Local infiltration of epinephrine at the surgical site has been widely used to improve
the operating view, due to reduced blood loss caused by vasoconstriction [1]. However,
the use of epinephrine can cause various adverse effects such as severe hypertension,
ventricular arrhythmia, myocardial infarction, cardiomyopathy, cardiac arrest, and
acute pulmonary edema [1]. Although there have been some cases of epinephrine-induced
cardiovascular events with therapeutic intravenous administration or local infiltration
under general anesthesia [1,2,3,4,5], there were no previous reports of coronary vasospasm
following local infiltration of epinephrine after spinal anesthesia confirmed by immediate
coronary angiography. The anesthetic management of this condition is presented along
with a review of the literature.
A 46-year-old woman (height 161 cm, weight 60 kg) entered the hospital to undergo
a tension-free vaginal tape operation for stress incontinence. She had no previous
medical history. Preoperative electrocardiogram (ECG), chest X-ray, and blood chemistry
were found to be normal. Preoperative vital signs were: blood pressure (BP) 114/66
mmHg, heart rate (HR) 74 beats/min, oxygen saturation (SpO2) 99%.
We gave her spinal anesthesia with 0.5% bupivacaine (Marcaine ®, AstraZeneca AB, Södertälje,
Sweden) 10 mg intrathecally. Five minutes later, the anesthetic level reached T6,
the patient was placed in the lithotomy position, and we then provided 5 L/min of
oxygen using a facial mask with a reservoir.
Fifteen minutes later, the surgery was initiated and the patient complained of headache
and began to be restless. An ECG showed tachyarrhythmia, and the HR and BP rose to
160 beats/min and 210/130 mmHg, respectively. Esmolol 30 mg was instantly injected
intravenously (IV), but the patient's vital signs did not change. She complained of
anxiety with sweating, and midazolam 2 mg was IV injected. Through communication with
the surgeon, we realized that epinephrine 1 mg diluted with normal saline 10 ml had
been injected subcutaneously (SC) at the beginning of the surgery. Immediately, we
administrated thiopental 200 mg and rocuronium 30 mg IV, and a laryngeal mask airway
(LMA) #4 was placed. Anesthesia was maintained with an air-O2 mixture (FIO2 0.5) and
end-tidal sevoflurane 1.0 vol%, and we performed arterial catheterization to allow
continuous monitoring of BP.
Twenty-five minutes after the induction of anesthesia, the patient's BP decreased
to 78/48 mmHg, and ephedrine 5 mg was IV injected. Immediately, the BP increased to
85-125/50-80 mmHg, and an ECG showed restoration of normal sinus rhythm. Therefore,
the surgery was begun, and the patient maintained a BP of 84-120/62-78 mmHg and HR
of 88-95 beats/min. The surgery was completed without incident. We injected 0.4 mg
of glycopyrrolate and 1.5 mg of neostigmine IV, confirmed the patient's spontaneous
breathing, and removed the LMA.
After arrival in the recovery room, the patient's SpO2 was 100% and HR was 81 beats/min,
but the BP decreased to 75/44 mmHg. After two injections of ephedrine 5 mg IV, the
BP increased to 93-108/61-75 mmHg, but the patient complained of chest pain. An ECG
showed ST segment depression in leads II, III, and aVF. The blood levels of creatine
kinase MB and troponin T were found to be 6.9 ng/ml and 0.347 ng/ml, respectively.
Emergency coronary angiography showed a spasm of the left anterior descending coronary
artery (LAD), and coronary artery expansion was confirmed following injection of 200
µg of intracoronary nitroglycerin (Fig. 1). The patient's chest pain subsided instantly
and echocardiography showed normal findings. She received oral administration of nitroglycerin,
tramadol, and diltiazem in the ward. Five days after the surgery, the patient was
discharged with a prescription for sublingual nitroglycerin. Despite two months' follow-up
after discharge, there were no other problems, and her chest pain did not recur.
Coronary artery spasm caused by epinephrine has been reported very rarely [2,3]. It
is known that ischemia and hypoxia reduce the threshold for coronary spasm as well
as loss of autonomic control [2]. Blood catecholamine levels were not known in our
case, but following the administration of epinephrine SC, there was an interval during
which the increased BP was dramatically decreased over time, which can be assumed
to be the cause of the coronary spasm.
In reviewing the adverse effects of epinephrine administration in the alert state
[2,3], it has been found that coronary artery spasm occurred in most cases when the
patients complained of chest pain [2,3]. In order to treat coronary artery spasm,
it is necessary to monitor and observe the patient continuously while controlling
the BP with an IV nitrate infusion, IV morphine administration, and IV fluid infusion,
and most patients have been discharged in a stable state after a few days [2,3].
Although the patient in this case was injected with 1 mg of epinephrine mixed with
normal saline SC, which can be regarded as a relatively safe dose for clinical use
[1,2], epinephrine can be absorbed rapidly through cervical mucus where there is increased
blood flow [4]. It has been known that using epinephrine diluted with lidocaine rather
than with normal saline decreases the incidence of ventricular arrhythmias due to
the protective effect of lidocaine on epinephrine [5]. This patient was injected with
epinephrine diluted with normal saline, so we assume that epinephrine with lidocaine
could lower the potential toxicity for this patient.
We used esmolol for the treatment of epinephrine-induced tachyarrhythmia. Esmolol,
a short-acting β1-selective blocker, can reduce the risk of hypertension and coronary
spasm due to unopposed α-adrenergic stimulation, and it can be used to control catecholamine
surges precisely [1].
In cases of hypotension or chest discomfort without bleeding following spinal anesthesia,
most anesthesiologists consider the possibility of high-level neuraxial anesthesia.
However, in cases in which epinephrine was administered for operative procedures during
spinal anesthesia, most patient complaints of chest pain are caused by coronary artery
spasm [3], and immediate confirmation of coronary spasm is important for proper management.
In conclusion, subcutaneous epinephrine injection under spinal anesthesia can induce
coronary spasm. Early detection of coronary spasm through angiography and injection
of intracoronary nitroglycerin could contribute to good prognosis.