Coronary artery spasm induced by carotid sinus stimulation during neck surgery

S. S. Choi, Y.-J. Lim*, J.-H. Bahk, S.-H. Do and B.-M. Ham

Department of Anesthesiology, Seoul National University Hospital, Seoul National University College of Medicine, 28 Yongon-Dong, Chongno-Gu, Seoul 110-744, Korea

Corresponding author. E-mail: limyjin@snu.ac.kr

Accepted for publication: October 9, 2002


    Abstract
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 Abstract
 Introduction
 Case report
 Discussion
 References
 
We observed four transient episodes of marked ST-segment elevation in a 58-yr-old man with no history of coronary artery disease undergoing resection of a metastatic neck mass under general anaesthesia. Elevations of the ST segment were abrupt, with no change in arterial pressure or heart rate, and resolved spontaneously. When the carotid sinus was compressed directly, ST-segment elevation was noted 1 min after the onset of stimulation. After surgery, coronary angiography showed diffuse, slight narrowing of the distal bed of the posterolateral branch of the right coronary artery. Ergonovine caused total occlusion of the posterolateral branch of the right coronary artery with chest pain and ST-segment elevation, confirming the diagnosis of variant angina. The coronary artery spasm seems to have been provoked by vagal activation from carotid sinus stimulation during general anaesthesia.

Br J Anaesth 2003; 90: 391–4

Keywords: anaesthesia, general; surgery, cardiovascular; complications, coronary vasospasm


    Introduction
 Top
 Abstract
 Introduction
 Case report
 Discussion
 References
 
Vasospastic or variant angina is a well-known clinical condition first described by Prinzmetal and colleagues1 and is characterized by coronary artery spasm (CAS), which may occur in angiographically normal and diseased coronary arteries. The cause of variant angina is localized hyperresponsiveness of the vascular smooth muscle cells caused by non-specific stimuli of vasoconstriction.2 Autonomic imbalance can be one of the mechanisms of spontaneous vasospasm, and sympathetic or parasympathetic stimulation can induce CAS.27

The carotid sinus, located at the bifurcation of carotid arteries, has an important role in the baroreceptor reflex. Carotid sinus massage can cause cardiac vagal activity, which can cause CAS.8 We present a case of CAS during an operation for modified radical neck dissection under general anaesthesia, which recurred in association with carotid sinus stimulation. We present ECG and coronary angiogram results that confirmed this diagnosis. To our knowledge, this is the first case report to describe CAS evoked by carotid sinus stimulation during general anaesthesia.


    Case report
 Top
 Abstract
 Introduction
 Case report
 Discussion
 References
 
A 58-yr-old man, height 167 cm and weight 74 kg, was to undergo resection of a 10x10 cm metastatic left laryngeal mass. The mass was firmly fixed to the mid-portion of the internal jugular vein. There was no personal or family history of hypertension and ischaemic heart disease. The patient had a smoking history of 30 pack-years, but had stopped smoking 7 months previously. Preoperative laboratory findings, including chest x-ray, ECG and pulmonary function tests, showed no abnormalities.

In the operating room, the patient’s arterial pressure (AP) was 145/75 mm Hg and heart rate (HR) was 75 beats min–1. Anaesthesia was induced with fentanyl 100 µg, propofol 120 mg and vecuronium 10 mg. After intubation, anaesthesia was maintained with nitrous oxide (50%), oxygen (50%) and isoflurane (0.5–2.0 vol %). Ninety minutes after induction, ST-segment elevation in lead II, not preceded by changes in HR or AP (HR 85 beats min–1, AP 120/70 mm Hg), was noted suddenly on the ECG monitor. The ST-segment alterations subsided completely in 5 min without treatment. Forty minutes later, an identical ECG change of marked ST-segment elevation, lasting only 1 min (HR 90 beats min–1, AP 110/69 mm Hg), occurred again during retraction of the tissues surrounding the mass. PaCO2 (42 mm Hg), PaO2 (203 mm Hg), haematocrit (36%) and plasma potassium concentration (4.2 mmol litre–1) were within normal limits. We suspected that the ST-segment elevation and carotid sinus stimulation were related. The carotid sinus was compressed for 10 s by steady finger pressure after removal of the neck mass. About 1 min later, the same ECG change of ST-segment elevation and QRS widening appeared (Fig. 1A) without any associated changes in HR or AP (HR 84 beats min–1, AP 122/55 mm Hg). The entire episode lasted 5 min and resolved spontaneously (Fig. 1B). Thirty minutes later, during skin closure, marked ST-segment elevation, mimicking intraventricular conduction delay or ventricular rhythm, occurred again (Fig. 1C), with a slight decrease in HR (from 88 to 80 beats min–1) and AP (from 94/70 to 86/50 mm Hg). The elevated ST-segment began to decline immediately after giving lidocaine 1% 80 mg i.v. A continuous infusion of nitroglycerine (1 µg kg–1 min–1) was started. The entire episode lasted 5 min. A 12-lead ECG, taken immediately after operation, showed normal sinus rhythm, and cardiac enzyme measurements, including creatine kinase and lactate dehydrogenase, were within normal limits.



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Fig 1 ST-segment elevation and QRS widening occurred about 1 min after carotid sinus stimulation (A) and resolved spontaneously without treatment (B). At the end of the operation, marked ST-segment elevation occurred, and returned to baseline after i.v. infusion of lidocaine 1%, 80 mg. The duration of this episode was 5 min (C).

 
The patient was referred for cardiology investigations. Echocardiography showed no abnormalities. No chest pain or ischaemic ST segment changes were observed during 24-h ambulatory monitoring. Five days after surgery, coronary angiography showed diffuse, slight narrowing of the distal bed of the posterolateral branch of the right coronary artery (Fig. 2A). After two 0.2 mg doses of ergonovine i.v., the big posterolateral branch of the right coronary artery constricted dramatically, producing total occlusion (Fig. 2B), and intracoronary administration of nitroglycerine 0.2 mg dilated the constricted segment (Fig. 2C). During the ergonovine trial, the patient experienced chest pain with ST-segment elevation in leads II, III and aVF, and reciprocal ST-segment depression in leads I and aVL (Fig. 2D). A diagnosis of Prinzmetal’s or variant angina was made. The patient was discharged taking calcium channel blocker and nitrate therapy.



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Fig 2 Coronary angiogram and ECG supporting the diagnosis of variant angina. (A) Coronary angiogram showed diffuse, slight narrowing of the distal bed of posterolateral branch of the right coronary artery. (B) The posterolateral branch of the right coronary artery was occluded totally after i.v. ergonovine, and (C) the spasm was relieved after intracoronary nitroglycerine. (D) The patient experienced chest pain with ST-segment elevation in leads II, III and aVF, and reciprocal ST-segment depression in leads I and aVL.

 

    Discussion
 Top
 Abstract
 Introduction
 Case report
 Discussion
 References
 
The typical ECG changes during an attack of variant angina are sudden ST-segment elevation in the lead overlying the ischaemic region, associated with ST-segment depression in the reciprocal leads. Characteristic ECG changes allow diagnosis of CAS. In this patient, we noted four episodes of marked ST-segment elevation. During surgery, marked ST-segment elevation and the QRS widening in the fourth episode were thought to be caused by ischaemic conduction delay, which can lead to potentially lethal ventricular arrhythmia. Thus lidocaine was used and the ECG changes resolved. The ECG changes were interpreted later as ST-segment elevation by an experienced cardiologist. We are not sure whether lidocaine had a direct effect on the spastic vessel; it may have been given at the time of spontaneous resolution. The angiographic findings strongly suggest that spasm of the posterolateral branch of the right coronary artery caused the repeated ischaemic changes seen during surgery.

General anaesthesia can be a triggering event for CAS, although CAS during anaesthesia is a rare event.911 This case is unique in that the typical ECG changes of variant angina were provoked by surgical manipulation of the carotid sinus during general anaesthesia.

Sympathovagal imbalance caused by sudden increases in parasympathetic tone was thought to be the triggering factor for CAS in this patient. Previous studies have shown that the increased parasympathetic activity can trigger the development of coronary vasospasm.35 The carotid sinus reflex is a baroreceptor-mediated reflex that responds rapidly, a maximum response often being observed even in the first cardiac cycle after carotid sinus stimulation.12 The reflex does not continue for more than 20 s because of parasympathetic withdrawal and the return of sympathetic discharge. Nishizaki and colleagues8 showed that carotid sinus massage in an awake patient without significant coronary artery stenosis could provoke CAS on angiography in approximately 2.5 min with a short period of bradycardia. In our case, about 1 min elapsed from the carotid sinus stimulation to the appearance of ST-segment elevation, and bradycardia was not noted. Thus, in our case, involvement of reflex sympathetic activity in response to enhanced parasympathetic activity2 68 could have been a predominant mechanism.

In summary, we describe a case of CAS associated with carotid sinus stimulation during general anaesthesia in a patient with variant angina. Because of the possibility of fatal arrhythmias and myocardial ischaemia, early recognition of CAS-induced ST-segment elevation and prompt initiation of nitroglycerine infusion is indicated.


    References
 Top
 Abstract
 Introduction
 Case report
 Discussion
 References
 
1 Prinzmetal MKR, Merliss R, Wada T, Bor N. Angina pectoris. A variant form of angina pectoris. Am J Med 1959; 27: 375–88[ISI][Medline]

2 Yasue H, Kugiyama K. Coronary spasm: clinical features and pathogenesis. Intern Med 1997; 36: 760–5[ISI][Medline]

3 Yasue H, Horio Y, Nakamura N, et al. Induction of coronary artery spasm by acetylcholine in patients with variant angina: possible role of the parasympathetic nervous system in the pathogenesis of coronary artery spasm. Circulation 1986; 74: 955–63[Abstract]

4 Kalsner S. Cholinergic constriction in the general circulation and its role in coronary artery spasm. Circ Res 1989; 65: 237–57[Abstract]

5 Sakata K, Miura F, Sugino H, et al. Assessment of regional sympathetic nerve activity in vasospastic angina: analysis of iodine 123-labeled metaiodobenzylguanidine scintigraphy. Am Heart J 1997; 133: 484–9[ISI][Medline]

6 Yasue H, Touyama M, Shimamoto M, Kato H, Tanaka S. Role of autonomic nervous system in the pathogenesis of Prinzmetal’s variant form of angina. Circulation 1974; 50: 534–9[ISI][Medline]

7 Lanza GA, Pedrotti P, Pasceri V, et al. Autonomic changes associated with spontaneous coronary spasm in patients with variant angina. J Am Coll Cardiol 1996; 28: 1249–56[CrossRef][ISI][Medline]

8 Nishizaki M, Yamawake N, Arita M. Coronary artery spasm induced by carotid sinus massage. Heart 2000; 84: E2[CrossRef][Medline]

9 Fujita Y, Sasaki Y, Endoh E, et al. Intraoperative coronary artery spasm during noncoronary artery surgery. J Cardiothorac Anesth 1990; 4: 740–3[Medline]

10 Zainea M, Duvernoy WF, Chauhan A, et al. Acute myocardial infarction in angiographically normal coronary arteries following induction of general anesthesia. Arch Intern Med 1994; 154: 2495–8[Abstract]

11 Kindgen-Milles D, Vester EG, Muller EE. Intra- and postoperative myocardial ischemia without significant coronary artery stenosis. Acta Anaesthesiol Scand 1998; 42: 478–80[ISI][Medline]

12 Lown B, Levin SA. The carotid sinus: clinical value of its stimulation. Circulation 1961; 23: 766–89[ISI]





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