Isoproterenol Increases BIS and Arousal during Catheter Ablation for Atrial Fibrillation

Citation: O’Neill DK, Aizer A, Bloom MJ, Kline RP, Chinitz L, et al. (2016) Isoproterenol Increases BIS and Arousal during Catheter Ablation for Atrial Fibrillation. J Anesth Pati Care 1(2): 202. doi: 10.15744/24565490.1.202 Background: Isoproterenol is frequently used to test therapeutic effectiveness postcatheter ablation procedure for atrial fibrillation. Preliminary data suggests that administration of isoproterenol increases the Bispectral index (BIS), implicating the CNS stimulatory effects of isoproterenol.


Introduction
Isoproterenol can be used within the field of electrophysiology to induce arrhythmias before or after ablation (inducibility testing).This is based on its ability, during ablation procedures for atrial fibrillation, to evoke supraventricular arrhythmias and reveal injured, but electrically viable myocardium, thus revealing aberrant conduction pathways where additional ablation may be necessary.Isoproterenol induces atrial fibrillation in patients with vagotonic, adrenergic and random atrial fibrillation, and is a better predictor of clinical outcome than rapid atrial pacing [3,4].
The stimulatory effects of isoproterenol are due to a direct acting relatively selective Beta-1 and Beta-2 agonist effects, which also lead to non-adrenergic signaling and stimulation of myocardial contractility, bronchodilation, tachycardia, and changes in blood pressure (both hypertension and hypotension).In the awake patient, isoproterenol causes multiple explained that CNS effects such as nervousness, headache, dizziness, restlessness, insomnia, anxiety, tension, blurring of vision, fear, and excitement.
A pilot study (N=7) by our research group, showed that the bispectral index (BIS) increased dramatically with isoproterenol administration to patients under anesthesia, although no patient had any recall of events [6].A single patient case report also reported that isoproterenol administration increased the BIS index [7].In this expanded study, we asked whether patients' level of consciousness was increased, if the subjects moved spontaneously, and whether they could follow commands and recall events following the administration of isoproterenol.

Materials and Methods
This study was approved by the Institutional Review Board (IRB) of the New York University Langone Medical Center (NYULMC) and was conducted under a Federal Wide Assurance, and in compliance with all relevant OHRP regulations.We enrolled twenty (N=20) consecutive adult patients with atrial fibrillation who were scheduled for electrophysiology studies and catheter based ablation under total intravenous anesthesia (TIVA-ET).Patients with altered levels of consciousness pre-intervention, or with neuromuscular disease precluding the use of succinylcholine were excluded.The anesthesiologists providing routine patient care were responsible for the placement of the intravenous line, ASA monitors, and general total intravenous anesthesia (TIVA-ET).All patients received general anesthesia which is standard of care at NYULMC.All patients were positioned supine and monitored according to the ASA monitoring guidelines.Monitoring included measurements of oxygen saturation using pulse oximetry, noninvasive blood pressure, electrocardiogram, capnometry and invasive blood pressure monitoring.General total intravenous anesthesia (TIVA) was induced with propofol, and neuromuscular blocker (succinylcholine or rocuronium).Patients were maintained on infusions of propofol ranging from 25 to 200 mcg/kg/min titrated to a BIS target of 50 ± 5 and an infusion of remifentanil ranging from 30 to 100 ng/kg/min with no further use of muscle relaxants.Controlled ventilation with an endotracheal tube (ET) was maintained with an ETCO 2 = 33 ± 3 and respiratory rate (RR) [8][9][10][11][12].
The standardized ablation protocol utlitized radiofrequency ablation with an irrigated ablation catheter (Thermocool, Biosense Webster, Diamond Bar, California) combined with the Ensite Velocity Cardiac Mapping System (St.Jude Medical, Saint Paul, Minnesota).Wide area circumferential ablation was performed with one circle encompassing the left pulmonary veins and a second circle encompassing the right pulmonary veins.Entrance block to the pulmonary veins was confirmed utilizing multipole circular mapping catheters.A set of linear lesions was then generated connecting the left superior pulmonary vein to the right superior pulmonary vein.Upon completion of the initial ablation lesions for the procedure and return to sinus rhythm, isoproterenol (4 mcg/ mL) was infused using a stepped protocol with 5 min intervals at 5, 10, 15, and 20 mcg/min, similarly to other published studies [13].Isoproterenol was discontinued in case of induction of a tachycardia with a non-sinus mechanism, hemodynamic instability, ECG changes suggesting ischemia (T wave inversions or ST depressions), BIS increase, or patient movements (spontaneous or elicited).BIS values were recorded throughout and a BIS change greater than 5 was defined categorically as a positive BIS response.Propofol and remifentanil infusion levels were kept constant unless spontaneous movement occurred, in which case a rescue bolus of propofol was given to deepen the anesthesia unless extubation was indicated.No catheter manipulation was performed during isoproterenol infusion to minimize any mechanical stimuli to the patient.
A focused intraoperative neurological exam after elimination of neuromuscular blocker (several half-lives after single induction dose) including the ability to follow commands was used to assess the patient's awareness.To assess the patient's ability to follow commands, the anesthesiologist would instruct them to "Squeeze my hand." For assessing the patient's recall, they were asked postoperatively (one hour later) to repeat words spoken while under anesthesia.
At the time words were spoken under anesthesia, spontaneous movements were also tabulated as either present or absent.The neurological exam was performed prior to isoproterenol infusion (time =0), ten (10) minutes later, and at the end of the Statistics Descriptive statistics including means, medians, standard deviations, and ranges were calculated using Excel.Confidence intervals and t-test for paired samples were performed on interval data to demonstrate differences between means.Mean values are presented with ± one standard deviation.Binomial distribution was used for power analysis.Chi-squared was used to test for significance of nominal data using rates.isoproterenol infusion.To assess the patient's recall, the anesthesiologist repeated three sets of words three times each, i.e. at 0 minutes or the start of infusion, at 10 minutes and at 20 minutes.(The first word set was: boat, banana, airplane; the second word set was: train, apple, horse.)The word sets represented forms of transportation, fruit, words beginning with "a" or "b", and other categories to help retrieval or recall.Patients were asked such questions previously described in the literature [14].While in the recovery room approximately 1 hour after the procedure or before discharge, whichever was first, to ascertain: (1) What is the last thing you remember before falling asleep?; (2) What is the first thing you remember after waking up? ; (3) Do you remember any of the words I told you?

Results
The demographic data for the patients and design summary are shown in Table 1.Age ranged from 47 to 78 with a mean age 61.9 ± 8.24.There were 15 males and 5 females.Almost half (45%) of the patients (9/20) had hypertension and 40% of the patients (8/20) were on a beta blocker including two patients on sotolol.Five patients were on dronedarone and one patient was on amiodarone.No patient had a diagnosed altered level of consciousness or severe cognitive impairment although one patient had depression and another had mild Alzheimer's disease.
Consistent with its properties as a beta adrenergic agonist, isoproterenol increased the heart rate in 90% or 18 out of 20 patients as shown in Table 2A.The mean initial heart rate was 71.5 ± 22 BPM and the mean heart rate at maximal isoproterenol was 120.9 ± 28.2 BPM a statistically significant increase (P < 0.00001).The average heart rate of patients without beta blockers was 64.4 ± 14.8 BPM prior to isoproterenol, whereas the average heart rate with beta blockers was 82.1 ± 27.4 BPM prior to isoproterenol.Isoproterenol caused the no beta blocker group average heart rate to increase significantly by 57.9 to 122.3 BPM and the beta blocker group to increase significantly by 36.6 to 118.8 BPM, but there was no statistically significant difference between the two groups in terms of heart rate effect or baseline heart rate (p = 0.077).The changes in SBP were less predictable; 30% became hypertensive and 25% became hypotensive (Table 2B).

Baseline Characteristics
Range 47 to 78 years Mean Age 61.9 ± 8. Also shown in Table 2C, four patients had non-sinus arrhythmias in response to the isoproterenol challenge and two patients had ST changes without arrhythmias.Isoproterenol administration was halted for the occurrence of non-sinus arrhythmias (208 mcg, 188 mcg, 240 mcg, and 240 mcg) and the ST changes (16 mcg and 120 mcg).There were three cases of return to atrial fibrillation and one case of a junctional rhythm.The atrial fibrillation patients were cardioverted.
For many of the remaining patients the isoproterenol infusion was halted because of neurological effects as shown in Table 3.The mean BIS increase was 24.6 ± 12.1.Figure 1 shows associated spontaneous movement represented by the blue triangles above BIS2 elevations.The difference between the mean BIS pre-isoproterenol and the peak BIS after isoproterenol was statistically significant (P < 0.00001).In all but one of the patients (95%), the BIS increased with isoproterenol administration.There was no significant difference in average propofol infusion rates for patients who were on preoperative beta blockers vs. those who were not.The one patient (Subject 19) was on a standard dose of a beta blocker which could counteract the effects of isoproterenol on the central nervous system by passing the blood brain barrier.Prior to isoproterenol administration, none of the patients moved spontaneously or to command.After isoproterenol, twelve patients (12/20= 60%) moved spontaneously at the higher BIS levels and ten of the twelve patients who moved also followed commands.The chance of patients moving spontaneously after isoproterenol was 75.0%without preoperative beta blockers compared with 37.5% with preoperative beta blockers; with 66.7% vs. 25.0%following commands, respectively.None of the patients had any recall of the events or words spoken to them while under anesthesia (Figure 2).The dose of isoproterenol required for BIS change varied from 16 micrograms to the maximum dose of 240 micrograms with a mean of 146.8 ± 77.4.There was no difference between the average isoproterenol doses between the beta blocker (135.2 mcg) and non-beta blocker (145.8 mcg) patients (p = 0.947).The BIS change after isoproterenol for patients on beta blockers was 19.5 and 28.0 for those without beta blockers, but was not significant given the small sample size (p = 0.138).

Discussion
We have demonstrated in this study that isoproterenol increases the BIS and movement (spontaneous and in response to commands).Although important during AF ablation, administration of Isoproterenol counteracts the sedative effect of general anesthesia as demonstrated in our previous study reported in JICE [6].Movement still poses a risk to the patient and has been shown to adversely affect outcome [2].In this study, we extended our previous investigative work by performing an intraoperative neurological exam, use controlled ventilation to maintain normocarbia, and use a defined, step-wise drug infusion protocol.
We assessed consciousness during and after isoproterenol by the BIS level, spontaneous movement, the ability to follow commands, and recall.During isoproterenol, the level of BIS increased, as well as, chance of spontaneous movement and ability to follow commands, but without evidence of recall.No patient had recall of events or words spoken to them while they were under anesthesia.Data from Kerssen, et al. suggests that 25% of patients under propofol sedation with BIS of 60 to 70 who had ability to follow commands also developed recall.However, most of our subjects had a lower BIS initially during the isoproterenol infusion.A power analysis (alpha = 0.05, beta = 0.20) suggests that 58 patients would be needed to show that a 5% or 1 in 20 patients rate of recall would be significant.This would represent an estimate of risk of recall with isoproterenol during TIVA to be about 1 in 389 to 1 in 408 at the alpha = 0.05 level based on the binomial distribution.A future study would have to be performed to contrast the risk of recall with isoproterenol vs. without isoproterenol estimated to be one in 1000 or one in 10,000 in the usual general anesthesia population [9,15].

Measurement of Arousal
Though the underlying CNS mechanisms of isoproterenol are complex, in this study, we monitored these effects by several standard metrics including BIS levels, patient ability to follow commands, and patient recall.This study utilized a formal isoproterenol infusion protocol and controlled mechanical ventilation.In the pilot study [6] the median isoproterenol dose was 25 mcg with arbitrary dosing, spontaneous ventilation and mild hypercarbia, this study with the isoproterenol infusion protocol had a mean isoproterenol dose of 146.8 mcg with normocarbia.This suggests that a relationship between carbon dioxide and isoproterenol sensitivity in the brain analogous to the apneic threshold, but a dose response relationship was not measured [16].The BIS Vista TM Monitor is a non-invasive device that measures the electrical activity of the brain.Some studies suggest that using the BIS value to guide administration of anesthetic medications results in increased accuracy of therapeutic dosages [8].In contrast, another study did not find any difference between BIS guided anesthetic dosing and use of inhalational agent [9].
Moreover, BIS values do not change in a linear fashion with increasing anesthetic dose [10].Some studies suggested that a low BIS value during a general anesthetic was associated with a higher morbidity and mortality although this has been called into question when co-morbidities are taken into account [11,12].Alternatively, a high BIS value is associated with spontaneous movement, awareness and recall.Despite these uncertainties, our combination of monitoring approaches gives us important clinical information as to changes in awareness to avoid undesirable outcomes.
Agents which act on the adrenergic system have also been shown to affect the level of arousal in anesthetized subjects.In a case report, ephedrine, an indirect acting alpha and beta agonist, was shown to increase BIS values although phenylephrine had no effect [17].Atenolol, landiolol and esmolol all attenuate BIS, heart rate and BP responses to intubation.Metoprolol and clonidine (alpha-2 agonist sympatholytic) decrease propofol requirements during BIS titrated anesthesia.Esmolol reduces the amount of anesthesia required to prevent movement at skin incision [18][19][20][21].In anesthetized rats, propanolol and esmolol cause burst suppression and changes in the EEG suggestive of non REM sleep.Studies using radiographically tagged beta blockers in rats and PET scans after adrenergic stimulation in humans suggest that the location of adrenergic receptors in the brain is widespread [22,23].Beta receptors are found in the pontine reticular formation, the hippocampus, the hypothalamus, the thalamus, the cerebellum and multiple locations in the cortex [24,25].These adrenergic receptors are targeted by norepinephrine releasing projections from brainstem cell clusters known as the locus coeruleus (A6) and A1, A2, A3, A4, A5 and A7.The locus coeruleus alone has five major projections.In anesthetized rats, application of norepinephrine to the medial septal area or the medial preoptic area, both of which receive projections from the locus coeruleus, results in behavioral and EEG measured arousal [26].These results suggest that targets of the locus coeruleus may be involved in the arousal seen with administration of isoproterenol.

Evidence for interaction of adrenergics with arousal
If isoproterenol had a single site of action, we might expect to see a threshold effect of isoproterenol dose on patient arousal.We might also expect that the arousal would occur at similar doses of isoproterenol in each patient.We saw patient arousal at a wide range of isoproterenol dosages indicating plasma drug concentration variations which may be a function of the level of anesthesia or plasma propofol concentration prior to isoproterenol administration.However, we speculate that the effects of isoproterenol on patient arousal may be happening at different sites in the brain.Increasing inhibition by arousal centers such as the locus coeruleus on the ventrolateral preoptic nucleus (VLPO) nucleus and other sleep centers could cause a shift from unconsciousness to awareness.Direct stimulatory action on the cortex and indirect activation of thalamic nuclei could activate pathways involved in learning, memory and awareness.

Monitoring arousal and the significance of measured BIS changes
We used other approaches to assess patient arousal including the patient's ability to follow commands.This response has been shown to occur at BIS levels as low as 40 although the patients had no recall of these events [27].Another approach to evaluating the level of consciousness of anesthetized patients is to assess their ability to form memories or recall events which occurred while under anesthesia.A target BIS of 40 to 60 is recommended by the manufacturers to be sufficient to prevent recall.Indeed, various studies support the lack of conscious recall in the vast majority of patients at a BIS less than 60 [28,29].We tested for conscious recall of words repeated to the patients while under anesthesia and for recall of events occurring while under anesthesia.Although there were no episodes of recall, the BIS response especially in combination with the examples of spontaneous movement and ability to follow commands suggests that isoproterenol significantly promoted arousal during steady state general anesthesia.

Conclusions
This study demonstrates an increase in arousal of anesthetized patients during isoproterenol administration for atrial ablation procedures as measured by BIS level, movement and the ability to follow commands.Our data suggest that use of additional anesthetic agents during the administration of isoproterenol could be helpful in preventing harmful movement and possible

Table 1 :
24 Age Demographics and Design Summary