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Swine experimental models are often used in studying human diseases because of their similar anatomical and physiological properties. These models are crucial in the development of safe pre-clinical protocols, but they are also subject to legal and ethical restrictions1. The use of swine for research must be done under the best possible conditions to avoid unnecessary loss of animals and suffering due to anesthesia complications unrelated to the research project.
Pre-operative techniques and skills such as intubation, central venous line placement, and arterial line placement are essential for achieving successful and reproducible results.
Every animal undergoing general anesthesia for a surgical procedure must be intubated to maintain an open airway, allowing assisted ventilation and avoiding broncho aspiration2. The most common positions for intubation in swine are dorsal, lateral, and sternal recumbency3,4. Sternal recumbency tends to be easier for personnel trained in human intubation3, which is the case at this research facility.
Good vascular access is essential for the administration of fluids, medications, and sampling during and after surgery. The use of vasopressors is common during abdominal transplant surgeries due to the hemodynamic instability resulting from the ischemia-reperfusion injury. Infusing vasopressors through a peripheral line can cause local tissue injury due to the vasoconstrictive effects5. A central venous line placement allows for infusing large amounts of fluids and vasoppresors. We prefer a guidewire-assisted percutaneous technique for central line placement since it minimizes damage to the soft tissue and vessels6.
Hemodynamic stability of the animal during surgery is required, and blood pressure is the parameter most typically monitored for this purpose7. An arterial line allows for a continuous blood pressure measurement, which is more accurate than traditional non-invasive measurement8 as non-invasive techniques underestimate values during hypertension and overestimate them during hypotension7,8. An accurate reading of blood pressure during these experiments is fundamental to be able to control the amount of fluids and vasopressors that must be administered to the pig.
The Toronto Organ Preservation Laboratory has been using porcine models for more than 10 years and has standardized these procedures throughout the years with excellent outcomes. Although other approaches can be found in the literature for the same procedures, the goal of this paper is to present the techniques developed and perfected over the years at our facility.