Norifumi Takahashi

Three-dimensional computed tomography for analyzing the vascular anatomy in laparoscopic surgery for right-sided colon cancer.

Background: The mesenteric vessels have many branching patterns. This study clarified the anatomic relationship between the superior mesenteric vein (SMV), the right colic artery (RCA), and the ileocolic artery (ICA) using 3-dimensional computed tomography (3D-CT). The relationship between the RCA and the right colic vein (RCV) was also examined. Methods: Between April 2006 and July 2011, all patients with colorectal cancer underwent multidetector computed tomography (MDCT) before laparoscopic surgery. The 100 most recent consecutive cases were analyzed. 3D-CT images were made by combining arterial angiography, venous angiography, colonography, tumor, lymph node, and duodenal images. Results: The RCA branched from the SMA in 37 cases (37%); of these, 21 had an ICA that crossed anterior to the SMV and 16 had an ICA that crossed posterior. When the ICA crossed anterior to the SMV, all had an RCA that crossed anterior to the SMV, and no posterior RCA was seen. Furthermore, the RCV joined the SMV in 10 cases (27%) and the gastrocolic trunk in 27 cases (73%). Conclusions: Our study clarified the anatomic variety of the vessels in right-sided colon cancer. Preoperative 3D-CT is useful for understanding the anatomy to ensure a safe, precise operation.

Laparoscopic resection of a paraganglioma located on the border of the thoracic and abdominal cavities using a transabdominal-transdiaphragmatic approach

We treated a 64‐year‐old woman with high blood pressure. Catecholamine metabolite levels were elevated in the blood and urine. CT revealed a densely stained tumor on the right side of the descending aorta dorsal to the inferior vena cava. PET‐CT revealed abnormal accumulation of 18F‐fluorodeoxyglucose, and 123I‐meta‐iodo‐benzylguanidine uptake was apparent on scintigraphy. The tumor was determined to be a paraganglioma located on the border between the thoracic and abdominal cavities, and laparoscopic tumorectomy was performed. The patient was placed in the left lateral position. The right lobe of the liver was turned over, and we cut the diaphragm to expose the front of the tumor. We resected the straight artery flowing in from the aorta and removed the tumor safely. Herein, we describe the removal of a paravertebral paraganglioma located in the border of the thoracic and abdominal cavities with a laparoscopic transabdominal‐transdiaphragmatic approach.

Securing the surgical field in laparoscopic pancreatectomy using a Penrose drain and Endo Close.

Introduction: We adopted the use of Penrose drains and Endo Close to secure a good surgical field during laparoscopic pancreatectomy. Methods: We used a Penrose drain with threads ligated on both ends to suspend the stomach. We then pulled the threads out of the body from the side of the trocar or from besides the xiphisternum by using Endo Close. In most cases, 2 Penrose drains were used to retract the stomach. When the greater omentum on the left side of the cardia still blocks the surgical field, we sewed the posterior wall of the stomach onto the dome of the diaphragm. Results: The use of 2 Penrose drains and Endo Close were effective to retract the stomach in most cases. However, in 3 cases, we needed to additionally sew the stomach onto the diaphragm to fully open up the field. Conclusion: This is a simple and effective method to ensure a good surgical field.

Modified Pringle Maneuver Applicable for Laparoscopic Hepatectomy.

INTRODUCTION We present a widely applicable technique of the modified Pringle maneuver to reduce blood loss for laparoscopic hepatectomy. METHODS We use a drip-infusion tube and wrap it around the hepatoduodenal ligament. In the modified Pringle maneuver ① (m-Pringle ①), we use a 60 cm long tube. Both ends of the tube are led out from the side of the umbilical port, then pulled and clipped with Pean forceps to interrupt blood flow. In the modified Pringle maneuver ② (m-Pringle ②), we use a 20 cm long tube with silk threads tied at both ends. The threads were led extraperitoneally in the same manner. RESULTS Although blood flow was sufficiently interrupted, CO2 leak occurred in 14 of 60 cases in m-Pringle ①. Blood flow was interrupted and intra-abdominal pressure was kept in all 10 patients in m-Pringle ②. CONCLUSIONS These maneuvers require no extra port, and tube pulling and releasing is readily performed from outside the body.