Background
Accessory liver lobe (ALL) is a rare liver malformation. An ALL develops due to malformation of the endodermal caudal foregut and segmentation of the hepatic bud in the third week of gestation. Most ALLs are asymptomatic and are detected incidentally during abdominal surgery. The incidence of ALL is < 1% in patients who undergo abdominal surgery. However, some ALLs twist and cause acute abdomen. We experienced a pediatric case of ALL torsion in a patient who underwent elective laparoscopic surgery.
Case presentation
The 5-year-old girl had a 3-month history of epigastralgia and vomiting, which occurred every 2 weeks. Abdominal ultrasonography with color Doppler imaging revealed an 11.8 × 13.6 mm nonvascular lesion with mixed echogenicity near the round ligament of the liver. Enhanced computed tomography confirmed a 14 × 16 × 20 mm low-attenuation mass surrounded by a hyperdense line and disproportionate fat stranding on the right side of the round ligament of the liver. There was no ascites or hemorrhage. These findings suggested an abscess of the round ligament of the liver. Her symptoms improved with the administration of oral antibiotics; thus, we planned to perform elective exploratory laparoscopy and subsequent resection. Two trocars (5 mm) were inserted through a multichannel port device at the umbilicus and one trocar (3 mm) was inserted at the right lateral abdomen. Upon observation of the abdominal cavity, the omentum was observed adhering to the round ligament of the liver. Macroscopic observation revealed no apparent mass lesions. We performed adhesiolysis of the omentum from the round ligament of the liver using a vessel sealing system. We performed resection at the site at which adhesion had formed between the round ligament of the liver with the surrounding tissue using a vessel sealing system and the resected specimen was extracted through the umbilical wound. The postoperative course was uneventful. A pathological examination revealed necrotic liver tissue. The resected tissue was founded to be an ALL with ischemic change.
Conclusions
The recurrent abdominal pain was induced by torsion of the ALL. Pediatric surgeons should consider ALL torsion as a differential diagnosis for epigastralgia of unknown etiology.
Purpose: Tunneled central venous catheter (tCVC) placement plays an important role in the management of pediatric patients. We adopted a real-time ultrasound (US)-guided supraclavicular approach to brachiocephalic vein cannulation. We evaluated the outcomes of tCVC placement via a US-guided supraclavicular approach. Methods: A retrospective study was performed for patients who underwent US-guided central venous catheterization of the internal jugular vein (IJV group) and brachiocephalic vein (BCV group) in our institution. The background information and outcomes were reviewed using medical records. Results: We evaluated 85 tCVC placements (IJV group: n = 59, BCV group: n = 26). Postoperative complications were recognized in 19 patients in the IJV group (catheter-related bloodstream infection (CRBSI), n = 14 (1.53 per 1000 catheter days); occlusion, n = 1 (1.7%, 1.09 per 1000 catheter days); accidental removal, n = 3 (5.2%, 0.33 per 1000 catheter days); and other, n = 1 (1.7%, 1.09 per 1000 catheter days)) and five patients in the BCV group (CRBSI, n = 2 (0.33 per 1000 catheter days); catheter damage, n = 1 (3.8%, 1.67 per 1000 catheter days); and accidental removal, n = 2 (7.7%, 0.33 per 1000 catheter days)). In the BCV group, despite that, the incidence of postoperative complications was lower ( p = 0.205) and the period of placement was significantly longer in comparison to the IJV group ( p = 0.024). Conclusion: US-guided placement of tunneled CVC though the BCV results in a low rate of postoperative complications despite longer CVC indwelling times compared to IJV insertion. Our results suggest that BCV insertion of tunneled CVC in children may offer advantages in terms of device performance and patient safety.
Introduction: Management of neonates with long gap esophageal atresia (LGEA) is one of the most challenging situations facing pediatric surgeons.Delayed anastomosis after internal traction for esophageal lengthening was reported as a useful technique for long gap cases. Additionally, the use of nearinfrared (NIR) fluorescence imaging with indocyanine green (ICG) has gained popularity in pediatric surgery, especially for blood perfusion validation. We report a novel technique for safe and secure anastomosis for LGEA in the neonatal period using internal traction and ICG-guided NIR fluorescence.Patient and Surgical Technique: A pregnant woman with polyhydramnios was admitted to the department of obstetrics in our hospital. At 29 weeks of gestation, ultrasound showed mild polyhydramnios and absence of the fetal stomach. A male neonate was born at 38 weeks of gestation with 21 trisomy. EA (Gross type A) was diagnosed based on an X-ray study that showed the absence of gastric bubble with a nasogastric tube showing the "coil-up" sign.Thoracoscopic internal traction and laparoscopic gastrostomy were performed on day 4 after birth. We confirmed the distance between the upper pouch and lower pouch on X-ray. On day 16 after birth, thoracoscopic anastomosis was performed. We successfully performed esophageal anastomosis without tearing the esophageal wall. Blood perfusion of the upper and lower pouch was validated after anastomosis using ICG-guided NIR fluorescence.
Conclusion: Delayed anastomosis forLGEA in the neonatal period using internal traction and ICG-guided NIR fluorescence is safe and feasible.
Near-infrared (NIR) fluorescence imaging with indocyanine green (ICG) has gained popularity in pediatric surgery as it has in general surgery. In addition, a water-jet dissector (WJD) has been successfully introduced in adult hepatic surgery. Tissue structures are dissected selectively and gently by the WJD. However, there have been no reports of hepatic resection for pediatric patients using a WJD. We applied NIR fluorescence imaging with ICG to visualize the resection line of the liver and used a WJD for liver parenchyma dissection in pediatric hepatoblastoma. The patient was a 3-year-old girl with a large liver tumor. Enhanced computed tomography revealed a liver tumor (maximum diameter: 120 mm) in the right lobe and three small lung metastases. The liver tumor was diagnosed as hepatoblastoma (PRETEXT 2) based on an open biopsy. We performed right hepatectomy after neoadjuvant chemotherapy. The right lobe was mobilized from the diaphragm, and then intraoperative ultrasound was performed to detect the localization of the tumor and its proximity to the vascular structures. We detected the right hepatic artery (RHA), right portal vein (RPV), and right hepatic vein (RHV). The middle hepatic vein was not involved. After ligation of the RHA and RPV to selectively control the right lobe inflow, ICG was administered intravenously and observed by an NIR endoscope. The resection line was clearly visualized by overlaying images in comparison to conventional demarcation line detection. Then, we used a WJD to dissect the parenchyma. Small vessels were divided from parenchymal tissue and were clearly visible. We resected them after clamping with metal clips. Finally, the RHV was transected by a linear stapler, and right hepatectomy was completed with 25 ml of blood loss. There was no postoperative hemorrhage. We performed hepaticojejunostomy because of stricture of the common bile duct on postoperative day 302. The patient was discharged after adjuvant chemotherapy. NIR imaging clearly showed the resection line. The WJD automatically separated, and thus made visible, the more resistant duct and vessel structures from the parenchyma. The combined use of NIR imaging and WJD was useful for pediatric hepatectomy.
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