Case 4.1

A 6-year-old gelding weighing 514 kg was brought to a referral center for laryngeal surgery to correct airway problems that were causing poor performance. On the day of surgery the horse’s vital signs were: heart and respiratory rates 36 beats per minute and 16 breaths per minute, respectively; capillary refill time of less than 2 seconds; and moist and pink mucous membranes. Rectal temperature was 38 °C, hematocrit was 35%, and total protein was 62 g L⁻¹. Physical examination was unremarkable and all other blood work was within normal limits for the referral hospital’s clinical laboratory.

While the horse was in its stall, the anesthetist inserted a catheter into its left jugular vein and secured it in position. Thirty minutes later the horse was walked to the anesthesia induction area where its mouth was rinsed with water to flush out food debris in preparation for orotracheal intubation. The horse was then injected with detomidine (3 mg) via the jugular vein catheter. As soon as the catheter was flushed with heparinized saline the horse stumbled, dropped to its knees, and then quickly stood and shook its head.

Thirteen minutes later, during which the horse seemed normal for a sedated horse, it was injected with diazepam (15 mg, intravenously) followed 8 minutes later by ketamine (1.2 g, intravenously). The induction was described as rough in that the horse fell suddenly and atypically to the floor. It was intubated (using a 30-mm internal diameter endotracheal tube) then hoisted by his legs onto the surgical table. The endotracheal tube was attached to a large animal anesthesia machine, and mechanical ventilation was initiated (7 breaths min⁻¹, tidal volume 7 L) delivering halothane (3%) in oxygen (7 L min⁻¹). At this time the anesthetist considered the possibility that the catheter was in the carotid artery and that all drugs had been inadvertently injected into it. As a consequence no additional injections were made through that catheter and another catheter was inserted into the right jugular vein through which all subsequent drugs and fluids were administered.

Throughout the course of anesthesia the horse’s heart rate ranged between 32 and 35 beats per minute and mean arterial blood pressure ranged between 60 and 80 mmHg. Results of arterial blood gas analysis at 30 and 60 minutes after induction were acceptable for an anesthetized horse in lateral recumbency. Sixty-seven minutes after induction, an infusion of dobutamine was started to treat arterial hypotension (mean arterial blood pressure 65 mmHg). After 95 minutes of anesthesia, all monitoring devices were disconnected from the horse and he was turned from lateral recumbency to dorsal recumbency for the last stage of the surgical procedure. During repositioning the horse was administered ketamine to maintain anesthesia (two 200-mg boluses). Thirty minutes after being positioned in dorsal recumbency the horse was extubated for 10 minutes so as to facilitate surgical exploration of the larynx. During this time anesthesia was again augmented with ketamine (one 400-mg bolus), and ventilation was assisted intermittently as the surgical procedure allowed. At the end of surgery the horse was moved to a recovery stall where positive pressure ventilation was continued with a Hudson demand valve until the horse started breathing spontaneously.

By 30 minutes after discontinuing anesthesia the horse started to breathe spontaneously, but recovery seemed slow for the type of anesthesia and surgery. After 70 minutes in the recovery stall the horse started to show signs of seizure activity with extensor rigidity. The horse was re-intubated and positive pressure ventilation was commenced with the Hudson demand valve. Although arterial blood gas analysis indicated normocarbemia (P_aCO₂ 44 mmHg), the horse was hypoxemic (P_aO₂ 47 mmHg). Diazepam was administered to control seizure activity, but its effect lasted only 10 to 20 minutes. It was decided to induce anesthesia using thiamylal (2 g) in glycerol guaifenesin (GG; 5% solution) administered to effect to stop seizure activity, and then maintain anesthesia and control seizure activity with pentobarbital (3.8 g, intravenously). Furosemide was administered to reduce cerebral edema, and dimethyl sulfoxide (DMSO) was given for its anti-inflammatory and oxygen radical scavenging effects. Despite these efforts the horse’s condition deteriorated over time. After 13 hours in the recovery stall the horse was euthanized at the owner’s request.

At necropsy a 2 × 2 cm area of yellow discoloration on the surface of the left occipital cortex was found as well as diffuse vascular congestion of the left cerebral hemisphere. A cross-section of the brain revealed bilateral yellow discoloration and malacia of the entire hippocampus and yellow discoloration of the deeper aspects of the left occipital cortex in the region supplied by the caudal cerebral artery (Figure 4.1).