Enlargement of accessory spleen subsequent to splenectomy associated with gastrectomy can mimic a solitary tumor : report of a case

We report a case of a 65-year-old woman with an incidental about 20-mm solitary mass between the lateralsegment of the left lobe of the liver and left kidney 5 years after splenectomy associated with total gastrectomy. The mass wassurgically resected, and histological examination revealed it to be an accessory spleen. Small accessory spleens mostly locatednear the splenic hilus, but large accessory spleens are unusual after total gastrectomy with regional lymph nodes resection. Theremaining accessory splenic tissue would undergo compensatory hypertrophy. Hence, the possibility of accessory spleens mustbe considered when an intra-abdominal mass is identified in a patient with splenectomy associated with gastrectomy

Late Recurrence of Benign Multicystic Peritoneal Mesothelioma Complicated with an Incisional Hernia

Benign multicystic peritoneal mesothelioma (BMPM) is a rare disease arising from the peritoneal mesothelium. Here, we report a 57-year-old woman admitted to our unit with an incisional hernia fifteen years later following her first operation due to BMPM. Computerized tomography demonstrated a cystic appearing mass with intraabdominal extension in hernia sac. The patient underwent en bloc resection of the mass and hernia repair. An immunohistochemical analysis of the mass confirmed the recurrence of BMPM. Our case supports that BMPM has slowly progressive nature and can recur with complicated incisional hernia long time after primary resection. Diagnosis and long-term followup are crucial for clarifying the characteristics of this disease

Effects of Neoadjuvant Intraperitoneal/Systemic Chemotherapy (Bidirectional Chemotherapy) for the Treatment of Patients with Peritoneal Metastasis from Gastric Cancer

Novel multidisciplinary treatment combined with neoadjuvant intraperitoneal-systemic chemotherapy protocol (NIPS) and peritonectomy was developed. Ninety-six patients were enrolled. Peritoneal wash cytology was performed before and after NIPS through a port system. Patients were treated with 60 mg/m2 of oral S-1 for 21 days, followed by a 1-week rest. On days 1, 8, and 15, 30 mg/m2 of Taxotere and 30 mg/m2 of cisplatin with 500 mL of saline were introduced through the port. NIPS is done 2 cycles before surgery. Three weeks after NIPS, 82 patients were eligible to intend cytoreductive surgery (CRS) by gastrectomy + D2 dissection + periotnectomy to achieve complete cytoreduction. Sixty-eight patients showed positice cytology before NIPS, and the positive cytology results became negative in 47 (69%) patients after NIPS. Complete pathologic response on PC after NIPS was experienced in 30 (36.8%) patients. Stage migration was experienced in 12 patients (14.6%). Complete cytoreduction was achieved in 58 patients (70.7%). By the multivariate analysis, complete cytoreduction and pathologic response became a significantly good survival. However the high morbidity and mortality, stringent patient selection is important. The best indications of the therapy are patients with good pathologic response and PCI≤6, which are supposed to be removed completely by peritonectomy

Retrospective Analysis of Patients with Signet Ring Subtype of Colorectal Cancer with Peritoneal Metastasis Treated with CRS & HIPEC

Signet ring cell subtype (SRC) of colorectal cancer (CRC) is a rare subtype and occurs in approximately 1% of all patients with CRC. Patients with peritoneal metastasis (PM) of SRC have a poor prognosis, and this subtype is frequently considered as a contra-indication for extensive surgical treatment. This retrospective study from two dedicated peritoneal surface malignancy centers in Japan included all patients treated with CRS ± hyperthermic intraperitoneal chemotherapy (HIPEC) between July 1994 and December 2017 from a prospectively maintained database. Preoperative, operative, and postoperative parameters were recorded, including complication rates and follow-up. Sixty of the 320 patients treated with CRS due to CRC were diagnosed with SRC subtype. The mean age of the patients was 51.4 years, and the mean peritoneal carcinomatosis index (PCI) was 13.1. Complete cytoreduction was achieved in 61.7% of cases. The postoperative morbidity rate was 25% and the mortality rate was 1.7%. The median overall survival (OS) was 14.4 months. Cox regression analysis revealed small bowel PCI > 2 (hazard ratio (HR) 6.5; p = 0.008) as the most important factor for OS. With accurate patient selection (e.g., PCI ≤ 12 or small bowel PCI ≤ 2), even patients with PM of CRC with SRC subtype may benefit from CRS and HIPEC, with median OS from 17.8 to 20.8 months and 5-year OS of 11.6%

Long Term Survival after Cytoreductive Surgery Combined with Perioperative Chemotherapy in Gastric Cancer Patients with Peritoneal Metastasis

The present study demonstrated prognostic factors for long-term survival in patients after a comprehensive treatment (CHT) for peritoneal metastasis (PM) from gastric cancer (GC). Materials and Methods: Among 419 patients treated with neoadjuvant intraperitoneal/systemic chemotherapy (NIPS), 266 (63.5%) patients received complete resection (CC-0) of the macroscopic tumors. In total, 184 (43.9%) patients were treated with postoperative systemic chemotherapy. Results: All patients treated who received incomplete cytoreduction (CC-1) died of GC within 6 years. In contrast, 10- year survival rates (-YSR) of CC-0 resection were 8.3% with median survival time (MST) of 20.5 months. Post-NIPS peritoneal cancer index (PCI) ≤11, and pre-NIPS PCI ≤13 were the significant favorable prognostic factors. Patients with numbers of involved peritoneal sectors ≤5 survived significant longer than those with ≥6. Both negative pre- and post-NIPS cytology was associated with significant favorable prognosis. Multivariate analyses identified pre-PCI (≤13 vs. ≥14), and cytology after NIPS (negative cytology vs. positive cytology) as independent prognostic factors. Ten year-survivors were found in patients with involvement of the greater omentum (9%), pelvic peritoneum (3%), para-colic gutter (13.9%), upper jejunum (5.6%), lower jejunum (5.5%), spermatic cord (21.9%), rectum (9.5%), ureter (6.3%), ovary (6.7%), and diaphragm (7.0%) at the time of cytoreduction. Twenty-one patients survived longer than 5 years, and 17 patients are still alive without recurrence. Conclusions: GC-PM should be removed aggressively, in patients with PCI after NIPS ≤11, PCI before NIPS ≤13, mall bowel PCI ≤2, and complete cytoreduction should be performed for metastasis in ≤5 peritoneal sectors

Peritoneal mesothelioma

This review provides an overview of articles about peritoneal mesothelioma (PM) to analyze the effect of treatment modalities on response rates, post-treatment side effects, morbidity and mortality, and survival. Median survival in months following systemic chemotherapy (SC) ranged from 8.7 to 26.8 months. However, no patient was reported to have survived for more than five years with SC alone. In contrast, comprehensive treatment that included cytoreductive surgery (CRS) + perioperative chemotherapy (POC) showed a significantly longer median survival time than SC alone. Additionally, CRS + POC demonstrated 10-year survival rates of 12%-35%. Accordingly, CRS + POC is an innovative treatment that provides long-term survival in selected patients with PM. Selection criteria are performance status (ECOG PS ≤ 1), the absence of extraperitoneal metastasis, PCI less than cutoff levels (from < 10 to < 28), MIB-1 index (< 10), and histologic type (epithelioid type). Postoperative morbidity and mortality rates after CRS + POC were significantly higher than with more conventional operations. Accordingly, CRS and POC should be done at the specialized peritoneal surface malignancy centers

Phase II Study of a Comprehensive Treatment Using Perioperative Chemotherapy Combined with Cytoreductive Surgery for Curatively Resected Gastric Cancer Patients with Positive Peritoneal Wash Cytology

Patients with curatively resected gastric cancer patients with positive peritoneal wash cytology are called P0/Cy1 status. The aim of the present study is to verify the survival benefit of the comprehensive treatment for patients with P0/Cy1 status.Twenty gastric cancer patients were diagnosed as P0/Cy1 by laparoscopy or laparotomy, and were treated with a comprehensive treatment consisting of neoadjuvant intraperitoneal/systemic chemotherapy (NIPS), cytoreductive surgery (CRS) consisting of gastrectomy with lymph node dissection and peritonectomy, intraoperative hyperthermic intraperitoneal chemotherapy (HIPEC) and postoperative systemic chemotherapy. At the second look laparotomy, the peritoneal wash cytology became negative in 15 patients. No grade 3, 4, 5 complications were experienced after second look operations for CRS. Median follow-up time is 3.7 years. Eight patients died of recurrence, but the other 21 patients are alive without recurrence. Five-year survival rate was 42%.The present study demonstrated the efficacy and safety of the comprehensive treatment on the gastric cancer patients in P0/Cy1 status. Â

The Development of Peritoneal Metastasis from Gastric Cancer and Rationale of Treatment According to the Mechanism

In the present article, we describe the normal structure of the peritoneum and review the mechanisms of peritoneal metastasis (PM) from gastric cancer (GC). The structure of the peritoneum was studied by a double-enzyme staining method using alkaline-phosphatase and 5′-nucreotidase, scanning electron microscopy, and immunohistological methods. The fundamental structure consists of three layers, mesothelial cells and a basement membrane (layer 1), macula cribriformis (MC) (layer 2), and submesothelial connective tissue containing blood vessels and initial lymphatic vessels, attached to holes in the MC (layer 3). Macro molecules and macrophages migrate from mesothelial stomata to the initial lymphatic vessels through holes in the MC. These structures are characteristically found in the diaphragm, omentum, paracolic gutter, pelvic peritoneum, and falciform ligament. The first step of PM is spillage of cancer cells (peritoneal free cancer cells; PFCCs) into the peritoneal cavity from the serosal surface of the primary tumor or cancer cell contamination from lymphatic and blood vessels torn during surgical procedures. After PFCCs adhere to the peritoneal surface, PMs form by three processes, i.e., (1) trans-mesothelial metastasis, (2) trans-lymphatic metastasis, and (3) superficial growing metastasis. Because the intraperitoneal (IP) dose intensity is significantly higher when generated by IP chemotherapy than by systemic chemotherapy, IP chemotherapy has a great role in the treatment of PFCCs, superficial growing metastasis, trans-lymphatic metastasis and in the early stages of trans-mesothelial metastasis. However, an established trans-mesothelial metastasis has its own interstitial tissue and vasculature which generate high interstitial pressure. Accordingly, it is reasonable to treat established trans-mesothelial metastasis by bidirectional chemotherapy from both IP and systemic chemotherapy