Perioperative Landiolol Infusion Reduces the Incidence of Atrial Fibrillation after Pulmonary Lobectomy: Postoperative Randomized Controlled Study ()
Received 21 July 2016; accepted 23 August 2016; published 26 August 2016
1. Introduction
Atrial Fibrillation (AF) is one of the most common complications after thoracic surgery. In addition to reducing quality of life and causing palpitations and cardiac hypofunction, AF also increases the risk of cardiogenic embolus. Therefore, it is necessary to prevent the development of AF in patients undergoing thoracic surgery.
AF often occurs after cardiac surgery. For this reason, various studies have investigated means of inhibiting AF after cardiac surgery. One such study used landiolol. This study, the JL-NIGHT study, demonstrated that intraoperative administration of landiolol hydrochloride reduces the incidence of AF after open-heart surgery [1] . On the other hand, it has also been noted that there is an elevated risk of AF after lung resection, with incidences of approximately 4% - 30% in patients undergoing lobectomy and 10% - 40% in patients undergoing pneumonectomy [2] - [4] . Although the efficacy of landiolol administration has been investigated in for lung surgeries, more studies have examined its use for heart surgeries. Further, while several studies have reported the efficacy of landiolol [5] , no prospective study has investigated the effects of only intraoperative low-dose landiolol infusion in patients undergoing lung resection. Therefore, we undertook a prospective study to determine whether administration of low-dose landiolol could reduce the incidence of AF after lobectomy.
2. Methods
2.1. Patients
The study protocol was registered with the University Hospital Medical Information Network (UMIN) Clinical Trials Registry (UMIN000007561). Ethical approval for this study (Protocol number 223009) was provided by the Institutional Review Board of Nippon Medical School Hospital, Tokyo, Japan, (Chairperson: Hospital director Sakamoto) on August 8, 2011. We obtained written informed consent from all patients on the day before surgery. This study included 45 patients undergoing lung resection at Nippon Medical School Hospital between August 2012 and September 2013. The indication for lung resection in all subjects was lung cancer, which required treatment with lobectomy or bilobectomy. The patients were randomized to receive landiolol (2.5 μg∙kg−1∙min−1) (Ono Pharmaceutical Co., Osaka, Japan), or an identical amount of saline as a placebo. Both landiolol and the placebo were administered, intravenously during anesthesia. All patients had an American Society of Anesthesiologists (ASA) physical status of I/II. The exclusion criteria were acute myocardial infarction within 3 days prior to surgery, a history of supraventricular arrhythmia requiring treatment, sinus node disease, presence of a permanent pacemaker, severe heart failure (New York Heart Association III/IV or ejection fraction <35%), atrioventricular block (AV block ≥ second degree), contraindications to β-blocker therapy, secondary AF with a known primary cause (e.g., electrolyte imbalance, Wolff-Parkinson-White syndrome or hyperthyroidism), hypotension (<90/60 mmHg), and the perioperative use of an anti-arrhythmic agent other than digitalis.
2.2. Study Protocol
At enrolment in the study, the patients were randomized using the sealed envelope method to receive either the placebo or the study drug. Patients were continuously monitored from immediately after surgery for up to 72 hours thereafter. Landiolol or saline was administered from the start of anesthesia as a continuous infusion at an initial rate of 2.5 μg∙kg−1・min−1, which was titrated to a maximum rate of 20 μg∙kg−1∙min−1 (reassessed every 10 min) based on the hemodynamic or electrocardiographic response. The maintenance infusion of landiolol was titrated upward to maintain the ventricular rate at <90 beats/min. If hypotension (systolic blood pressure < 90 beats/min) or bradycardia (heart rate < 50 beats/min) occurred, the dose was reduced or infusion of the drug was discontinued until symptoms resolved.
The Holter electrocardiogram (ECG) was recorded on a secure digital (SD) card-type recorder (Fukuda Denshi 600; Fukuda Denshi Co., Tokyo, Japan). Postoperative recording was initiated after the surgery and continued for 72 hours.
The occurrence of episodes of AF lasting more than 30 minutes was considered as the study endpoint. More specifically, the primary endpoint was the frequency of AF occurrence from the end of the surgery to 72 hours thereafter.
Age, height, and weight were recorded for each patient. Information was also collected on preoperative pulmonary status, which was expressed as the percentage of the predicted value of forced vital capacity.
2.3. Statistical Analysis
Continuous variables are expressed as mean ± standard deviation (SD). Clinical characteristics of the two groups were compared using the independent t-test for continuous variables and the chi-square test for categorical variables. Adverse events were analyzed by the chi-square test, as appropriate. In all analyses, P < 0.05 was considered statistically significant.
3. Results
One patient was excluded because the surgery type was changed intraoperatively, and another was excluded because of undergoing reoperation; hence, 43 patients completed the study. There were no statistically significant differences between the two groups in terms of sex, age, height, weight, and other preoperative data or the measured lung function parameters (Table 1). Further, no statistically significant differences were found in terms of operation time, anesthesia time, or the type of operation. However, no bilobectomy was performed in the landiolol group.
The numbers of patients with arrhythmias are provided (Table 2). AF developed in 17% of the patients overall, including 5% of patients in the landiolol group and 28% of patients in the control group (P = 0.03, chi-square test). No differences were found between the two groups in terms of the incidences of other types of arrhythmias. AF developed postoperatively on day 2 in 2 patients and on day 3 in 4 patients. Episodes of AF occurred only once in the patients in whom it was observed. Patients in whom AF occurred were not treated for it immediately because the Holter ECG was not analyzed instantly and they had no subjective symptoms. There was no difference between the landiolol and control groups with regard to heart rate. Indeed, there were no significant differences in heart rate between the two groups throughout the Holter monitoring period (Table 3). AF was not observed intraoperatively in any patient.
With respect to side effects, hypotension, bradycardiaand other serious eventswere not observed in either group.
Table 1. Epidemiological data on the study cohort.
FEV1%: forced expiratory volume in 1 s; VC: vital capacity; Values are mean ± SD numbers.
Table 2. Results of heart rhythm (Holter) monitoring.
*P < 0.05.
Table 3. Heart rate (Holter) monitoring (beats/min).
4. Discussion
This study has two main findings. First, landiolol decreases the incidence of AF for up to 72 hours after surgery. In this study, AF onset occurred an average of 2.7 days after surgery. This result is, therefore, similar to the findings of previous studies, which have stated that AF is prone to occur from 2 or 3 days after surgery [6] [7] . The second key finding of this study is that low doses of landiolol, such as those used in this study, rarely result in adverse reactions, such as excessive reductions in heart rate and blood pressure.
The present study demonstrated that landiolol decreases the incidence of intraoperative AF with only a small dose. Studies of a similar-blocker, metoprolol, have also shown a significant reduction in the incidence of AF [8] . However, metoprolol was orally administered from preoperatively to 4 days postoperatively, which is less convenient than the administration of landiolol in the present study. Specifically, landiolol was administered only intraoperatively in the present study, offering both a shorter duration and the ability to lower the incidence of AF through management by the anesthesiologist alone. Moreover, since only a small dose of landiolol was given, obvious side effects did not develop. Even if an adverse reaction had occurred, landiolol has a short half-life (4 minutes) as compared with metoprolol (2.8 hours), is well-regulated, and is easy to use.
The mechanism of AF onset after thoracic surgery remains unclear, although the origin of AF and its association with the pulmonary vein have both been demonstrated. In AF, frequent local excitation (premature atrial contraction) is the trigger for the initial formation and onset of reentry arrhythmia. Haissaguerre et al. reported that the aberrant excitation that triggers AF mostly originates in the atrial muscle in the pulmonary veins [9] . Meanwhile, based on the results of electrophysiological testing, Jaiss et al. found that premature atrial contraction typically originates at the entrance to the pulmonary veins [10] . The complex network of cardiac muscles at the junction of the pulmonary vein and left atrium means that delayed conduction and reentry is prone to occur at this site [11] . Further, stretch stimulation accompanying increased pulmonary venous pressure may enhance motility via stretch-activated channels [12] . During lung resection, pulmonary vein dissection is believed to induce AF.
Although it is not entirely clear why handling of the pulmonary vein triggers AF, our findings show a strong correlation between AF and thoracic surgery. Indeed, AF occurred in 17% of our patients, including 28% of those in the control group and 5% of those in the landiolol group (P = 0.03). These findings indicate that the incidence of AF was significantly inhibited in the group of patients who received landiolol.
Our findings demonstrate that administration of landiolol during surgery decreased the incidence of AF following lung resection. Although-blockers, such as landiolol, are known to reduce perioperative increases in sym- pathetic nervous system (SNS) activity and reduce AF onset, the underlying mechanisms of these changes remain unclear. Further research is needed to determine the optimal dose of landiolol required to reduce AF onset.
Our study has the following limitations. First, the incidence of AF was greater than those in many previous reports. This was attributed to the high percentage of elderly patients in the present study, and in fact, the mean age of the seven patients who developed AF was 82 years. It is known that aging causes degenerative changes in atrial anatomy that are accompanied by a shorter atrial effective refractory period, longer sinoatrial and atrioventricular nodal conduction times, atrial stiffening, and splitting of the atrial excitation waveform by the pectinate trabeculae [13] [14] . The second limitation of our study was the small patient cohort. Further study is therefore necessary, and should include the assessment of landiolol administration in a large cohort of patients.
5. Conclusion
In conclusion, perioperative landiolol administration was found to be an effective means of reducing the incidence of atrial fibrillation after pulmonary lobectomy.