Background

Coronary artery bypass grafting (CABG) has remained the most commonly performed cardiac surgery procedure over the past decades [1]. The main goal of the surgery is to improve survival and health related quality of life (QoL) [2]. Despite the fact that the profile of patients undergoing isolated CABG surgery has changed towards higher age with increased frequency of preoperative co-morbidities [3, 4] mortality and severe morbidity after CABG have even decreased over past decades [1, 5]. However, the life-expectancy of older and more moribund patients may be limited due to natural causes which emphasizes the importance of QoL as indication for surgery.

Whilst CABG surgery’s safety and efficacy in treating patients with coronary artery disease (CAD) is well-established, the complications of the surgery still remain a burden causing mortality, morbidity and decrease in QoL [5]. The outcomes of CABG surgery are mainly studied in terms of survival benefit and relief from cardiac related symptoms. Yet, there is a lack of long-term data on the effects of postoperative complications on QoL. In this prospective cohort study we evaluated the impact of postoperative complications on long term health related QoL and survival 12 years after CABG procedure. Special interest was focused on the impact of major adverse cardiac and cerebrovascular events (MACCE) on postoperative quality of life.

Methods

The original data on operations were obtained from Tampere University Hospital between May 1999 and November 2000. The study was approved by the institutional review board of Tampere university and all participating patients gave informed consent. The study cohort included 508 patients who had CABG surgery electively or urgently. Extensive medical data was prospectively collected pre-, per- and postoperatively during primary hospital stay. Majority of patients were discharged to 18 local district hospitals and data from these hospitals were collected by referring physicians and send to authors for further analysis. All predefined complications and outcome events were recorded for joint analysis with the primary hospital data. Statistical Finland provided survival data and dates of death after discharge and also survival data for age-, sex- and hospital-catchment-area-matched controls (1:3).

Total number of patients operated in Tampere University Hospital during study period was 1128. Patients who were emergently operated or unable to complete the survey were excluded. In comparison to 508 included patients, the excluded ones were less often male (402 (65%) vs. 420 (83%) patients p < 0.001), were older (mean age 67 vs 62 years p < 0.001), were operated more urgently (293 (47%) vs 109 (22%) patients p < 0.001), had more often ejection fraction under 50% (166 patients (28%) vs 92 (18%) patients p < 0.001), had more often history of stroke (43(6.9%) vs 20(3.9%) patients, p = 0.036) or diabetes (119 (19%) vs 74 (15%) patients p = 0.47). Preoperative characteristics of the patient groups are shown in Table 1.

Table 1 Demographic data and clinical characteristics of the 1128 patients operated during the study period
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First, a baseline QoL questionnaire was given to patients 1 day before surgery. Follow-up questionnaires were mailed to patients 1 year and 12 years after surgery. During the first postoperative year 17 patients (3%) died and 465 (95%) of 491 surviving patients returned the one-year follow-up questionnaire, mean follow-up time being 12.6 months (SD 1.2). Those 26 patients who did not complete the one-year follow-up survey, were younger (median age 54 vs. 63 years p = 0.006) in comparison to 465 patients who completed it. Otherwise the groups were closely similar in terms of sex, Euroscore 1 risk sum, priority of operation or NYHA glass. Next, the same follow-up questionnaire was mailed to patients 12 years after the surgery median follow-up time being 11.8 years (SD 0.48). Two hundred and 96 patients had died during this second follow-up period and 296 (84%) of the 354 surviving patients completed the follow-up questionnaire. There were no statistically significant differences in preoperative characteristics between the patients who completed and who didn’t complete the 12 year follow-up surveys. The enrolment of the patients is summarized in Fig. 1.

Fig. 1
figure 1

Consort diagram of patients included in the study

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The main focus of the study was to evaluate the effect of postoperative complications occurring after CABG operation during primary and secondary hospital stay on patients’ QoL and survival. The complications were predefined and included: 1) Re-sternotomy (due to bleeding or low-out put syndrome), 2) mediastinitis (deep sternal wound infection requiring debridement), 3) sternal or graft harvest site wound infection (symptomatic collection of pus or dehiscence of the wound requiring debridement), 4) gastrointestinal complication (radiologically and clinically verified cholecystitis, pancreatitis, ileus or acute mesentery ischemia), 5) stroke (clinically and radiologically verified by experienced neurologist), 6) acute kidney failure (in need of dialysis or increase of serum creatinine level more than 2-fold from baseline value), 7) pneumonia (causing clinical symptoms and radiologically verified), 8) pulmonary embolism (radiologically verified) 9) prolonged ventilatory support (> 36 h), 10) pleural effusion (radiologically verified and requiring treatment), 11) respiratory failure (in need of intubation or mechanical ventilation support), 12) atrial fibrillation (newly diagnosed by ECG requiring cardioversion or permanent anticoagulation), 13) ventricular tachycardia or bradyarrhythmia (requiring intensive care unit (ICU) or cardiac care unit (CCU) stay), 14) low out put syndrome (requiring the use of intra aortic balloon or prolonged need for inotropic medication), 15) Perioperative myocardial infarction (including new Q wave in electrocardiogram and a peak CK-MB level of more than 150 μmol/l), 15) postpericardiotomy syndrome (including fever, new or worsening pericardial and pleural effusion) and 16) delirium (deterioration of neuropsychological status requiring medication). Each patient within complication group could have had one or more postoperative complication. Major adverse cardiac and cerebrovascular events (MACCE), including re-sternotomy, mediastinitis, stroke, acute kidney failure and perioperative myocardial infarction, were also analyzed as an independent group. QoL and survival of patients with MACCE were compared with patients without MACCE, which included patients with other complications than MACCE or no complications.

The primary outcome of the study was health-related QoL which was assessed with Finnish adaption of RAND 36 generic health –related QoL scale. RAND-36 is a validated and widely used scale for which there are reference values available for Finnish population [6]. It comprises scores for eight different dimensions of health-related QoL: 1) general health, 2) physical functioning, 3) role functioning/physical 4) bodily pain, 5) emotional well-being, 6) role functioning/emotional 7) social functioning and 8) energy [7, 8]. The scores for each domain range from 0 to 100, 0 being the poorest and 100 the best possible health status. In addition, two summary scores can also be used: the physical component summary (PCS) including the mean value of physical sub-scales, whilst mental component summary (MCS) equals subscales (5–8) reflecting psychosocial health status [9,10,11].

Patients and outcome variables are mostly expressed as proportions of the total (in percentage), and continuous variables as means with standard deviation (SD). Categorical variables between the groups were compared by using chi-square test. Continuous variables were analysed with Mann-Whitney test. Baseline, 1 year and 12-year follow-up scores for QoL were compared using paired-samples t-test. PCS and MCS scores were compared in three time points with variance analysis for repeated measures. The Kaplan-Meier survival curves of assessed patient groups were compared using log-rank test. Statistical analyses were performed with SPSS 20.0 for Windows (IBM).

Results

Three hundred and ninety operations out of the 508 included in the analysis were performed electively and 110 (22%) urgently. Eighty-two percent of all patients were male and patients age varied between 34 to 92 years (median 63). Preoperative characteristics of all patients are shown in Table 1. In this study cohort, patients with complications were older (median age 66 vs. 60 years p < 0.001), had higher Euroscore 1 risk sum (median 3 vs. 2 p < 0.001), had more often history of stroke (7.3% vs. 1.7% p = 0.002), hypertension (59.0% vs 49.0% p = 0.02), persistent atrial fibrillation (5.0% vs. 2.0% p = 0.037), diabetes (19 vs. 12% p = 0.04) and were more often operated as a redo surgery (9.0% vs 3.0% p = 0.002). Otherwise both groups were closely similar in terms of preoperative characteristics. Patients with MACCE were older (median 69 vs. 62 years p < 0.001), had higher Euroscore 1 risk sum (median 4 vs 2 p < 0.001) and were more often operated as a redo surgery (11% vs. 4.0% p = 0.002) in comparison to patients without MACCE.

The types and frequencies of complications within the patient cohort are described in Table 2. In the total cohort of 508 patients, 205 patients (40%) experienced at least one of the complications included in our analysis. Seventy-three patients (14%) had MACCE during postoperative period.

Table 2 Number of patients with intra- and postoperative complication following CABG surgery in 508 patients included in the studya
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Thirty-day, 1-year and 10-year survival rates were 97% (7 deaths), 95% (11 deaths), 72% (58 deaths) in patients with complication and 99% (2 deaths), 98% (5 deaths), 84% (49 deaths) in patients without complications, respectively. Patients with complications had lower survival rates than patients without complication (log rank p < 0.001). Moreover, thirty-day, 1-year and 10-year survival rates were 90% (7 deaths), 89% (8 deaths) and 64% (26 deaths) in patients with MACCE. Hospital-catchment-area matched controls had a 10-year survival rate of 77%. In comparison with age-, sex- and hospital-catchment-area matched controls, only patients without complications had higher ten-year survival. Figs. 2 and 3 show Kaplan-Meier survival curves for all patient groups.

Fig. 2
figure 2

Kaplan-Meier survival curves for patients with and without complications (Log rank < 0.001)

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Fig. 3
figure 3

Kaplan-Meier survival curves for patients with and without major cardiac and cerebrovascular events (MACCE) (Log rank < 0.001)

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The RAND- 36 QoL mean scores in patients with and without complications and MACCE are shown in Table 3. The studied patient groups had inferior preoperative baseline QoL values when compared to Finnish general population. One year after surgery, all groups showed higher health scores in all eight QoL dimensions, but in the later follow-up period their scores deteriorated. Twelve years after bypass grafting, patients without complications maintained significant improvements in all but one RAND-36 dimensions (in general health), whereas patients with complications showed statistically significant long-term improvements in all but three different dimensions (in general health, emotional role functioning and energy). Furthermore, patients with MACCE maintained higher QoL score only in four RAND- 36 dimensions (in physical functioning, physical role functioning, emotional role functioning and pain). Patients with no complications showed higher QoL scores in all RAND-36 dimensions in comparison with age- and sex-matched reference values. The patients with complications and MACCE had elevated health status only in few QoL dimensions, when compared with reference population scores. Above all, changes in physical role functioning and pain were most notable in all patient groups.

Table 3 Quality of life scores (RAND 36) for survivors and general population
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Both patients with and without complications showed statistically significant improvements in RAND-36 PCS (p < 0.001) and MCS (p < 0.001) summary scores 1 and 12 years after CABG surgery compared with their preoperative scores (Table 4). Both groups had high physical and mental summary scores 1 year after surgery. In the late follow-up both PCS and MCS scores were lower. Patients with complications showed deeper decline in their MCS scores (p = 0.004) and PCS scores (p = 0.052) whilst patients without complications maintained their perceived QoL score status better. However, these groups showed elevated QoL score status even 12 years after the surgery when compared with their preoperative values. Patients with MACCE improved their PCS (p < 0.001) and MCS(p = 0.004) scores 1 and 12 years after surgery. However, patients with MACCE had lower PCS (p = 0.02) and MCS(p = 0.069) scores compared with patients with no MACCE 1 and 12 years after the CABG surgery.

Table 4 Mean change in RAND-36 physical component summary (PCS) and mental component summary (MCS) scores of the study patients in relation to occurrence of postoperative complications
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Discussion

Under the past few decades, the risk profile of patients undergoing isolated CABG has significantly evolved towards higher age with more preoperative comorbidities [4]. Furthermore, CABG has remained the most commonly used treatment for high risk patients with complex CAD [12, 13]. Despite the steady improvements in survival and operative safety, postoperative complications still cause significant morbidity and suffer among operated patients [5, 14]. The impact of postoperative complications is mainly evaluated in survival [14, 15] and economical [16] perspectives. However, the effect of postoperative complications on patients’ quality of life in long term is hitherto unclear. In this prospective cohort study, we evaluated the impact of postoperative complications on long-term Qol and survival. Special interest was focused on the impact of major adverse cardiac and cerebrovascular events on patients` postoperative QoL health-status.

The main finding of our study is that despite the on ongoing deterioration, patients with and without complications and MACCE had higher QoL score status at 1-year and even 12-years after CABG surgery. However, patients without complications maintained their perceived QoL best whereas patients with complications had slightly lower QoL scores 1 year and as long as 12 years after the surgery.

The effect of severe postoperative complications on QoL has remained controversial in previous studies. Major complications have shown to cause impaired postoperative QoL after CABG surgery [17,18,19]. Peric and colleagues found postoperative complications to be an independent predictor of impaired QoL 6 months after CABG surgery [20]. Moreover, Herlizt et al. demonstrated that postoperative complications such as prolonged stay at ICU, prolonged ventilator time and postoperative use of inotropics predict inferior QoL even after 15 years of after CABG operation [21]. On the contrary, Karhunen and colleagues reported that the long-term QoL of the patients, who survived after emergency re-sternotomy and resuscitation, was similar in comparison to patients without major postoperative complications [22]. In addition, Williams and co-authors found that 83% of patients, who had survived after CABG and related prolonged ICU stay had normal QoL 2 years after surgery [23]. We found that patients with major complications had lower PCS and MCS summary scores at 1 year and 12 years’ follow-up and these patients had deeper decline in their QoL status in comparison to patients without MACCE. However, encouragingly, patients with MACCE showed elevated QoL summary scores even 12 years after the surgery compared with preoperative values.

The incidence of postoperative complications after CABG surgery ranges between 30 and 40% depending on the number of different complication included in the studies [14, 15, 20]. These findings are in line with the incidence of postoperative complication, 40%, represented in our study cohort. The mechanisms behind complications causing impaired QoL can only be speculated upon. Firstly, postoperative complications often prolong primary hospital stay [14], and can cause recurrent hospital readmissions [14, 24] which may delay and interfere with the patients’ rehabilitation progress. Additionally, major complications and prolonged ICU stay can exposure patients to excessive stress reactions which may cause impaired mental and physical QoL [25]. Moreover, postoperative complications may deteriorate patients’ QoL status by causing long lasting local symptoms and physical deficit, such as chronic sternal pain after mediastinitis [26] or physical disability after stroke [27].

A wide range of health measurement tools have been developed to assess health related quality of life, of which Nottingham Health profile (NPH) [28], RAND-36 item health survey [7], the Medical Outcomes study short form (SF36) [8] and EuroQoL (EQ-5D) [29] are most commonly used. We selected the Finnish version of RAND-36 health surveys since it has been carefully validated and contains age and sex-adjusted reference values for the Finnish general population. These reference values originate from the studies of randomly selected population samples from The Finnish Population Register [6].

There are several limitations in our present study. Firstly, all emergently operated patients and those who were unable to complete the baseline survey were excluded from the study. This selection bias may limit the interpretation of the result mainly to electively and urgently treated patients. Yet, the study design was prospective and the follow-up of the study cohort was complete in 95 and 84% of patients at 1 year and 12 years, respectively, which partly reduces the impact of selection. Secondly, the study is possibly affected by survival bias since patients who survived over 12 years after CABG surgery with or without complications might have had better physical and mental health status than those, who died earlier. This could partly explain why our study population showed higher QoL scores in comparison to age- and sex-adjusted reference population. Thirdly, in addition to postoperative complications, other, non-cardiac medical comorbidities and adverse health events are shown to have a negative impact on patients’ health status after CABG surgery, especially in the long term follow-up [30]. Therefore we compared patients’ QoL scores with reference values of Finnish general population.

Conclusions

Despite of ongoing decline 12 years after CABG surgery, both patients with and without complications showed steady improvements in their health-related QoL when compared with the preoperative scores. However, the patients with complications and especially with MACCE had lower postoperative QoL at 1 year and 12 years after the surgery. Due to far-reaching impact of postoperative complications on patients QoL status, a special focus should be directed towards complication prevention and intensive rehabilitation of patients with postoperative complications after CABG surgery.