Complications in Equine Surgery. Группа авторов

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Название Complications in Equine Surgery
Автор произведения Группа авторов
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781119190158



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run, on both sides of the spinal cord.

      When performing paravertebral blocks, the needle should be advanced carefully until it reaches the transverse process of a vertebra and then “walked off” the process and advanced only one or two more centimeters to avoid reaching the abdomen.

      Loco‐regional blocks, especially epidural or paravertebral injections, should be avoided in animals with coagulation defects.

       Diagnosis

      If blood is observed in the hub of the needle while it is being advanced, it is advisable to reposition the needle until blood flow stops or to abort the procedure and repeat it using a new needle in a slightly different location.

       Inadvertent intravascular injection may just lead to block failure if the total dose was low. But it could also lead to systemic signs of toxicity. The first signs are neurological due to central nervous system toxicity, starting with rapid eye blinking, ataxia, progressing to sedation, muscle twitching, seizures and unconsciousness [9]. When the intravascular dose of local anesthetic is high enough to cause cardiovascular toxicity, the signs may include ventricular premature beats, ventricular tachycardia and/or fibrillation followed by cardiovascular collapse and arrest [10].

       The clinical signs of local anesthetic toxicity are different in conscious and anesthetized animals. Anesthetized animals are more resistant to the central nervous system toxicity and no seizures are observed, while cardiovascular depression might occur at lower doses than in conscious animals [10].

       Treatment

      Normally no specific treatment is necessary for hemorrhage/hematoma if the horse’s coagulation is normal. If there is a clotting problem or the bleeding is significant, administration of an antifibrinolytic agent could be considered such as tranexamic acid or epsilon‐aminocaproic acid. If the hematoma is big, drainage of the blood may be attempted, as well as application of local cold treatment and local and/or systemic administration of non‐steroidal anti‐inflammatory agents.

      When systemic toxicity is noticed, the administration of local anesthetic should be halted. Treatment of systemic toxicity is supportive as there is no reversal agent. If seizures are observed, an anticonvulsant drug such as a benzodiazepine (i.e. diazepam) can be administered, although it may be safer to induce general anesthesia with a barbiturate (i.e. thiopental). Supportive treatment consists of endotracheal intubation, oxygen administration and controlled respiration [11]. Signs of cardiovascular toxicity induced by lidocaine or mepivacaine are usually mild and reversible with positive inotropic drugs such as dobutamine and fluid therapy. Longer acting local anesthetics such as bupivacaine, levobupivacaine or ropivacaine are more cardiotoxic and the cardiac arrhythmias that they produce are usually malignant and refractory to routine treatment (i.e. ventricular tachycardia or fibrillation). In these cases, administration of a low dose of epinephrine (for cardiac arrest), amiodarone (for ventricular tachycardia) or defibrillation (for ventricular fibrillation) are the recommended treatments. An intravenous infusion of a 20% lipid emulsion (“lipid rescue”) is recommended to treat refractory arrhythmias induced by highly lipophilic local anesthetics (i.e. bupivacaine), as it has been shown to be the only effective treatment in different experimental models [12, 13] and in human clinical reports [14, 15].

       Expected outcome

      The consequences and the prognosis of hemorrhage/hematoma could be serious depending on the location and amount of blood lost. It is likely that this complication occurs commonly in practice but that it does not carry any serious consequence for the animal. An immediate consequence to this complication could be a less effective or an ineffective block, due to the dilution and entrapment of the local anesthetic within the blood/clots.

      If significant bleeding occurs within the spinal canal following an epidural injection, this could lead to spinal cord compression, which depending at what level it occurs, it could lead to ataxia and/or recumbency of the animal. Puncture of the caudal vena cava or the aorta when performing a proximal paravertebral block could lead to significant intra‐abdominal bleeding; however, no reports of such complication could be found by the author.

      The outcome of local anesthetic systemic toxicity is generally good when only mild central nervous system signs are observed (i.e. muscle fasciculations); however, it could be fatal if seizures occur as the horse may injure itself. When cardiovascular toxicity occurs, this could lead to irreversible cardiac arrest, particularly when using the longer acting local anesthetics (i.e. bupivacaine).

      Nerve Injury

       Definition

      Direct needle puncture of a nerve and/or injecting the local anesthetic into a nerve may lead to nerve damage.

       Risk factors

       The neurotoxicity of local anesthetic is greater as concentrations increase.

       Blind injection techniques

       Several passages of the needle and movements of the needle

       The type of bevel of the needle can also influence the degree of damage as well as the orientation that the needle has with respect to the nerve fibers.

       Pathogenesis

      Local anesthetic agents have cytotoxic effects and therefore can produce direct neurotoxicity. Small fiber neurons such as C and Aδ (responsible for pain and temperature transmission) are more sensitive to chemical damage than the larger fibers Aα and Aβ (responsible for motor function, proprioception, pressure and touch) [16]. These neurotoxic effects will manifest clinically as persisting sensory and/or motor deficits in the area innervated by the nerve.

      Mechanical damage due to needle‐tip penetration of the nerve can also lead to injury, but this seems not to be the main cause of clinical complications [20]. Nerve damage is more likely to occur when the solution is injected intrafascicularly due to interruption of the perineural tissue around the nerve fascicles, causing a breach of the blood–nerve barrier leading to edema and herniation of the endoneural contents [17]. Nonetheless, intrafascicular injection of saline solution that caused pressures transiently exceeding the nerve capillary perfusion pressure did not induce any changes in the microscopic anatomy or diffusion barriers within the nerve [19], which indicates that the main source of peripheral nerve injury is injection of the local anesthetic into a fascicle. Based on data in dogs, when lidocaine 2% is injected intrafascicularly with a low injection pressure (≤11 psi), normal motor function will return in 3 hours [21]. In another study in dogs where lidocaine 2% was also administered, neurological function returned to baseline 3 hours after perineural injections and within 24 hours after intraneural injections with injection pressures below 12 psi [22].

      Long‐beveled needles (14‐degree angle) are more likely to cause nerve damage if they