8 research outputs found
Choice of the surgical treatment in early gastric cancer
Background/Aims: The authors report their experience in choosing the surgical treatment for early gastric cancer. Methodology: A retrospective study was conducted to examine the long-term outcome of 18 patients with early gastric cancer (10%) on a series of 180 patients treated for gastric carcinoma by the same surgical equipe from January 1986 to June 1997. Radical surgery with gastrectomy and extended lymphadenectomy ("regional" from 1986 to 1991; D2 from 1992 to 1997) was chosen as standard treatment for early gastric cancer except in elderly or high-risk patients and in cases of mucosal tumors diagnosed at definitive histology after surgery for benign diseases in which limited surgery was performed. Results: All patients received curative (R0) surgery. One patient with mucosal-N1 tumor and another one with submucosal-NO tumor died because of gastric cancer at 51 and 42 postoperative months respectively. The mean follow-up time was 99.8 (11-193) months. The overall 5-year and 10-year survival rates are 86.7% and 86.7% respectively. The 5- and 10-year survival rates for intramucosal tumors are 91% and 91% respectively and for submucosal cancer are 75% and 75% (P = 0.39). Conclusions: According to the prognostic value of nodal involvement and the difficulty in achieving a preoperative accurate diagnosis of depth of invasion and of nodal involvement in early gastric cancer, a radical gastric resection with D2-lymphadenectomy should be performed
Carbon-α-Fe<sub>2</sub>O<sub>3</sub> Composite Active Material for High-Capacity Electrodes with High Mass Loading and Flat Current Collector for Quasi-Symmetric Supercapacitors
In this work, we report the synthesis of an active material for supercapacitors (SCs), namely α-Fe2O3/carbon composite (C-Fe2O3) made of elongated nanoparticles linearly connected into a worm-like morphology, by means of electrospinning followed by a calcination/carbonization process. The resulting active material powder can be directly processed in the form of slurry to produce SC electrodes with mass loadings higher than 1 mg cm−2 on practical flat current collectors, avoiding the need for bulky porous substrate, as often reported in the literature. In aqueous electrolyte (6 M KOH), the so-produced C-Fe2O3 electrodes display capacity as high as ~140 mAh g−1 at a scan rate of 2 mV s−1, while showing an optimal rate capability (capacity of 32.4 mAh g−1 at a scan rate of 400 mV s−1). Thanks to their poor catalytic activity towards water splitting reactions, the electrode can operate in a wide potential range (−1.6 V–0.3 V vs. Hg/HgO), enabling the realization of performant quasi-symmetric SCs based on electrodes with the same chemical composition (but different active material mass loadings), achieving energy density approaching 10 Wh kg−1 in aqueous electrolytes