	Abstract

Top Abstract Introduction Patients and methods Results Discussion References

 
Background: The quality of the anastomosis performed during coronary artery bypass grafting without cardiopulmonary bypass is a current concern, and myocardial wall restraining devices have been designed to optimize results. A quantitative angiographic analysis was performed to assess coronary anastomoses performed on beating hearts.
Methods: We studied 34 patients who underwent coronary artery bypass grafting without cardiopulmonary bypass between February 1996 and April 1997. The left internal thoracic artery was anastomosed to the left anterior descending coronary artery in all patients. Coronary angiograms were performed 4 ± 2 days after the operation. The diameter of the anastomoses was quantified by computer-assisted analysis of grafts and native coronary arteries at the toe and heel of the anastomosis.
Results: Five of the patients who underwent coronary artery bypass without a stabilizer (n = 20) had stenoses of the internal thoracic artery grafted to the left anterior descending coronary artery of more than 50% at the level of the anastomosis proper, 3 had stenoses at the heel of the coronary anastomosis, and 5 had stenoses at the toe. One of the patients in whom a stabilizer was used (n = 14) had a stenosis of more than 50% at the anastomosis, and 1 had stenosis at the heel. Eight patients in whom the anastomoses were performed without stabilization (8/20, 40%) had stenoses of more than 50%, whereas there was only 1 stenosis of more than 50% of coronary luminal diameter among the patients in whom the operation was performed with a stabilizer (P = .02).
Conclusion: The quantitative angiographic evaluation suggests that left internal thoracic artery graft to left anterior descending coronary artery anastomoses have a lesser degree of intraluminal stenosis when performed with the use of a myocardial wall stabilizer.

	Introduction

Top Abstract Introduction Patients and methods Results Discussion References

 
Although coronary artery bypass grafting (CABG) without the use of cardiopulmonary bypass and cardioplegic arrest of the heart was recently publicized in the literature, a great concern remains among cardiac surgeons regarding the quality of the surgical anastomoses performed on the beating heart. ^1-4 Mechanical stabilization of the myocardial wall has therefore been proposed to improve the quality of anastomoses. ⁵ The objective of this study was to assess, by means of early quantitative angiographic evaluation, coronary anastomoses performed with and without a myocardial wall stabilizer device during CABG on beating hearts.

	Patients and methods

Top Abstract Introduction Patients and methods Results Discussion References

 
Study patients
Between February 1996 and April 1997, 34 nonrandom, selected patients underwent CABG without cardiopulmonary bypass at the Montreal Heart Institute and gave informed consent for an angiographic evaluation of coronary anastomoses during the immediate postoperative period. The first 20 patients underwent CABG on beating hearts without a myocardial wall stabilizing device; in the remaining patients, a restraining or stabilizer device was used to help perform the anastomoses (Table I).

CABG without stabilizing device
The left anterior descending coronary artery was isolated and occluded with silicone elastomer (Silastic; Dow Corning, Midland, Mich) string snares and intracoronary occluders. The coronary anastomosis was done with a continuous suture of Prolene (Ethicon, Inc, Somerville, NJ). The immediate patency was confirmed through Doppler assessment of graft blood flow.

CABG with a stabilizing device
A simple mechanical myocardial wall restraining device, consisting of 2 small plates of metal compressing a small area of the myocardium surrounding a coronary artery, was developed locally and applied to a standard chest retractor. The edges of the stabilizer were applied along the coronary artery, after occlusion with silicone elastomer snares, causing restriction of heart movement between the U legs of the device. The restraining device allowed coronary anastomoses to be performed with the standard suturing technique.

Quantitative angiographic evaluation
Coronary angiography was performed 4 ± 2 days after CABG with a standard technique through the femoral route. A dose of 0.3 mg nitroglycerin was injected selectively in each bypass graft. For each anastomotic site, the incidence that revealed the severest degree of stenosis was analyzed quantitatively with a computer-assisted method ^6,7 by means of the Cardiovascular Measurement System (CMS, version 2.0; Medical Imaging System, Nuenen, The Netherlands). A selected cinematic frame was digitized, displayed on a video monitor, and magnified 2.3 times. An automatic edge-detection program determined the graft and coronary artery contours by assessing brightness along scan lines perpendicular to the center lines of the vessel. The image was calibrated on the basis of the known or measured size of the catheter, and the vessel diameters (in millimeters) were displayed for the length of the segment analyzed. The computer automatically calculated minimum lumen diameter and percentage diameter stenosis.

The quantitative evaluation focused on 3 particular segments of interest: the native coronary artery at the proximal portion of the anastomosis (the heel, Fig. 1), the anastomosis proper (Fig. 2), and the coronary artery at the distal portion of the anastomosis (the toe, Fig. 3). The adjacent native coronary segments were used as references. The degree of stenosis of the anastomosis proper was calculated by comparing the diameter of the anastomosis with that of the proximal portion of the graft. The normal diameter of the coronary artery proximal to the anastomosis was compared with the minimum lumen diameter of the proximal portion of the anastomosis to give the degree of stenosis of the coronary artery at the heel of the anastomosis. Similarly, the normal diameter of the coronary artery distal to the anastomosis and the minimum lumen diameter at the distal portion of the anastomosis were compared to estimate the degree of stenosis of the coronary artery at the toe of the anastomosis. Blood flow through these anastomoses was evaluated semiquantitatively according to the criteria previously described in the Thrombolysis in Myocardial Infarction (TIMI) studies. ⁸

View larger version (149K): [in this window] [in a new window]   Fig. 1. Quantitative angiography of a left ITA graft (LITA) to a left anterior descending coronary artery. Lateral view of a 63% stenosis of the heel of the coronary anastomosis. First arrow, Normal diameter of the coronary artery; second arrow, stenosis at the heel.

View larger version (144K): [in this window] [in a new window]   Fig. 2. Quantitative angiography of a left ITA graft (LITA) to a left anterior descending coronary artery. Right anterior oblique view of a 44% stenosis of the coronary anastomosis proper. First arrow, Diameter of the ITA graft; second arrow, stenosis of the anastomosis proper.

View larger version (157K): [in this window] [in a new window]   Fig. 3. Quantitative angiography of a left ITA graft (LITA) to a left anterior descending coronary artery. Lateral view of a 29% stenosis of the toe of the coronary anastomosis. First arrow, stenosis at the toe; second arrow, normal diameter of the coronary artery.

	Results

Top Abstract Introduction Patients and methods Results Discussion References

 
Quantitative angiographic evaluation
Five patients who underwent CABG of the left ITA to the left anterior descending coronary artery without stabilizer use had residual anastomotic stenoses of more than 50% of the luminal diameter, 3 had such stenoses at the heel of the anastomosis, and 5 had such stenoses at the toe (Table II). One patient in whom the anastomosis was performed with the help of a stabilizer had a residual anastomosis stenosis of more than 50% of the luminal diameter, one had such a stenosis at the heel of the anastomosis, and none had any stenoses at the toe. Anastomotic stenoses of more than 50% in luminal diameter were more common among patients operated on without a stabilizer (Table II). There were 2 occlusions in the group without stabilizer use but none in the group with stabilizer use. Reference diameters of the left anterior descending coronary artery averaged 2 ± 0.5 mm in patients without stabilizer use and 2 ± 0.2 mm in those with stabilizer use (P = .9).

	Discussion

Top Abstract Introduction Patients and methods Results Discussion References

Subramanian ⁵ recently reported a study of 156 patients who underwent CABG through a minithoracotomy or a subxiphoid incision with a mechanical stabilizer similar to that used in this study. Ninety-two percent of the grafts were patent 24 to 36 hours after the operation. Cremer and colleagues ⁹ also reported early postoperative angiographic results for 15 patients with the same technique through a minithoracotomy, with no graft occlusion.

This study used a more precise angiographic evaluation of coronary anastomoses than used in previous reports, namely a quantitative approach. Although these patients were the first in our experience to undergo CABG on the beating heart, the use of a stabilizer resulted in a significant decrease in residual anastomotic stenosis, as expressed in percentage of control arterial diameter, in a lower number of residual anastomotic stenosis of more than 50%, and in a better coronary blood flow through the anastomoses. Consequently, left ITA graft to left anterior descending coronary artery anastomoses should be performed with the help of a mechanical restraining device. Moreover, these results compare favorably with recent experiences published for early angiographic evaluation of CABGs performed with the classic approaches featuring cardiopulmonary bypass and cardioplegic arrest. ^10,11

Cardiac stabilization with one of the many restraining devices currently in use offers a major technical advantage by creating a small but stable coronary field in which to perform the anastomosis during a short period of regional ischemia. Although these devices are easy to use on the anterior surface of the heart, they are far more difficult to position correctly for circumflex coronary artery and in distal right coronary artery territories. This may explain the similar numbers of anastomotic stenoses observed in saphenous vein grafts performed with and without stabilizer use.

This study describes early results of a small, consecutive, nonrandom sample of patients in whom the operation was performed through a median sternotomy or a minithoracotomy. Although these patients were among our initial experience with CABG on the beating heart and represent our learning curve with the techniques, quantitative analysis of coronary angiograms at anastomotic sites yields a useful appreciation of angiographic results with the 2 techniques.

The techniques of minimally invasive CABG are rapidly evolving and are most promising. Quantitative angiographic evaluation of coronary anastomoses appears to be an appropriate tool to study the development of these approaches. ^5,6,12 This study shows that, during CABG on the beating heart, grafting of ITA to the left anterior descending coronary artery performed with the help of a mechanical myocardial wall restraining device results in lesser residual luminal stenosis at the anastomotic site than does the same procedure performed without stabilization. Myocardial stabilizers appear useful in obtaining optimal technical results in minimally invasive CABG.

	References

Top Abstract Introduction Patients and methods Results Discussion References

 

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