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Small Animal Laparoscopy and Thoracoscopy


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plastic sleeve is cut, allowing 1–2 cm of excess to be folded into the incision. The soft plastic trocar cap is then firmly fitted to the outer ring. The insufflator tubing is then attached, and the abdomen is insufflated to 8–10 mmHg with carbon dioxide using a pressure‐regulating mechanical insufflator. Advantages to using this device are similar to those of the other wound retractor devices: the wound retractor sleeve is able to accommodate a wide range of body wall thicknesses, up to 10 cm, and the soft outer cap can be removed and reattached repeatedly during the procedure to allow tissue extraction without compromising the ability to reinsufflate the abdomen.

      Insertion Technique of Standard Trocars for Single‐Port Entry

      eye Single‐Port Access Technique (see Figure 6.2, Video 6.4).

      A 1.5‐ to 2‐cm skin incision is made on the ventral midline in the region of the umbilicus. Using the Hasson abdominal access technique, a 5‐mm blunt laparoscopic low‐profile trocar–cannula assembly is inserted into the abdomen. The abdomen is insufflated using a pressure‐regulating mechanical insufflator to an intraabdominal pressure between 9 and 12 mmHg. After brief abdominal exploration with a 30° telescope, two additional very‐low‐profile 5‐mm trocar–cannula assemblies are then inserted in a triangular pattern adjacent to the initial port. For the second and third low‐profile trocar–cannula insertions, the abdomen is partially desufflated to approximately 6–8 mmHg to facilitate mobilization of the skin and soft tissue associated with the initial skin incision and to enable a small soft tissue flap to be created, which allows for tunneling of the ports adjacent to the initial trocar. Using minimal blunt dissection, a tunnel is undermined 1–2 cm laterally and caudally on either side of the initial 5‐mm trocar–cannula assembly using a Kelly hemostat. Through those tunneled paths, the two low‐profile trocar–cannula assemblies are inserted through the abdominal wall into the peritoneal cavity using the sharp trocars under optical visualization. The three trocars are arranged in a deliberate triangular arrangement that causes the skin to stretch in a lateral direction. This arrangement enables each low‐profile cannula to enter the abdomen through separate facial openings but enters through the same 2‐cm skin incision. Advantages with this entry method rely on the fact that existing standard metal and reusable trocar–cannula assemblies can be used, avoiding the cost associated with purchasing disposable equipment.

Photo depicts a wound retractor with latex glove and finger ports can be used as an inexpensive single-port device. Photo depicts the wound retractor (Alexis; Applied Medical, Rancho Santa Margarita, CA) provides a protected retracted access incision through which organs can be exteriorized.

      Instrumentation

      Conventional multiport laparoscopy is governed by the rule of triangulation such that a view is established in tandem with the simultaneously working extension of the human hand by means of the instruments [3]. Because the single‐port platform follows the premise that all instruments enter the abdomen at the same site, one is forced to challenge the laws of traditional instrument triangulation. The single‐port platform creates significant physical and ergonomic constraints that make traditional procedures more difficult to learn and perform compared with traditional laparoscopic surgery. The proximity and parallel trajectory of the telescope and operating instruments placed through the single‐site led to the inevitable instrument and cannula collision, which ultimately interferes with smooth movements and makes the procedure more demanding than standard multiport laparoscopy.

Photo depicts the wound retractor in figure 11 can be used with a laparoscopic cap for insufflation

      Source: Courtesy Boel Fransson Washington State University.

      In trying to overcome some of the technical difficulties associated with single‐port surgery, bent and articulating instruments have been developed to reproduce the triangulation that is experienced with conventional multiport laparoscopy and to limit some of the stated difficulties associated with using standard rigid instrumentation in single‐port surgery [29].