Sir,
Haemodynamic fluctuations and arrhythmias are common during posterior fossa surgeries due to brainstem handling. However, acute coronary spasm during the cerebellopontine angle tumour excision is a rare event. Only a few reports of coronary spasm have been reported in the literature.[1]
[2]
[3]
[4] We report a case of acute intraoperative coronary spasm due to stimulation of trigeminal nerve and its successful management.
A 37-year-old American Society of Anesthesiologists (ASA) Grade 1 woman (height 154 cm, weight 64 kg) underwent a right retromastoid suboccipital re-craniotomy and excision of a recurrent vestibular schwannoma [Figure 1] in left lateral position. Patient was anaesthetised using propofol (3 mg/kg), fentanyl (3 μg/kg) and vecuronium (0.15 mg/kg). Anaesthesia was maintained using air, oxygen and isoflurane (0.9–1 minimum alveolar concentration) and vecuronium infusion. She was haemodynamically stable until the dural opening. During the internal decompression of the lesion, the pulse rate increased from 90 to 116 beats/min. Anaesthesia was further deepened with bolus doses of propofol and fentanyl. Despite adequate analgesics (6 μg/kg fentanyl), anaesthetic depth and muscle relaxation, there was a persistent tachycardia, which was treated with 4 mg of metaprolol (1 mg bolus). However, there was no significant reduction in heart rate even after treating with metaprolol, and the blood pressure (BP) started to increase from 110 to 140 mmHg and persisted at that value for more than 30 min. We attempted to reduce the BP with labetalol boluses (5 mg each) up to 15 mg, so as to reduce the surgical bleeding due to high BP, which failed to bring down the BP [Figure 2]. While the surgeon was resecting the superior pole of the lesion, there was a sudden sharp increase in systolic BP from 130 to 175 mmHg with severe ST segment depression on electrocardiogram [Figure 2]. The ST segment went down from baseline of − 0.3 to − 2.4 over a period of 3–4 min [Figure 3]. A possibility of acute coronary spasm due to trigeminal nerve stimulation was suspected. This was notified to the surgeon, and the further dissection of the lesion was stopped. This acute rise in BP was treated with fentanyl (50 μg), propofol (50 mg), and esmolol (40 mg). A glycerol trinitrate (GTN) infusion was started at the rate of 0.5 μg/kg/min to treat the coronary spasm and to control the BP. After starting the GTN, ST depression improved from −2.4 to −1.4 over a period of 30 min. Hence, we had decided to proceed with the surgery. The dissection was continued, but, the BP started to rise again that was treated by increasing the dose of GTN (1.5–2.0 μg/kg/min). Cardiac enzymes were sent, and a transthoracic echo was performed, which revealed no regional wall motion abnormality. The surgery was continued, and the lesion was excised completely.
Figure 1: Magnetic resonance imaging brain (T2-weighted drive) shows the vestibular schwannoma with distorted trigeminal nerve. A: Trigeminal nerve, B: Meckel’s cave, C: Vestibular schwannoma
Figure 2: Haemodynamic changes from the time of dural opening to 30 min after the coronary spasm. (Arrow 1) the period at which hypertension and ST depression occurred. (Arrow 2) Episodes of hypertension following the restart of surgery
Figure 3: The trends of ST segment changes during the episode of coronary spasm
A transdermal GTN patch (5 mg/24 h) was applied at the time of surgical closure, and the intravenous GTN was slowly tapered and stopped at the end of surgery. The patient was reversed and extubated smoothly. The ST segment was almost normalised (−0.8) at the time of extubation. The initial cardiac enzymes and a repeat one done after 6 h were within normal limits. The GTN patch was continued for 24 h in the Neonatal Intensive Care Unit. Her post-operative period was uneventful and got discharged from hospital on the 5th post-operative day.
The trigemino cardiac reflex (TCR) is a brain stem reflex with the trigeminal nerve being afferent and the vagus nerve being efferent. Its classical presentation is characterised by sudden hypotension, bradycardia, asystole, apnoea and hyper gastric motility. The classic presentation of TCR is seen only when there is central stimulation of the trigeminal nerve.[4] Peripheral nerve stimulation or stimulation at Gasserian ganglion (located in Meckel’s cave) usually presents with tachycardia and hypertension rather hypotension and bradycardia. This is because the sympathetic fibers from carotid plexus lie on the medial side of the Gasserian ganglion.[5] In our case, the sudden hypertension was due to the sudden traction of the trigeminal nerve near the Meckel’s cave. There was no further increase in heart rate noted during this event, possibly due to the administration of beta blockers before this event.
The sudden significant ST depression could be due to acute coronary spasm caused by the vagal stimulation.[4] Beta-blocker administration for the treatment tachycardia could have worsened this spasm by causing unopposed alpha stimulation.[6] A normal PaCO2 and electrolytes ruled out a possibility of hypocapnia or electrolyte imbalance induced ST depression.
Cardiac emergencies can happen even in ASA 1 patients who undergo non-cardiac surgery; the decision to proceed or stop the surgery depends on the individual case and their response to treatment. To reduce the heart rate and BP, administration of labetalol (combined alpha and beta blocker) is a better choice, compared to administration of beta-blockers alone to avoid the unopposed alpha stimulating effect. Eternal vigilance, prompt diagnosis and its immediate treatment, better communication had prevented the cardiac morbidity in our case.
Conflicts of interest
There are no conflicts of interest.
