3 research outputs found

    The clinical impact of macrophage polarity after Kasai portoenterostomy in biliary atresia

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    IntroductionBiliary atresia (BA) is a cholestatic hepatopathy caused by fibrosing destruction of intrahepatic and extrahepatic bile ducts, and its etiology has not been clearly revealed. In BA, liver fibrosis progression is often observed even after Kasai portoenterostomy (KPE), and more than half of cases require liver transplantation in their lifetime in Japan. Macrophages play an important role in liver fibrosis progression and are classically divided into proinflammatory (M1) and fibrotic macrophages (M2), whose phenotypic transformation is called “macrophage polarity.” The polarity has been reported to reflect the tissue microenvironment. In this study, we examined the relationship between macrophage polarity and the post-KPE clinical course.Materials and methodsThirty BA patients who underwent KPE in our institution from 2000 to 2020 were recruited. Multiple immunostainings for CD68, CD163, CK19, and α-SMA were carried out on liver biopsy specimens obtained at KPE. ROC curves were calculated based on each clinical event, and the correlation with the clinical data was analyzed.Results and discussionThe M2 ratio, defined as the proportion of M2 macrophages (CD163-positive cells), was correlated inversely with the occurrence of postoperative cholangitis (AUC: 0.7602). The patients were classified into M2 high (n = 19) and non-high (n = 11) groups based on an M2 ratio value obtained from the Youden index ( = 0.918). As a result, pathological evaluations (Metavir score, αSMA area fraction, and CK19 area fraction) were not significantly different between these groups. In mild liver fibrosis cases (Metavir score = 0–2), the M2 non-high group had a significantly lower native liver survival rate than the high group (p = 0.02). Moreover, 4 out of 8 cases in the M2 non-high group underwent early liver transplantation within 2 years after KPE.ConclusionsNon-M2 macrophages, including M1 macrophages, may be correlated with postoperative cholangitis, and the M2 non-high group in mild liver fibrosis cases had a significantly lower native liver survival rate than the high group, requiring early liver transplantation in this study. Preventing advanced liver fibrosis is a key factor in improving native liver survival for BA patients, and liver macrophages may play important roles in liver homeostasis and the promotion of inflammation and fibrosis

    Laparoscopic intraperitoneal onlay mesh for pediatric incisional hernia—a case report

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    Abstract Background The incidence of incisional hernia in pediatric patients is low in comparison with that reported in adults. In the pediatric population, primary closure has generally been favored. However, synthetic or biomedical mesh offers advantages in the repair of larger defects when primary closure is difficult. The use of laparoscopic intraperitoneal onlay mesh (IPOM) in the adult population has been well documented. In the pediatric population, a few laparoscopic approaches with direct suturing have been proposed; however, there are no reports of laparoscopic repair with the use of IPOM. Case presentation The patient was a 1-year-old girl with epigastric incisional hernia after an operation to correct a complete arteriovenous septal defect. The fascial defect (size 30 × 35 mm) was large; thus, direct suturing was considered to be associated with a high risk of thoracic deformation and recurrence. Laparoscopic IPOM was performed. The fascial defect was detected precisely through the laparoscopy, and non-absorbable mesh was placed through a 12-mm trocar. Minimal incisions were required for the trocars, and extensive dissection of the abdominal wall structure was not needed. This procedure allowed for the integrity and functional status of the abdominal wall to be maintained. Conclusion Laparoscopic IPOM is a minimally invasive and cosmetically acceptable method that can be applied to the treatment of large incisional hernias in children

    Advanced surgical strategy for giant mediastinal germ cell tumor in children

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    Purpose: Giant mediastinal germ cell tumor (MGCT) requires a well-planned advanced surgical approach. We retrospectively reviewed our surgical strategy for giant MGCT. Methods: Five children (median age, 5 years) with giant MGCT were treated in our institute from 2012 to 2016. Results: The initial diagnosis was made by tumor markers and image inspection in all cases. Benign teratomas (2 girls) and malignancies (3 boys) were treated with upfront surgery and radical tumorectomy after neo-adjuvant chemotherapy, respectively. After detailed 3D-CT, radical tumor excision was performed supported by a skilled pediatric cardiovascular surgeon. The basic approach was as follows: under cardiopulmonary support (CPS) or with CPS on standby, via median sternotomy, the pericardium and phrenic nerve were resected en bloc with the tumor, followed by diaphragmatic plication. Open biopsy was performed via lateral thoracotomy in 1 patient who showed dense adhesion and fistula formation in the lung; lobectomy via hemi-clamshell incision was required. No deaths or severe sequelae occurred in this series. Conclusions: Resectability is the most important predictor of outcomes for MGCTs. Preoperative 3D-CT and CPS can enable complete resection and ensure surgical safety. Well-functioned surgical team is critical success factor in such advanced surgery
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