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ORIGINAL ARTICLE

Surgical results of coronary artery bypass grafting without cardiopulmonary bypass - analysis of 3,410 patients

Ricardo de Carvalho Lima; Mozart Augusto Soares de Escobar; José Glauco LOBO FILHO; Roberto DINIZ; Antonio Saraiva; Antonio Césio; Mário Gesteira; Frederico Vasconcelos

DOI: 10.1590/S0102-76382003000300011

INTRODUCTION

The appearance of cardiopulmonary bypass (CPB) in the last century enabled cardiac surgeons to perform various procedures, which, until then, had not been possible for technical reasons [1]. However CPB triggered a series of inflammatory reactions with different systemic responses, at very different degrees, with the possibility of terminating in death [2,3]. In the last few years, there has been a great advance in coronary artery bypass grafting (CABG) without CPB (Off-pump) mainly owing to the combination of advances in the surgical technique [4] and the development of instruments which enable the achievement of this surgery in the most varied situations [5].

There were different points that marked the development of the Off-pump technique. In the initial period (1967-1975) KOLLESSOV [6], ANKENEY [7], TRAPP & BISARYA [8] presented their experiences and good results. During a period of silence (1967-1981), there was no registration of the procedure being performed. Almost simultaneously, BUFFOLO [9] and BENETTI [10] established a second period with the utilization of this technique and started to divulge their results in the surgical treatment of the anterior arteries of the heart. In a third period (1995-1998), important contributions were observed: revascularization of the posterior arteries of the heart [11], Off-pump revascularization of the descending aorta by mini-thoracotomy [12] and the advent of cardiac stabilizers also in 1997 by BOONSTRA, GRANDJEAN & MARIANI [13].

From this moment several authors reported their experiences with high-risk patients and when compared with a historical series of surgery patients using CPB, presented with a reduction in the postoperative complications observed. In this study, the authors evaluate their experience with this procedure over the last 11 and half years, emphasizing the rapid progression of the method in the last years, its indications and results.

METHODS

Our experience started in August 1991 and until December 2002, 3,410 patients underwent Off-pump CPBG. The ages ranged from 13 to 93 years (mean 63 +- 12.0 years). Patients of eighty or over represented 3.5% of this cohort and 58% of the cases were male. Angina was classified according to the Canadian Cardiovascular Society criteria with 6.1% classified as class I, 6.8% as class II, 46.3% as class III and 40.8% classified as IV. Using the classification of the New York Heart Association, 60.2% of the patients were class I, 18.7% class II, 10.8% class III and 9.3% were class IV. The ejection fraction ranged from 20 to 68% with an average of 42.3% and a standard deviation of 17.4%. The demographic data are shown in Table 1.


Table 1. General data of the patients (n = 849)
AMI - Acute myocardial infarction

Operative technique

The surgeries were performed by longitudinal median sternotomy. The left internal thoracic artery (LITA) and the saphenous vein (SV) were dissected and simultaneously prepared for use. Since 1998, all the cases were operated on with the assistance of cardiac stabilization and shunts. We utilized the CTS-Guidant platform. The pericardium was opened in the form of an 'I'. Heparization was employed in two different doses: 1) 2 mg/kg/weight to perform a maximum of two grafts and 2) 4 mg/kg/weight to perform three or more grafts. Heparization was controlled by the activated coagulation time (ACT) with 300 seconds being accepted as the minimum value. The grafts on the pericardium were placed according to the previously described technique [4] (Figure 1). Anastomoses were performed according to the following order: anterior descending coronary, diagonal, right coronary and finally the marginal branches of the circumflex artery (Figure 2.). The distal anastomosis was performed before the proximal in the majority of the patients. A prolene 5-0 thread was used as a type of tourniquet on the proximal portion of the vessel to be treated with the aim of temporarily occluding the vessel whilst the coronary perfusor (shunt) is put in place, which ranged from 1.5 mm to 2.5 mm in diameter. Heparin was neutralized at the end of the procedure using a 1:1 proportion.


Fig. 1 - Ilustrative diagram of the suture on the posterior pericardium




Fig. 2 - Exposure of the heart during off-pump coronary artery bypass grafting

AD = anterior descendente artery; RC = right coronary artery; Cx = Circumflex artery

Surgical indication

Over these years three distinct periods were observed:

1) initial (1991 - 1993) where the surgery was reserved for severe patients or patients who presented with isolated coronary lesions of the anterior wall of the heart.

2) A second period (1993 - 1998) the posterior arteries were also revascularized in patients with good arteries and a good ventricle.

3) The third period (1998 - 2003) all the patients considered to have indications for conventional surgery, were also considered for Off-pump surgery (Figure 3.).


Fig. 3 - Evolution of CABG with CPB and Off-pump CABG over the years (1991 - 2002)

Currently we also consider some conditions as absolute contra-indications: combined surgery (revascularization and valve surgery); The presence of severe arrhythmias and significant heart failure.

Other contra-indications were relative and generally, observed during the operation: intramyocardial coronary; arteries of less than 1.2 mm diameter; arteries with intense calcification and big hearts with low ventricular function.

Some patients were considered ideal for Off-pump CPBG: advanced ages; previous strokes; renal failure; low ejection fraction, hematological alterations, arteriosclerotic plaques in the aorta and femoral artery, some reoperations and the presence of malignant diseases.

The results were expressed as a mean ± standard error. Statistical analysis of the data was made using the student t-test. The values were considered as statistically significant when the p-value < 0.05.

RESULTS

The utilization of Off-pump CPBG increased over the years from 3% in 1991, 10% in 1993 to 72% in 1995. From 1998 until now this percentage has remained greater than 95%, and for long periods it has been 100% (Figure 3). A total of 6,664 anastomosis were performed with 3,752 (56.3%) venous grafts and 2,912 (43.7%) arterial grafts. Of the arterial grafts utilized the mammary artery represented 95.9% (2,792 grafts), the radial artery 3.8% (111 grafts) and the gastroepiploic artery 0.3% (9 grafts). In the last year we did not observe any significant difference between the number of grafts of CPB and off-pump patients (CPB 2.8 ± 1.2 and off-pump 2.8 ± 0.8). The circumflex coronary artery was revascularized in 1,292 (37.9%) of the patients. The average surgery time from the first incision to closure was less than in CPB surgery (< 31 minutes). The mean postoperative ventilation time was less in the off-pump patients (± 3 hours and 48 minutes). The mean stay in the intensive care unit was 22 hours and 30 minutes.

Mortality

The operative mortality was low. In the intra-operative period it was 0.3% (10 patients) and in the post-operative period it was 2.3% (78 patients). Thus, the hospital mortality was 2.6% (88 patients). The causes of death were as follows: acute myocardial infarction, low cardiac outflow syndrome, arrhythmias, stroke, bleeding, sudden death, pulmonary failure, infection, acute renal failure, aortic dissection, pulmonary embolism and other unidentified causes (Table 2). Death in the eighty-year-old and over group was extremely low, especially when compared with the patients operated on under CPB (2.2% versus 12.6% - p-value < 0.001).


Table 2. Rate of hospital mortality (30 days) (n= 3,410)
AMI = Acute myocardial infarction, LCOS = Low cardiac Output Syndrome; ARF = Acute renal failure

Morbidity

Complications, which were considered important but not fatal, were observed in 262 (7.6%) patients. The most important non-fatal complications in the off-pump CPBG were as follows: atrial fibrillation, acute myocardial infarction, bleeding, stroke, low cardiac output syndrome, pulmonary failure, surgical wound infection and renal failure (Table 3).


Table 3. Non-fatal complications (n = 3,322)
AMI = Acute myocardial infarction, LCOS = Low cardiac Output Syndrome; ARF = Acute renal failure

The quantity of transfused blood was low in comparison to patients who underwent operations using CPB and a large number of patients were operated on without any type of blood transfusion or its derivatives. Only 35.4% of the patients received blood and/or its derivatives, which signifies that 64.6% of the patients were not exposed to any type of contamination from blood.

DISCUSSION

This study of patients represents our entire experience employing off-pump CABG over 11.5 years. This experience includes the initial cases, the learning curve, limitation of revascularization of the posterior vessels of the heart and patients operated on with and without cardiac stabilization [14,15]. In this population, there were patients with very different degrees of coronary and systemic diseases (including uni-, bi- and tri-arterial coronary disease), young patients (13 years old) and elderly patients (93 years). An average of 2.0 grafts per patient were performed, which for us seemed to be very reasonable, taking into consideration the evolution over 11.5 years, where at the start of the experience coronary angioplasty was not so developed and many patients were submitted to surgical CABG of only one artery. Also it is necessary to consider the learning curve, which in one way or another selected the patients. Over the last years, the mean number of grafts per patient has significantly increased and in the last 631 patients the mean was 2.8 grafts per patient, of which, was not very different to the average number of patients operated on by the conventional technique using CPB.

The anesthesia, in general, was the same as was used in patients operated on with CPB. However, greater interaction is necessary between the surgeons and the anesthesiologist and, the latter is required more during the procedure. The administration of a lower quantity of anesthetic agents and the utilization of short-duration muscular relaxants enable an earlier extubation of these patients.

The operative technique varied over the years. At the start, cardiac stabilization was achieved using gauze around the heart, the administration of negative chronotropic drugs and proximal and distal tourniquets of the coronary artery. From 1998 we started to systematically use heart stabilizers and intra-coronary shunts. The stabilizers enabled a significant increase in the applicability of the method. The long times of off-pump CABG in 100% of the patients was possible due to the utilization of these devices. The intra-coronary shunt has also had an important role, not only allowing distal perfusion of the coronary but also reducing the necessity of permanent occlusion using a tourniquet on the coronary artery during anastomosing.

Currently we only use a proximal tourniquet during arteriotomy. The quantity of heparin routinely used is less than that used in conventional CABG with CPB. We have used 2-4 mg/kg/weight and neutralization using protamine sulfate in the proportion of 1:1 at the end of the main procedure. In some patients we neutralized in the proportion of 1:½, as these patients had their coagulation systems preserved and can in some situations present with hypercoagulation, which can provoke unsatisfactory results. From 1998, the exposition of the coronary arteries was made associated with a posterior pericardium suture and the utilization of cardiac stabilizers. This modification of the exposure technique was incorporated in our routine surgery and, without doubt enabled off-pump CABG with greater safety and with better access to the coronary arteries.

The surgical practice over the years established three basic positions of exposition of the arteries (anterior descending, right coronary and the circumflex artery). These positions are utilized to avoid serious hemodynamic involvement during the procedure [16]. The delicate maneuvers of exposure of the vessels were achieved with care especially in patients with severe myocardial ischemia. The heart was gradually moved into any position with care and allowed to recover from any initial instability before performing any anastomosis. After exposure of the area of the heart to be approached, the stabilizer is applied and after some minutes any tendency of hypotension is verified. If this happens the heart should be returned to its initial position and attempts to correct any hemodynamic factor, such as low heart rate, must be made.

It seems correct to start anastomosis by the anterior wall of the heart (anterior descending coronary), followed by the right coronary and finally the circumflex artery system and its branches. Revascularization of the anterior descending coronary considerably improves the perfusion of the coronary, enabling and facilitating the revascularization of the posterior arteries. Also performing the proximal anastomosis of the aorta promotes an immediate irrigation of the myocardium soon after the end of the distal anastomosis, facilitating the following anastomosis, as the heart is becoming revascularized.

Off-pump CABG represents a change in the paradigm in the treatment of coronary failure [17]. In the last five years a great amount of interest has been shown for the method and an increase in its applicability across the world. By the number of scientific publications about the theme it is possible to infer that hundreds of centers worldwide currently use this procedure. We believe that candidates for the utilization of this procedure are severely ill patients who possess comorbidities such as: advanced age, previous strokes, renal insufficiency, low ejection fraction, hematological alterations, the presence of plaques in the aorta and femoral artery, recovery and sufferers of malignant diseases.

If this procedure should be recommended for severely ill patients, we believe that low risk patients and patients without comorbidities will also benefit with the same surgical approach. Exceptions exist for those patients with absolute and relative contra-indications. These include combined surgeries (revascularization and valve replacement), severe heart failure, intramyocardial coronary, Arteries of less than 1.2 mm diameter, coronary arteries with intense calcification (which might result in endo-arteriectomy), severe cardiomegaly with significant ischemia which would not survive the minimum manipulation.

CONCLUSIONS

The retrospective study demonstrated that, off-pump CABG was used as a revascularization technique in single and multiple graft patients as a routine and uninterrupted procedure for a period of 11.5 years. In this cohort it was possible to perform off-pump CABG in more than 95% of the patients with a great safety margin. The number of grafts per patient in the last years did not give a significant difference between the patients operated on with or without CPB and after the learning period this can be the choice procedure for surgical CABG, thus representing a change in the paradigm.

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Article receive on Tuesday, April 1, 2003

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