Isoflurane Anesthesia for Equine Colic Surgery Comparison with Halothane Anesthesia

Isoflurane was compared with halothane as an anesthetic agent for emergency colic surgery in a series of 38 juvenile and adult horses. After presurgical stabilization with fluids and supportive medications, anesthesia was induced by intravenous xylazine and/or diazepam followed by ketamine. Anesthesia was maintained with isoflurane or halothane in oxygen with controlled ventilation. Heart rates (HR), arterial blood gases, mean arterial pressures (MAP), rate pressure products (RPP), requirements for cardiovascular support medications, and recovery times to standing were compared using nonparametric methods. Cardiopulmonary responses to isoflurane and halothane anesthesia were generally comparable although some temporal differences were observed. Higher HR (p less than 0.02) and lower PaCO2 levels (p less than 0.01) were identified during the course of isoflurane anesthesia. Recovery times to standing were significantly shorter (0.02 less than p less than 0.05) after isoflurane than halothane anesthesia.     

Anesthesia for fish

In fish, the most common purpose of anesthesia is to facilitate handling for physical examination and diagnostic sampling. Fish may also be transported to new locations more safely having been sedated. The author describes techniques of anesthesia in fish as well as the biologic characteristics of fish.     

Anesthesia for rabbits

The author discusses techniques of anesthesia in rabbits as well as characteristics of rabbits that may influence the administration and effectiveness of anesthesia.     

Anesthesia in Caspian ponies

ObjectiveTo evaluate some of the clinical and laboratory parameters following diazepam–acepromazine, thiopental, and halothane anesthesia in Caspian ponies.Study designProspective experimental trial.AnimalsSix healthy Caspian ponies of both sexes, aged 11 ± 3 years and weighing 318 ± 71 kg.MethodsThe ponies were pre-medicated with diazepam (0.2 mg kg⁻¹) and acepromazine (0.05 mg kg⁻¹) IV. Sodium thiopental 5% was administered IV, 10 minutes later and anesthesia was maintained with halothane in oxygen for 1 hour. Heart and respiratory rates, mean arterial blood pressure, cardiac rhythm, and signs of anesthetic depth were monitored during anesthesia. Hematological and serum biochemical parameters were evaluated before anesthesia and at 1, 2, 3, 24, 48, 72, and 96 hours. Urine specific gravity and cytology were evaluated at the same intervals following anesthesia. Parametric data were analyzed using repeated measures anova.ResultsConsiderable sedation/tranquilization without excitement was achieved following pre-medication. Heart rate significantly increased and mild hypotension occurred during anesthesia. Sinus arrhythmia and second degree AV block occurred in five horses. Respiratory rate decreased during anesthesia, with an accompanying respiratory acidosis. Body temperature also decreased. Recovery was scored ‘good’ in four horses and ‘satisfactory’ in the other two. Blood urea nitrogen concentration was significantly increased at 1–3 hours post-anesthesia. Blood glucose was significantly increased at 48, 72, and 96 hours, and creatine kinase and aspartate aminotransferase were significantly increased at 24 and 48 hours post-anesthesia.Conclusion and clinical relevance This simple anesthetic protocol can be used in Caspian ponies and an acceptable anesthetic with a reasonable recovery can be expected.     

Anesthesia and pain control

Successful anesthetic management of the critically ill patient requires familiarity with the pharmacologic properties of a variety of anesthetic drugs. An understanding of the altered physiology present in the critically ill allows an anesthetic regimen to be selected that prevents an anesthetic-induced decompensation. Pain should never go untreated because of a fear of causing excessive physiologic depression. There are numerous options available to control pain. A technique suitable in one instance may be unsuitable in another; for example, an animal that has a significant degree of respiratory compromise may not tolerate the additional respiratory insult associated with narcotic use. A local anesthetic technique may be preferred in this situation. Often a local technique is all that is necessary to control postoperative pain. Furthermore, if pain is controlled for the first 4 to 6 h post-insult, often no further analgesic drugs need to be administered.     

Anesthesia in the Llama

Anesthesia for llamas is similar to other domestic species, although adjustments in technique are required to allow for species variations. Xylazine (0.4-0.6 mg/kg) is well tolerated for sedation. The thiobarbiturates (8-10 mg/kg), ketamine (2.5-5.0 mg/kg), or combinations of guaifenesin and thiobarbiturates or guaifenesin and ketamine (to effect) can be used for induction of anesthesia. In juvenile or debilitated animals, anesthesia can be induced with halothane or isoflurane administered by mask. After tracheal intubation, anesthesia can be maintained with the inhalation agents, usually halothane or isoflurane. Supportive therapy and many anesthetic monitoring techniques used in domestic animals can be used in llamas. While under marginal planes of anesthesia, llamas can have more active physiologic responses to pain, including bradycardia and vasoconstriction, than domestic animals. Llamas are more prone to airway obstruction after tracheal extubation than domestic ruminants but otherwise recover as well from general anesthesia as domestic ruminants.