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Following the five setup fundamentals creates important setup advantages:
Proper setup is crucial for a successful da Vinci procedure.
Identify where the instrument tips must reach in order to complete the procedure. If the surgical workspace of any procedure requires access to more than two quadrants, consider Dual Docking.
The target anatomy is not the pathology. It is the area where the midline of the surgical workspace intersects with the far edge of the surgical workspace boundary.
Place the initial endoscope port 10–20 cm from the target anatomy, on the opposite edge of the surgical workspace boundary.
Decide whether to control two instruments with the left hand or with the right hand. This determines port placement. Two da Vinci instrument ports will go to one side of the initial endoscope port, and one da Vinci instrument port will go to the other.
Place the remaining da Vinci ports 8 cm apart, along a line perpendicular to the target anatomy.
Place the assistant ports as needed, as far away as possible from the da Vinci ports (at least 7 cm).
Select the anatomic region of the desired surgical workspace on the Patient Cart helm.
Select how the Patient Cart will approach the patient: from the Patient’s Right, the Patient’s Left, or the Patient’s Legs.
Deploy for Docking adjusts the da Vinci to an appropriate starting position automatically.
Grasp the handlebars and the cart drive enable switches and slowly drive the Patient Cart to the operating table, monitoring patient clearance.
Drive the laser lines within 5 cm of the initial endoscope port. This positions the center of the da Vinci boom over the initial endoscope port.
Dock the initial endoscope arm to the initial endoscope port. Insert the endoscope and ensure it is rotated to a ‘neutral’ horizon position before targeting.
The target anatomy is not the pathology. It is the area where the midline of the surgical workspace intersects with the far edge of the surgical workspace.
Hold the cannula with one hand to support it while it moves. Press and hold the targeting button on the endoscope.
The boom will automatically rotate and orient itself toward the target anatomy. Hold the targeting button until the audible countdown completes and motion stops.
Performing targeting simultaneously adjusts column height, boom extension, and boom rotation, and achieves the following:
Adjust the flex on the initial endoscope arm, using the laser lines as a positioning guide. Make the back of the arm parallel to the laser line. This aligns the arm with the target anatomy.
Dock the remaining arms to the corresponding ports.
Adjust the flex on the arm to maintain a minimum distance of one fist to the initial endoscope arm.
Flex the outer arm away from the inner arm (the arm nearest to the endoscope) to get it out of the way for initial adjustment.
Adjust the flex on the inner arm to maintain a minimum distance of one fist to the initial endoscope arm. Go back to the outer arm and adjust the flex back toward the inner arm to maintain a minimum distance of one fist.
Left colectomy, sigmoidectomy and high anterior resection
Left colectomy, sigmoidectomy, and robotic high anterior resection are used for colon tumors located in the left colon, sigmoid, and rectum.
Position: The robot cart is placed to the left of the patient, who is in the supine position with open legs, in the Trendelenburg position (> 10º), lateralized to the right (> 10º). Before connecting the robotic system, the patient’s position must be adjusted to ensure sufficient exposure of the surgical field. Subsequently, the operating table cannot be mobilized.
Trocar placement: for trocar placement, a line can be drawn from the right femoral head (lateral edge of the inguinal triangle) to the left mid-clavicular line, crossing the left subcostal border. Port 2 should be placed at the junction of this line with the middle line, this port being the initial one. Then we place 1, 3 and 4 at a distance of 8 cm between them. Finally, the assistant’s port must be positioned as far as possible from the da Vinci ports and lateral to the right of the mid clavicular line.
Mobilization of the splenic flexure: in order to mobilize the splenic flexure, it is necessary to mobilize the orientation of the robotic arms toward the upper left quadrant of the patient, beginning by adjusting arm 1 to the maximum possible flexion. The goal is to open up space between the arms to increase reach and avoid interference.
Low anterior resection, tumors located in the pelvis
Low resection is used for colon tumors located in the mid and lower rectum.
Position: The robot car is placed to the left of the patient, who is in the supine position with open legs, in the Trendelenburg position (> 15º), with no lateralization and with the surgical table at the lowest possible height to avoid conflicts with the robot. Before connecting the robotic system, the patient’s position must be adjusted to ensure sufficient exposure of the surgical field. Subsequently, the operating table cannot be mobilized.
Trocar placement in this case the initial port where the camera will go should be placed at the umbilical level. Port 1 on the left side, 8 cm from port 2 and 3, 4 on the right side to port 2, 8 cm from each other. The auxiliary port must be placed triangulating, as far as possible from the da Vinci ports between 3 and 4.
Right colectomy and Extended right colectomy (intracorporeal anastomosis)
Right colectomy and Extended right colectomy are used for colon tumors located in the right colon and proximal transverse.
Position: The robot car is placed to the right of the patient, who is in the supine position, in the Trendelenburg position (> 10º), lateralized to the left (> 10º) and with the surgical table at the lowest possible height to avoid conflicts with the robot. Before connecting the robotic system, the patient’s position must be adjusted to ensure sufficient exposure of the surgical field. Subsequently, the operating table cannot be mobilized.
Trocar placement: the first trocar should be placed 4-5 cm above the pubic symphysis. A line can then be drawn from port 1 to where the left clavicular midline crosses the left subcostal margin, placing ports 2, 3 and 4 at a distance of 8 cm from each other on the line. The auxiliary port should be placed triangulating, as far as possible from the da Vinci ports and lateral to the midline clavicular left.
Another option would be chosen for localized tumors either in the hepatic flexure or in the transverse colon. In this case we can draw a transversal line 3 cm higher than the pubic symphysis. Place ports 2 and 3 on the transverse line, equidistant to 6 cm around the middle line. Port 1 is positioned 6 cm right side to port 2; port 4, 6 cm left side to port 3 and auxiliary port 5 cm directly top and side to 4.
Segmental colon resections
Segmental colon resections can be used for tumors located in the transverse colon or at the splenic flexure.
Both robot position and trocar placement depend on the location of the tumor, being able to use a pelvic location or right, following the principles previously described depending on where the target anatomy is located.
Double Docking
Double docking is used when the surgical field is too large to be reached with single docking. After working toward the first target anatomy, the user undocks the da Vinci Xi, rotates its boom 180°, and docks again to the same ports. This enables reach towards the second target anatomy.
It is used mainly when:
Multi-organ resection
Local invasion and distant metastasis are common in patients with colorectal cancer and, therefore, multiple organ resection is an important measure for radical resection of colorectal cancer. Robotic surgery is also applicable in combined resection, although it should only be performed by experienced surgeons after consultation with a multidisciplinary team. For locally advanced colorectal cancer with invasion of adjacent organs (mainly tumors that invade the urinary bladder, ovary, and uterus), robotic surgery can be performed safely. This type of surgery can also be applied in the synchronous resection of colorectal cancer with distant metastases, such as liver metastases.
In addition, during resections of different lesions, the same ports can be used to minimize trauma. Currently, hepatic robotic resection has been shown to be safe and effective, but the long-term effects of synchronous resection of colorectal cancer and hepatic metastasis lesions are yet to be assessed.
