A Retrospective Comparative Study between Levosimendan and Adrenaline as a Pharmacological Protocol for the Management of Coronary Artery Bypass Grafting Patients with Low Ejection Fraction : A Friend or Foe

Background: Left ventricular ejection fraction is an independent determinant of the outcome of coronary artery bypass surgery. Low preoperative ejection fraction requires special care in terms of pharmacological and mechanical inotropic support. Adrenaline is the most widely used inotropic drug, while levosimendan is a relatively new inotropic drug in the field of cardiac surgery. In this study, we aimed to evaluate the relative efficacy of levosimendan in low ejection fraction patients undergoing coronary artery bypass grafting (CABG). Methods: A retrospective comparative study was performed with 63 patients who underwent isolated on-pump elective CABG with a preoperative ejection fraction below 40%. Patients were allocated to the adrenaline group (n = 35) and levosimendan group (n = 28). Patients were further stratified according to ejection fraction above 30% and below or equal to 30%. The primary outcome was cardiac-related mortality, while other parameters were considered secondary endpoints. Results: EuroSCORE of the adrenaline group was 3.34 ± 1.26 and for the levosimendan group 3.15 ± 1.42 (p value 0.576). Nine patients of the adrenaline group had new postoperative atrial fibrillation compared to seven patients in the levosimendan group (p value 0.948). Two patients of the adrenaline group had postoperative ventricular arrhythmia compared to only one patient in the other group (p value 0.691). The adrenaline group had higher doses of inotropic support compared to the levosimendan group 210.84 ± 23.74 and 157.4 ± 22.69 ng/kg/min respectively (p value < 0.001). Longer ventilation hours and overall duration of ICU stay How to cite this paper: Al Jawad, M.N.A. and Shorbagy, M.S. (2018) A Retrospective Comparative Study between Levosimendan and Adrenaline as a Pharmacological Protocol for the Management of Coronary Artery Bypass Grafting Patients with Low Ejection Fraction: A Friend or Foe. World Journal of Cardiovascular Surgery, 8, 219231. https://doi.org/10.4236/wjcs.2018.811022 Received: October 29, 2018 Accepted: November 23, 2018 Published: November 26, 2018 Copyright © 2018 by authors and Scientific Research Publishing Inc. This work is licensed under the Creative Commons Attribution International License (CC BY 4.0). http://creativecommons.org/licenses/by/4.0/ Open Access M. N. A. Al Jawad, M. S. Shorbagy DOI: 10.4236/wjcs.2018.811022 220 World Journal of Cardiovascular Surgery were also noticed in the adrenaline group 32.57 ± 7.23 hours, 8.84 ± 3.28 days in comparison to the levosimendan group 24.37 ± 5.09 hours, 6.23 ± 2.37 days (p values < 0.001 and 0.002 respectively). However, the primary endpoint was not significantly different between the two groups. Conclusions: The levosimendan-based protocol failed to improve overall mortality in low ejection fraction patients undergoing CABG. However, this protocol significantly reduced the dose of inotropic and vasoconstrictor support needed, ventilation hours and duration of ICU stay.


Introduction
Coronary artery bypass grafting (CABG) is the most common cardiac surgery in adults at present [1].Various factors, mainly the perioperative left ventricular ejection fraction, degree of ischemia and coronary lesion anatomy, contribute to the outcome of this procedure [2].Among other factors are the insertion of an intra-aortic balloon pump (IABP) and a low cardiac output status perioperatively [3].
The use of intra-aortic counterpulsion is debatable with regard to the timing of insertion.Although many studies have found that preoperative insertion has a beneficial effect because it stabilizes the hemodynamics, increases coronary perfusion and reduces myocardial ischemia [4].However, the recent guidelines of the European Society of Cardiology (ESC) do not recommend the routine use of IABP in a preoperative setting [class III] [5].
Following cardiac surgery, myocardial contractility tends to decrease owing to myocardial edema and decreased myocardial compliance.This process continues to occur in the early postoperative period, which requires careful and delicate pharmacologic management in patients already suffering from depressed left ventricular function [4].
At our institute, we use a combination of inotropic adrenaline infusion with coronary dilator glyceryl trinitrate (GTN) infusion in most patients as a standard protocol in addition to mechanical support in the early postoperative period.
More recently, some surgeons and anesthetists introduced the new inotropic drug levosimendan combined with titrated doses of noradrenaline infusion as an alternative to the well-established protocol.
In this study, we aimed to compare the two protocols in terms of mortality and the associated low cardiac output syndromes in the early postoperative period.The study included 63 patients of both sexes who had undergone elective, isolated, on-pump CABG for three-vessel disease (regardless of the final number of grafts) utilizing antegrade blood-enriched cardioplegic arrest under moderate hypothermia 28˚C -32˚C.The preoperative left ventricular ejection fraction was below 40% by two-dimensional echocardiography, and the left ventricular diastolic diameter was up to 6.5 cm.We excluded patients with mitral regurgitation grade III or IV, patients who underwent mitral valve intervention, and patients with other comorbidities of hepatic, renal or respiratory origin.

Patients and Methods
We stratified the patients into two groups according to ejection fraction below or equal to 30% or above 30%.

Statistical Analysis
The statistical presentation and analysis were conducted using the mean and standard deviation; unpaired Student's t-test was used to compare quantitative data between two groups, and chi-squared tests were computed for 2 × 2 tables using qualitative data by IBM SPSS Statistics for Windows, Version 20.0.Armonk, NY: IBM Corp.).

Results
The study included 63 patients, 35 of whom belonged to the adrenaline protocol.
The majority of patients in both groups were male.The patients' demographics,  1.
Operative details along with the final number of grafts are shown in Table 1.
The overall postoperative course is shown in Table 1, and the overall incidence of postoperative arrhythmia was higher in the adrenaline group than in the levosimendan group, but the difference was not statistically significant.The overall use of postoperative IABP was higher in the adrenaline group than in the levosimendan group, but the difference was not statistically significant.The need for inotropic support was higher in the levosimendan group than in the adrenaline group, but the difference was not statistically significant.The dose of adjuvant adrenaline use in the levosimendan group was significantly lower than the dose used in the adrenaline group (p-value < 0.001, highly significant).Similarly, the dose of noradrenaline in the levosimendan group was significantly lower than that in the adrenaline group.The total ventilation hours and, subsequently, the duration of ICU stay were significantly lower in the levosimendan group than in the adrenaline group.The primary outcome regarding mortality in the two groups was not different (Table 1).
A comparative hemodynamic study regarding the heart rate showed lower heart rate values in the levosimendan group than in the adrenaline group, but the difference was not statistically significant on Day 0 or the following day (Table 2, Figure 1).
The values of systolic blood pressure failed to show a significant difference in either group even after 48 hours (Table 3, Figure 2).
The diastolic blood pressure values were not significantly different in either group (Table 4, Figure 3).
When further stratifying the patients according to their preoperative left ventricular (LV) ejection fraction, both groups showed a significant difference in the doses of adrenaline and noradrenaline, with significantly higher doses in the adrenaline group than in the statistical significance being higher in the adrenaline group than in the levosimendan group.Again, the mortality in both groups failed to exhibit a statistically significant difference (Table 5, Table 6, Figure 4).

Discussion
Preoperative left ventricular function (EF) is one of the independent risk factors determining the outcome of coronary artery surgery.Operating in this category of patients, i.e., patients with an EF < 40%, carries a higher incidence of mortality and morbidity than operating on patients with normal ejection fraction [6].
Preoperative EF is included in most "scoring systems,", e.g., EuroSCORE and STS risk calculator, as it is the strongest predictor of postoperative mortality, low       altering levels of intracellular calcium, which is readily available to sarcoplasmic reticulum [8].
Catecholamines are most widely used in the clinic.Catecholamines exert their cardiac inotropic effect and peripheral vasoconstrictor effect through alpha-and beta-adrenergic receptors (a1, ß1, and ß2).The cardiac effect is mediated through ß1 adrenergic receptors, which when bound to adrenaline, increase the DOI: 10.4236/wjcs.2018.811022226 World Journal of Cardiovascular Surgery levels of intracellular calcium through L-type calcium channels, thereby increasing both the rate and force of contraction [8].
Adrenaline is a ß1 agonist in low doses and an a1 agonist in high doses; thus, Figure 3. Hemodynamic comparative study of diastolic blood pressure.high doses are not preferred in patients with a metabolic profile of hyperlactatemia and hyperglycemia.In addition, high doses of adrenaline have undesirable effects of tachycardia in ischemic patients [9].
In contrast, has a relatively more favorable metabolic profile.Levosimendan increases myocardial contractility without increasing oxygen demand and "unfavorable" tachycardia thorough sensitization of troponin C to calcium, thus enhancing the binding of troponin C to calcium and increasing myocardial contractility [10].
Rungatscher and colleagues showed in their animal model the superiority of levosimendan over adrenaline in improving myocardial contractility during the rewarming stage after deep hypothermic cardiopulmonary bypass.The researchers successfully shed light on ß adrenergic receptor function during the pathophysiologic conditions of hypothermia.The function of ß adrenergic receptors tends to markedly diminish during hypothermia, leading to the use of higher doses of catecholamines with the subsequent increase in oxygen demand, arrhythmia and regional hypoperfusion leading to organ damage [11].
Lilleberg et al. conducted the first human randomized clinical trial (RCT) to evaluate the efficacy and safety of levosimendan.The trial consisted of low-risk patients with a normal ejection fraction who were undergoing isolated CABG.The patients showed marked improvement in myocardial functions without a significant association with tachycardia and myocardial oxygen demand [12].Nijhawan and colleagues confirmed these data [13].
In our special category of patients with depressed LV functions, Rajek and colleagues were among the first authors who reported "dramatic" improvement of cardiac output after CBP, minimizing inotropic support requirements and decreasing the overall duration of ICU stay [14].Many other authors have confirmed their findings [15].Raja and colleagues concluded in their meta-analysis that levosimendan indeed increased myocardial performance with a reduction in afterload.They also recommended the use of levosimendan in the preoperative period to decrease the need for postoperative catecholamine treatment, mechanical support and/or an ICU stay [15].
In 2017, Sanfilippo and colleagues published their meta-analysis of six RCTs, including patients with an EF below 35% who were undergoing various cardiac operations.The researchers demonstrated a significant reduction in mortality in patients with severe LV dysfunction without affecting overall "all-cause" mortality [16].
Many authors demonstrated a "better timing" of levosimendan administration to minimize myocardial damage and the need for inotropic support, vasopressors and mechanical support.Most researchers agree that preoperative administration of levosimendan 12-24 hours before CPB is beneficial [17] [18].
To assess the "potential benefit" of preoperative levosimendan administration, a number of RCTs were initiated in a multicenter approach: the LEVO-CTS trial, the CHEETAH trial and the Levosimendan in Coronary Artery Revascularization (LICORN) trial [19].
The Levosimendan in Patients with Left Ventricular Dysfunction Undergoing Cardiac Surgery (LEVO-CTS) trial results were published in 2016.The study concluded that prophylactic use of levosimendan did not improve the outcomes of mortality, perioperative myocardial infarction or mechanical support when compared to placebo [20].
The Levosimendan for Hemodynamic Support after Cardiac Surgery (CHEETAH) trial was stopped, as the efforts were deemed "futile".After enrolling 506 patients, no statistically significant difference was found between the low-dose levosimendan group and placebo group when combined with standard ICU care protocols.There were also no differences in 30-day-hospital mortality, mechanical ventilation, low cardiac output syndrome (LCOS) and dysrhythmias with levosimendan treatment compared to placebo drug treatment [21].constrictor use were variable in the two groups.The primary outcome for this study showed no statistically significant difference between the two pharmacological protocols.

Limitations of the Study
The present study is limited by its retrospective design and small population.In addition, the exclusion of associated ischemic mitral regurgitation pathology and/or intervention that significantly affects the outcome in patients with a low EF is another limitation.Additionally, the study lacks follow-up data for the assessment of mid-and late-term results and outcomes.

Conclusion
The use of levosimendan in low ejection fraction patients undergoing CABG did not alter the overall mortality.However, levosimendan treatment decreases the use of adjuvant inotropic support that may be needed in such cases and may be hazardous if used in high doses.Additionally, levosimendan treatment may further decrease the ventilation hours and the duration of ICU stay.This study paves the way for further research to establish an optimized protocol for the management of such a challenging condition.

A
retrospective study of the registry of the Department of Cardiothoracic Sur-M.N. A. Al Jawad, M. S. Shorbagy DOI: 10.4236/wjcs.2018.811022221 World Journal of Cardiovascular Surgery gery at our institution was conducted from January 2015 until December 2017.

Figure 4 .
Figure 4. Adrenaline and noradrenaline doses in the two groups according to their preoperative EF.
The most recent clinical trial investigating the role of levosimendan, titled "Effect of Levosimendan on Low Cardiac Output Syndrome in Patients With Low Ejection Fraction Undergoing Coronary Artery Bypass Grafting With Cardiopulmonary Bypass: The LICORN Randomized Clinical Trial", published their results late in 2017.Levosimendan, when compared to placebo, failed to induce a significant difference in terms of mortality, the duration of inotropic support use and the duration of mechanical support use in patients with depressed left ventricular function undergoing CABG.Thus, the use of levosimendan as a prophylactic drug was not recommended in this category of patients[22].The current study concluded that levosimendan use may be associated with a lower incidence of postoperative arrhythmia, less need for mechanical support, less mechanical ventilation hours, and shorter durations of ICU stay than adrenaline use.The hemodynamic response, dose and period of inotropic and vaso-M.N. A. Al Jawad, M. S. Shorbagy DOI: 10.4236/wjcs.2018.811022229 World Journal of Cardiovascular Surgery • The adrenaline/GTN protocol: 35 patients received this initial protocol and were titrated as needed.

Table 1 .
Demographics, associated comorbidities, preoperative data, operative details and postoperative course.

Table 2 .
Hemodynamic comparative study of heart rate (beats/minute) Data are shown as the mean ± SD, *statistically significant.
Data are shown as the mean ± SD, * statistically significant.

Table 6 .
Comparative study between two groups of patients an EF > 30%.
Data are shown as the mean ± SD, IABP = intra-aortic balloon pump, ** statistically highly significant.