Small Animal Laparoscopy and Thoracoscopy. Группа авторов

Small Animal Laparoscopy and Thoracoscopy - Группа авторов


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as prompt recognition and management are essential to a positive outcome.

      Insufflation with CO2 gas is typically performed at 22 °C and 0% relative humidity. The use of a warmed humidified CO2 insufflation (37 °C, 97% relative humidity) has been proposed as a manner to minimize postoperative discomfort, perioperative hypothermia, as well as peritoneal injury and adhesion formation [118–120]. However, studies on potential benefits of using warmed humidified CO2 insufflation have provided conflicting results. While various studies have reported less pain with the use of warmed humidified CO2 insufflation in human patients [118,121–123], others have failed to detect a benefit [124, 125]. A recent study in dogs showed that the ones insufflated with warmed humidified CO2 had higher pain scores than the ones insufflated with the cold dry gas, although no dogs required rescue analgesia [126]. In addition, no benefit regarding maintenance of core body temperature in the perioperative period has been demonstrated from the use of warmed humidified CO2 in humans [121, 124, 125, 127] or dogs [126]. A potential benefit may be the reduction in peritoneal injury that has been shown with the use of warmed humidified CO2 in rats [119, 120] and in dogs [126]. These might include less adhesion formation [120] and lower susceptibility to implantation of cancer cells and metastasis at portal sites [128, 129], but further studies are needed to confirm its clinical significance.

      While there are some unique aspects to laparoscopic intervention as noted in the preceding text, the basic principles of anesthesia must first be applied. General anesthesia should be a reversible event that provides amnesia, analgesia, unconsciousness, and muscle relaxation while supporting thermoregulation, cardiovascular, respiratory, neurologic, hepatic, and renal functions. To meet these basic principles, care should be individualized for the animal with consideration given to the reason for the presentation, the animal's signalment, general health status, etc. Procedure‐related risks should also be considered, and it may be warranted to consider the expertise of the surgical team when selecting anesthetic drugs and the support and monitoring plan. Additionally, one must factor in the pathophysiological implications of laparoscopic intervention as discussed earlier in this chapter.

      The young healthy dog or cat presented for an elective procedure is unlikely to have restrictions when selecting anesthetic drugs. In our practice, an opioid would likely be used for premedication to provide analgesia and some sedation. The additional use of a tranquilizer or sedative might be warranted if the animal is excited or fractious. An anticholinergic could be considered to offset the bradycardia seen with many opioids and sometimes associated with peritoneal distention and visceral traction. Propofol (or another preferred induction agent) could be used for anesthesia induction and to facilitate intubation. While many drugs including ketamine, propofol, and more recently alfaxalone have been shown to increase splenic size to some degree, [130–133] thiopental, which is still available internationally, has been historically associated with the greatest potential to cause splenic enlargement [134] While earlier studies have shown that propofol did not seem to affect splenic volume, [130, 131] a more recent study, which used computed tomography as the evaluating method, has shown comparable spleen enlargement with both thiopental and propofol. [132] Spleen enlargement may increase the potential for puncture of the spleen on entry into the abdomen and could compromise surgical visualization during cranial abdominal procedures, so awareness of the effects of anesthetic drugs on splenic size is important. Following intubation, the patient is commonly transitioned to maintenance with an inhaled anesthetic (isoflurane or sevoflurane). Local anesthetic infiltration at portal sites and a nonsteroidal anti‐inflammatory drug when not contraindicated are used in addition to postoperative opioids to provide additional analgesia. More recently, a sustained‐release bupivacaine formulation (liposomal bupivacaine), which is reported to provide analgesia for 72 hours, has been used with increased frequency for portal site infiltration and for ultrasound‐guided transversus abdominis plane block (TAP block) at our institution. In humans, the use of liposomal bupivacaine for TAP blocks has been described to provide better pain control than traditional bupivacaine in patients undergoing laparoscopic nephrectomy and colon resection and is associated with lower use of postoperative opioids [135–137]. For debilitated or critically ill animals, as well as for more complex laparoscopic procedures, the anesthetic plan should be modified as appropriate.

      In addition to the anesthetic drug plan, when considering the investment in time, training, and equipment for surgical aspects of laparoscopy, the veterinarian must consider whether the appropriate anesthesia equipment is available to support and monitor the patient during these procedures.

      Due to pneumoperitoneum and additional potential postural changes for surgery, mechanical ventilation is recommended. As has been mentioned previously, pneumoperitoneum will increase CO2 tension. This occurs to a greater extent when the insufflation gas is CO2 as is currently most common. If no adjustments are made to positive pressure ventilation at the start of CO2 insufflation,


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