Development of Port-Site Metastases Following Thoracoscopic Resection of a Neuroblastoma

Current thoracoscopic approach for mediastinal neuroblastoma in Japan-results from nationwide multicenter survey

BACKGROUND

Minimally invasive surgery (MIS) is appropriate for the treatment of some neuroblastomas (NBs); however, the indications and technical issues are unclear. This study aimed to clarify the current status of MIS for mediastinal NB in Japan.

METHODS

Preliminary questionnaires requesting the numbers of neuroblastoma cases in which MIS was performed from 2004 to 2016 were sent to 159 Japanese institutes of pediatric surgery. Secondary questionnaires were sent to institutions with MIS cases to collect detailed data.

RESULTS

One hundred thirty-four (84.2%) institutions returned the preliminary questionnaire and 83 institutions (52.2%) reported a total of 1496 operative cases. MIS was performed for 175 (11.6%) cases. Among the 175 cases, completed forms of 140 patients were returned and 40 (male, n = 28; female, n = 12) cases had mediastinal NB. Fourteen patients received thoracoscopic biopsy, none were converted to thoracotomy. Twenty-eight patients received MIS for radical resection, none were converted to thoracotomy. Perioperative complications (Horner's syndrome) were recognized after radical resection in one (2.5%) case.

CONCLUSIONS

MIS was performed in a limited number of mediastinal NB cases. A thoracoscopic approach would be feasible for mediastinal NB.

Comparison of the Efficacy of Minimally Invasive and Open Surgery on Children with Neuroblastoma: A Meta-Analysis

Purpose: Evaluate the clinical efficacy and safety of minimally invasive surgery (MIS) and open surgery in the treatment of neuroblastoma (NB) in children by a meta-analysis. Materials and Methods: This is a meta-analysis. We searched for random or nonrandomized controlled study of MIS group and OPEN surgery group for the treatment of childhood NB included in PubMed, ClinicalTrials, EMBASE, and Cochrane library before January 31, 2020. Data extraction was performed in a standard format for the included studies, including tumor diameter, operation time, intraoperative bleeding, length of hospital stay (LOHS), complications, recurrence, and MYCN. Results: Seven retrospective studies were finally included, with a total of 571 children, including 162 in MIS group and 409 in the OPEN surgery group. Compared with the OPEN surgery group, the MIS group had reduced intraoperative bleeding (mean difference [MD] = -12.72, 95% CI: -24.84 to -0.61, P < .05), and reduced l LOHS (MD = -3.35, 95% CI: -5.55 to -1.15, P < .05) and decreased postoperative recurrence (MD = 0.20, 95% CI: 0.05-0.75, P < .05). The differences between the groups were statistically significant. There was no significant difference between groups in tumor diameter (MD = -18.84, 95% CI: -48.12 to 10.43, P > .05), operation time (MD = -21.7, 95% CI: -97.52 to 54.13, P > .05), and MYCN results (odds ratio = 2.27, 95% CI: 0.56-9.18, P > .05). Conclusions: Preliminary evidence indicates that the treatment of NB with MIS has the advantages of less intraoperative bleeding, shorter LOHS, and less postoperative recurrence compared with open surgery.

The Role of Video-Assisted Thoracoscopic Surgery in Pediatric Oncology: Single-Center Experience and Review of the Literature

Aim: Video-assisted thoracoscopic surgery (VATS) has been widely used in the last decades. Nevertheless, the pros and cons of thoracoscopy vs. open surgery in pediatric oncology are still under debate. In literature, VATS has been applied for both diagnostic and ablative surgery to treat neurogenic tumors, thymic neoplasms, lung tumors and metastases, germ cell tumors, lymphoproliferative diseases, and other rare tumors. Recent reviews described excellent outcomes in pediatric oncology as well as in the treatment of adult lung cancer, with a significantly higher rate of mortality and complication in thoracotomy compared to VATS. We reviewed our experience on thoracoscopy in pediatric malignancy and compared it to the literature. Materials and Methods: This was a retrospective cohort-study of pediatric oncological patients who underwent VATS at our institution from 2007 to 2020, and a review of the recent literature on the topic. Results: A total of 43 procedures were performed on 38 oncological patients (18 males, 20 females). Median age was years 7.72 (0.35-18.6). Diagnosis: 10 neurogenic tumors, nine hematological diseases, five metastases, four lypoblastomas, three thymic pathologies, three germ cell tumors, two pleuropneumoblastomas, two myofibroblastic tumors, one myoepithelial carcinoma, one liposarcoma, and three suspected oncological mass. In three cases, a 3D model was elaborated to better plan the surgical approach. Diagnostic biopsies were 22 (51.1%), and ablative surgeries, 21 (48.9%). One neurogenic tumor was resected with the Da Vinci Robot. Median operative time was 120 min (30-420). A drain was left in place in 20 (46.5%) for a median of 4 days. Median length of hospitalization was 5 days (1-18). One case (2.3%) was converted (intraoperative bleeding). There were three post-operative complications (7.0%): one pneumonia, one pleural effusion, and one diaphragmatic paralysis (need for plication). Results were compared to recent literature, and morbidity and conversion rate were comparable to reviewed publications. Conclusion: VATS represents a valuable tool for diagnostic and therapeutic procedures in pediatric oncology. Nonetheless, it is a challenging technique that should be performed by expert surgeons on oncological and mini-invasive surgery. Three-dimensional reconstruction can optimize the pre-operative planning and guarantee a safer and more targeted treatment. Finally, the advent of robotics-assisted surgery represents a new challenge that may further implement the advantages of VATS.

Minimally Invasive Approaches to Pediatric Solid Tumors

Over the last decade, driven in part by the favorable adult experience and a crescendoing number of case series and retrospective reports in the pediatric surgical literature, minimally invasive surgical (MIS) approaches are increasingly used as adjunctive or definitive surgical treatments for an ever-expanding list of pediatric tumors. Although most current treatment protocols lack surgical guidelines regarding the use of MIS, this growing body of MIS literature provides a framework for the development of multicenter trial groups, prospective registries, and further centralization of subspecialist services. This article highlights the current available data on MIS approaches to a variety of pediatric malignancies.

Contraindications and image-defined risk factors in laparoscopic resection of abdominal neuroblastoma

PURPOSE

Minimally invasive surgery (MIS) has become widely accepted as a technique for abdominal neuroblastoma resection. However, the indications for MIS are still controversial. The aim of this study was to evaluate image-defined risk factors (IDRFs), complications, and oncologic outcomes in patients with abdominal neuroblastomas treated with MIS.

METHODS

Between August 1998 and February 2016, MIS was planned for 20 children with abdominal neuroblastomas. Clinical data were retrospectively reviewed and compared between the IDRF-negative and IDRF-positive patients.

RESULTS

On the basis of the latest IDRF guidelines, five patients were classified as IDRF-positive and four of them had operative complications; namely, partial infarction of the ipsilateral kidney or open conversion. Concerning the two patients who needed open conversion, the primary reason for open conversion was difficulty in dissection of the tumor from the vena cava. Preoperative images of these cases showed either deformation or subtotal encasement of the vena cava. Relapse occurred in three high-risk patients and in none of the low/intermediate-risk patients. No complication occurred in the IDRF-negative cases.

CONCLUSIONS

IDRF-negative might be a good indication for MIS for abdominal neuroblastoma. However, deformation or subtotal encasement of the vena cava should be considered as IDRF-positive for MIS.