British Journal of Anaesthesia 102 (4): 503–5 (2009)
Intraoperative cardiac arrest in acquired long QT syndrome
Department of Anaesthetics, William Harvey Hospital, Kennington Road, Ashford, Kent TN24 8NU, UK
A healthy female sustained a life-threatening arrhythmia and cardiac arrest while undergoingroutine surgery under general anaesthesia. Resuscitation was prolonged but successful, with acomplete neurological recovery.
Keywords: complications, arrhythmia; sympathetic nervous system, epinephrine; toxicity, localanaesthetics
Accepted for publication: January 12, 2009
A 35-yr-old healthy female presented for routine septo-
respiratory efforts, but after a further 5 min a tachycardia
plasty and grommet insertion under general anaesthesia.
recurred (180 beats min21) which converted to VF. CPR
She had a history of mild asthma and allergy to penicillin,
was continued for a further 30 min, including five DC
but had undergone three uneventful general anaesthetics
shocks of 360 J, four boluses of epinephrine 1 mg plus an
previously. A preoperative ECG showed sinus rhythm
infusion of epinephrine when return of spontaneous circu-
(heart rate 69 beats min21), a normal corrected QT interval
lation occurred, and atropine 3 mg (for severe bradycardia
(QTc) 346 – 388 ms, and biphasic T waves in leads II, III,
after one cycle of resuscitation). Arterial blood gas analysis
aVR, aVF, and V3 – V6. No premedication was given.
showed normal pH, base excess, glucose, sodium and
Anaesthesia was induced using fentanyl 100 mg and propo-
lactate concentrations; arterial PO2 was 3.5 kPa and serum
fol 200 mg and a reinforced laryngeal mask airway
potassium 3.1 mmol litre21. Potassium chloride infusion
inserted. The surgeon then applied 1 ml of 25% cocaine
was requested but was not administered immediately
paste (250 mg) to the nostrils. Anaesthesia was maintained
because of a delay in preparation. Telephone advice regard-
with spontaneous respiration of nitrous oxide 60% in
ing the possibility that cocaine was the cause of the
oxygen and sevoflurane 2 – 3%; ondansetron 4 mg and
arrhythmia (at that time a perfusing rhythm), given by a
diclofenac 75 mg were also administered i.v. The surgeon
technician operating the Toxbase database, was to give ver-
injected 5 ml of lidocaine 2% with epinephrine 1 in 80 000
apamil 5 – 10 mg i.v. over 2 – 3 min, sodium bicarbonate 50
(i.e. lidocaine 100 mg and epinephrine 60 mg) intranasally.
mmol twice as required, and lidocaine 50 – 100 mg bolus
At this time, heart rate was 42 beats min21, arterial
followed by an infusion of 4 mg kg21 over 30 min. In
pressure 124/80 mm Hg, end-tidal sevoflurane concen-
accordance with this advice, we administered two doses of
trations equivalent to 1.6 MAC, and end-tidal CO2 6.7 kPa.
lidocaine 100 mg, one of which was effective in restoring
Immediately after the injection, ventricular tachycardia
the spontaneous circulation after the fourth defibrillation,
(VT) occurred without any prior warning extrasystoles,
and two doses of bicarbonate 50 mmol. Amiodarone 300
progressing rapidly to ventricular fibrillation (VF) associ-
mg was administered instead of verapamil as the rhythm
ated with apnoea. Cardiopulmonary resuscitation (CPR)
was ventricular and the problem was hypotension, not
was commenced immediately including tracheal intubation
hypertension. After stabilization, the patient was trans-
and artificial ventilation with oxygen 100%; two other
ferred to ICU. On admission, arterial PO2 was 25 kPa (FIO2
anaesthetists and several operating department technicians
0.5), serum potassium concentration 3.0 mmol litre21,
attended. A DC biphasic shock of 200 J was administered
calcium 2.0 mmol litre21, and magnesium 0.78 mmol
within 2 min and a perfusing rhythm (rapid supraventricu-
litre21. These electrolyte abnormalities were corrected and
lar rhythm) occurred after a second DC shock, within
magnesium also administered i.v. Artificial ventilation was
7 min of the onset of cardiac arrest. Cardiac massage was
continued until the following day when the trachea was
discontinued as there was a palpable pulse and spontaneous
extubated. There were no neurological sequelae and the
# The Author [2009]. Published by Oxford University Press on behalf of The Board of Directors of the British Journal of Anaesthesia. All rights reserved. For Permissions, please email: [email protected]
patient recovered fully. Corrected QT interval was pro-
which were not available at the time of this procedure, no
longed (QTc 559 ms) for 48 h, but then normalized
major triggers of torsades de pointes were administered.
again. A cardiologist diagnosed a long QT syndrome and
During this case, several potential triggers of acquired
offered the patient an implantable cardioverter-defibrillator.
LQTS were administered (cocaine, epinephrine, ondanse-
However, the patient has declined this at present and was
tron, amiodarone, and possibly sevoflurane). Some authors
discharged on bisoprolol maintenance therapy.
believe that volatile anaesthetic agents contribute to thedevelopment of torsades de pointes.1 2 Sevoflurane hasbeen suggested as a trigger in congenital LQTS,6 as it pro-
longs the QT interval.7 However, sevoflurane does not
The sequence of events in this case suggests a causal
increase the transmural distribution of repolarization (the
relationship between the injection of lidocaine with epi-
period between the peak of the T wave and its end) and
nephrine and the onset of the arrhythmia, after recent
therefore is unlikely to be torsadogenic.8 Ondansetron also
injection of high-dose cocaine and during volatile-based
prolongs the QT interval,9 but torsades de pointes has not
general anaesthesia and mild hypercarbia. The working
been reported in association with ondansetron during
diagnosis at the time was cocaine-induced arrhythmia and
general anaesthesia. Cardiac arrest in this case was pro-
the subsequent diagnosis of acquired LQTS was based on
longed, possibly because the high circulating epinephrine
the markedly prolonged postoperative QTc, supported by
concentrations may have contributed to the spontaneous
the preoperative T wave changes. It is not possible to
degeneration into the malignant arrhythmia after the
establish retrospectively whether the presenting arrhythmia
two successful shocks. Hypokalaemia may have also
was torsades de pointes or not, as no record of it was
contributed, though there was no reason to suspect this
retained on the anaesthetic monitor. The dose of cocaine
before surgery and sinus rhythm was restored before
was high (250 mg), but the dose of epinephrine was fairly
the serum potassium concentration had been normalized.
small (60 mg) and the pattern of development was unusual
Amiodarone is the treatment of choice of shock-resistant
in that there was no warning arrhythmia before the
arrhythmias in the ALS guideline, but it is a known torsa-
onset of VT, as would be expected in the case of a
dogenic agent.1 2 In our patient, it did not prevent success-
cocaine-induced or exacerbated arrhythmia. It is possible
ful defibrillation and return of spontaneous circulation.
that the arrhythmia provoked by the cocaine was very
It is also possible that lidocaine absorbed from the
coarse VF or monomorphic VT, thus unrelated to the long
mucosa initially helped to restore a perfusing rhythm. IV
QT syndrome diagnosed later, though the tachycardia was
lidocaine has been successfully used for resuscitation in
not uniform as would be the case in the monomorphic
congenital LQTS;8 it shortens the QT interval and may be
type. By the time the defibrillator trolley (which docu-
particularly effective in torsades de pointes induced by
ments the trace) arrived, the rhythm was confirmed as VF.
drugs including cocaine. For a full list of drugs implicated
LQTS may be congenital (incidence 1:3000) or acquired
in the long QT syndrome, see http://www.torsades.org.
(incidence slightly more common). A prolonged QT inter-
Recommended treatments for torsades de pointes which
val is a feature of the congenital type only and the ECG
is not self-terminating or proceeds to cardiac arrest include
may be normal before presentation in the acquired form.
magnesium sulphate, correction of hypokalaemia, transve-
The hallmark arrhythmia of LQTS is torsades de pointes,
nous pacing, or defibrillation if the patient is pulseless or
that is, polymorphic VT with a constantly changing elec-
haemodynamically unstable. We followed the universal
trical axis. This may be self-terminating but can convert to
European Resuscitation Council algorithm for pulseless
VF. Many drugs used by anaesthetists are potential triggers
for the malignant arrhythmias which occur with LQTS.1 2
epinephrine, albeit ( purposefully) less frequently than
Cocaine and epinephrine are major triggers for torsades de
advised. The European Resuscitation Council does not
pointes and also for monomorphic VT and VF.
advise dose reduction or omission of epinephrine in the
Acquired LQTS and torsades de pointes have previously
case of cocaine-induced arrhythmias in the pulseless VT/
been reported during general anaesthesia, all in older
VF algorithm.10 Cocaine overdose was noted as a relative
patients with predisposing factors (electrolyte disturbances
contraindication for the use of epinephrine in the 2000
Resuscitation Council (UK) Advanced Life Support
LQTS.3 – 5 In several cases, torsades de pointes was self-
manual and this will be re-visited for the 2010 European
terminating after correcting the precipitating problem. In
Resuscitation Council guidelines ( personal communi-
our patient, there was no history or symptoms of ischaemic
heart disease or other predisposing factors and the only
In summary, this case highlights that acquired long QT
indication of abnormality was the preoperative ECG
syndrome can present spontaneously during anaesthesia, in
changes. Biphasic T waves can occur in LQTS, but are not
association with factors which may precipitate arrhythmias.
pathognomonic2 and the patient had undergone general
In addition, high-dose cocaine administered with systemic
anaesthesia several times previously without incident. On
(as opposed to topical) epinephrine in ENT surgery has
later examination of the previous anaesthetic records,
potential risks. Furthermore, epinephrine administered
Intraoperative cardiac arrest in acquired long QT syndrome
systemically as part of the ALS algorithm may not be
5 Soroker D, Ezri T, Szmuk P, Merlis P, Epstein M, Caspi A.
helpful in the management of cocaine-induced arrhythmias.
induced by hypocalcemia and hypokalemia. Anesth Analg 1995; 80:630 – 3
6 Katz RI, Quijano I, Barcelon N, Bianceaniello T. Ventricular tachy-
I would like to thank Dr Judith Banks for her help with the resuscitation
cardia during general anesthesia in a patient with congenital long
and with preparation of the manuscript.
QT syndrome. Can J Anaesth 2003; 50: 398 – 403
7 Kleinsasser A, Loeckinger A, Lindner KH, Boehler M, Puehringer
F. Reversing sevoflurane-associated QTc prolongation by changing
to propofol. Anaesthesia 2001; 56: 248 – 50
1 Hunter JD, Sharma P, Rathi S. Long QT syndrome. Contin Educ
8 Whyte SD, Sanatani S, Lim J, Booker PD. A comparison of
Anaesth Crit Care Pain 2008; 8: 67 – 70
the effect on dispersion of repolarization of age-adjusted
2 Booker PD, Whyte SD, Ladusans EJ. Long QT syndrome and
MAC values of sevoflurane in children. Anesth Analg 2007; 104:
anaesthesia. Br J Anaesth 2003; 90: 349 – 66
3 Abe K, Takada K, Yoshiya I. Intraoperative torsade de pointes
9 Charbit B, Albaladejo P, Funck-Brentano C, Legrand M, Samain E,
ventricular tachycardia and ventricular fibrillation during sevoflur-
Marty J. Prolongation of QTc interval after postoperative nausea
ane anesthesia. Anesth Analg 1998; 86: 701 – 2
4 Lustik SJ, Eichelberger JP, Chibber AK, Bronsther O. Torsade de
pointes during orthoptic liver transplantation. Anesth Analg 1998;
10 Nolan JP, Deakin CD, Soar J, Bo¨ttiger BW, Smith G. Available
from www.erc.edu (accessed October 13, 2008)
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