Wound retractors are available in a variety of sizes to match the surgeon's desired incision length and range from 2.5 to 25 cm. The smaller sizes (2.5 cm) are most frequently used in small animal MIS. The authors often use a SILS port through a 2.5 cm wound retractor for laparoscopic‐assisted abdominal exploratory and visceral biopsy. The use of wound retractors has been reported to facilitate a number laparoscopic and thoracoscopic procedures in veterinary medicine including abdominal explore and biopsy [14], gastrointestinal foreign body removal [10, 15], resection and anastomosis [16], splenectomy [17], cysterna cyhli ablation [18], pulmonary surgery [14, 19], and many hand‐assisted MIS procedures (Figures 4.29, 4.31–4.34).
Figure 4.28 (A). A suction irrigation device has many fenestrations in the tip for effective suctioning. (B). Commercial units are surprisingly cost effective and include a pump, tubing, and a handpiece for regulation of suction and irrigation actions. (C). Use of irrigation and suction.
Figure 4.29 Use of a wound retractor in abdominal minimally invasive surgery.
Figure 4.30 A wound retractor applies centrifugal force on the incision, greatly facilitating exteriorizing of intestines.
Figure 4.31 Wound retractor in the chest.
Figure 4.32 The wound retractor facilitates exteriorizing of organs while protecting the wound edges.
A wound retractor can also be used with a laparoscopic cap (Figure 4.34), which enables a laparoscopic approach before and after specimen retrieval.
Morcellators
Morcellators are specialized surgical instruments used to divide larger tissue resections into smaller pieces to facilitate extraction through a laparoscopic port or small incision. Electromechanical morcellators (Figure 4.35) are commercially available and commonly used in human laparoscopy.
Mechanical morcellators debulk large tissues using a sharp cylindrical blade, which shaves off tissues into layered strips, that are exteriorized though a hollow tube or shaft inserted in a cannula [3, 4, 6]. Typically, grasping forceps are inserted through the morcellator device to handle the tissue of interest and withdraw the tissue into the hollow cylindrical lumen of the morcellator and into contact with the rotating circular cutting blade. In order to minimize potential contact of tissues within the abdomen during morcellation, this technique can also be performed with the tissue enclosed in a specimen retrieval bag. The FDA issued a recommendation to not use power morcellation in patients with suspected or confirmed cancer due to the risk for tumor cell seeding without the use of a tissue containment system [20]. A systematic review of laparoscopic morcellator‐related complications underscored the need for surgeons' safe practices associated with its use [21]. The authors recommend any morcellation of potentially harmful tissues in veterinary patients to be performed within specimen retrieval bags.
Morcellators are considered to reduce operative time and decrease the risk of incision site hernia formation [6]. In humans, morcellation is most commonly performed during laparoscopic hysterectomies, myomectomies, and splenectomies [3, 4, 6]. In veterinary medicine, morcellators are most commonly reported for the removal of reproductive tumors in equine patients [22, 23]. Recently, laparoscopic falciform fat morcellation in dogs was found to be a safe and effective approach to the harvest and isolation of adipose‐derived mesenchymal stem cells [24]. Risks associated with the use of power morcellation include iatrogenic tissue damage, seeding of cancerous or infected tissues, and decreased ability to perform histopathologic cancer staging [6, 21, 25].