Research article
Incisional Negative Pressure Therapy to Prevent Wound Complications Following Cesarean Section in Morbidly Obese Women
Katrina S. Mark, Lindsay Alger, Mishka Terplan
Abstract
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The knowledge of liver anatomy has led to a rapid evolution based on the intrahepatic distribution of the portal pedicle. One great advance in liver surgery was the used of segment-based liver resections. Techniques based with intrahepatic Glissonian access of portal pedicles were described to safely perform anatomical liver resections. We have earlier described a standardized intrahepatic access to right and left liver segments’ pedicles without hilar dissection for anatomical hepatectomies. To improve the intrahepatic Glissonian technique, we designed a new atraumatic instrument for liver pedicle retrieval based on the anatomical liver landmarks. This new instrument was successfully employed in seventeen consecutive liver resections with minimum blood loss and without any complications related to its use. This new instrument, atraumatic retriever, replaces the right angle dissector or Gray clamp. The new instrument can slide easily and smoothly around Glissonian pedicle with a simple movement. This new instrument is a useful adjunct for performing intrahepatic access for liver resections. It can also be used to compass delicate anatomical structures such as esophagus and major abdominal vessels. The retriever can further be used in other common situations, including access for Pringle maneuver, encircling proximal esophagus during total gastrectomies or esophagectomies, and access for total vascular exclusion of the liver. This instrument can also be adapted to be used for laparoscopic liver resections.
Obtaining a reliable distal margin during anterior colorectal resection can be difficult. In this study, endoscopic transmural tattoos were placed to mark the distal transection point in patients with distal colorectal neoplasms who undergo bowel resection. In the operating room, before surgery, sigmoidoscopy is performed with a 2-channel scope using CO2 insufflation. Through channel 1, a biopsy forceps, marked 5 cm from its end, is inserted to the tumor’s distal edge; in channel 2, a sclerotherapy catheter is placed. The scope is then withdrawn and forceps inserted at the same rate until the mark is seen, next, via the needle catheter, 4 tattoos are placed at that level circumferentially. After rectal mobilization, visible external tattoos guide stapler placement. If no tattoo is seen, sigmoidoscopy is done and the tattoos used to guide stapler placement. In all 27 patients, the tattoos guided stapler placement; tattoos were seen via the abdomen in 26 and the stapler placed as per tattoos in 25. In 2 patients, repeat endoscopy was done and tattoos used to guide or confirm stapler placement. The margin was ≤1 cm from target in 74% while in 22% the margin was 2 to 3.5 cm off target (mean deviation from target margin = 0.33 cm). In conclusion, this method facilitates stapler placement and provides more reliable margins.
