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28; OS, P = 0.44; postoperative therapy RFS, P = 0.77; OS, P = 0.08).

This study demonstrated that, although perioperative therapy is feasible for selected elderly patients with PC, this approach might not be as beneficial as it is for younger PC patients.

This study demonstrated that, although perioperative therapy is feasible for selected elderly patients with PC, this approach might not be as beneficial as it is for younger PC patients.

The objective of this study was to evaluate racial differences in cancer treatment and survival in gastroenteropancreatic neuroendocrine tumor (GEP-NET) patients.

Using the Surveillance, Epidemiology, and End Results Registry, we identified patients with GEP-NETs of the stomach, small intestine (SI), colon, rectum, appendix, and pancreas diagnosed between 1973 and 2014. Demographic, cancer, and treatment information were collected and compared using χ2 tests. Multivariable logistic and Cox regression were used to determine disparities in receiving treatment and overall survival.

We identified 19,031 GEP-NET patients 2839 were non-Hispanic Blacks, 12,832 non-Hispanic Whites, 2098 Hispanics, and 1262 Asians. African Americans and Hispanics with SI and pancreatic NETs were less likely to be treated with surgery (odds ratio, 0.6; 95% confidence interval [CI], 0.46-0.69; odds ratio, 0.71; 95% CI, 0.51-0.99, respectively). African American race was not an independent predictor of survival; there was a strong trend in stomach, SI, and pancreas NETs (hazard ratio [HR], 1.31; 95% CI, 1-1.7; HR, 1.2; 95% CI, 0.99-1.45; HR, 1.22; 95% CI, 1-1.48, respectively).

Our study provides evidence of racial disparities in treatment and survival across GEP-NET primary sites and racial groups. Further studies should be performed to improve our understanding of the reason for these disparities.

Our study provides evidence of racial disparities in treatment and survival across GEP-NET primary sites and racial groups. Further studies should be performed to improve our understanding of the reason for these disparities.

Endoscopic pancreatic function tests are used to diagnose pancreatic diseases and are a viable source for the discovery of biomarkers to better characterize pancreatic disorders. However, pancreatic fluid (PF) contains active enzymes that degrade biomolecules. Therefore, we tested how preservation methods and time to storage influence the integrity and quality of proteins and nucleic acids.

We obtained PF from 9 subjects who underwent an endoscopic pancreatic function test. Samples were snap frozen at the time of collection; after 1, 2, and 4 hours on ice; or after storage overnight at 4°C with or without RNase or protease inhibitors (PIs). Electrophoresis and mass spectrometry analysis determined protein abundance and quality, whereas nucleic acid integrity values determined DNA and RNA degradation.

Protein degradation increased after 4 hours on ice and DNA degradation after 2 hours on ice. Adding PIs delayed degradation. RNA was significantly degraded under all conditions compared with the snap frozen samples. Isolated RNA from PF-derived exosomes exhibited similar poor quality as RNA isolated from matched PF samples.

Adding PIs immediately after collecting PF and processing the fluid within 4 hours of collection maintains the protein and nucleic acid integrity for use in downstream molecular analyses.

Adding PIs immediately after collecting PF and processing the fluid within 4 hours of collection maintains the protein and nucleic acid integrity for use in downstream molecular analyses.

Despite great progress in the treatment of pancreatic cancer under the efforts of researchers, the survival time of patients with pancreatic cancer is shorter than that of patients with other cancers. Thus, we have a great need for innovative therapeutic methods, including research and development of new drugs and innovation of administration methods. Exosomes are a type of extracellular vesicles wrapped by a lipid bilayer. MYCMI-6 price Thanks to the low clearance ratio and strong specificity of exosomes in circulation, together with in-depth research on the surface protein of exosomes and a targeted modification method, there is a strong potential to apply exosomes in the transfer and even targeted delivery of chemotherapeutics, RNA, and natural products. Particularly, exosomes carrying microRNA show good application prospects in cancer therapy. This article is intended to summarize the progress of research relating to the treatment of pancreatic cancer via exosomal microRNAs.

Despite great progress in the treatment of pancreatic cancer under the efforts of researchers, the survival time of patients with pancreatic cancer is shorter than that of patients with other cancers. Thus, we have a great need for innovative therapeutic methods, including research and development of new drugs and innovation of administration methods. Exosomes are a type of extracellular vesicles wrapped by a lipid bilayer. Thanks to the low clearance ratio and strong specificity of exosomes in circulation, together with in-depth research on the surface protein of exosomes and a targeted modification method, there is a strong potential to apply exosomes in the transfer and even targeted delivery of chemotherapeutics, RNA, and natural products. Particularly, exosomes carrying microRNA show good application prospects in cancer therapy. This article is intended to summarize the progress of research relating to the treatment of pancreatic cancer via exosomal microRNAs.

Acute pancreatitis (AP) is one of the most common gastroenterological disorders leading to hospitalization. It has long been debated whether biliary AP, about 30% to 50% of all cases, is induced by bile acids (BAs) when they reach the pancreas via reflux or via the systemic blood circulation.Besides their classical function in digestion, BAs have become an attractive research target because of their recently discovered property as signaling molecules. The underlying mechanisms of BAs have been investigated in various studies. Bile acids are internalized into acinar cells through specific G-protein-coupled BA receptor 1 and various transporters. They can further act via different receptors the farnesoid X, ryanodine, and inositol triphosphate receptor. Bile acids induce a sustained Ca2+ influx from the endoplasmic reticulum and release of Ca2+ from acidic stores into the cytosol of acinar cells. The overload of intracellular Ca2+ results in mitochondrial depolarization and subsequent acinar cell necrosis. In addition, BAs have a biphasic effect on pancreatic ductal cells.

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