The challenging diagnosis of pancreatic masses: not all tumors are cancers.

In the elderly patients, where biopsy-induced complications could outweigh the benefit, the identification of pancreatic masses is generally referred to as a synonymous of pancreatic cancer and patients are dismissed with no further options than palliative and supportive care. Notwithstanding, not all pancreatic tumors are cancers and therefore alternative diagnoses need to be investigated, especially when patients are unfit for invasive diagnostic procedures. Here, we report a case of an aged patient that was admitted to an internal medicine division for a previously diagnosed pancreatic cancer. The reassessment of the diagnosis has allowed identifying the pancreatic mass as a manifestation of focal pancreatitis in the context of an IgG4-related disease. Accordingly, patient was treated with steroids with rapid clinical improvement. This clinical case suggests that autoimmune diseases should always be considered in the differential diagnosis of pancreatic masses of the elderly.

Nitric oxide activates PI3-K and MAPK signalling pathways in human and rat vascular smooth muscle cells: influence of insulin resistance and oxidative stress.

OBJECTIVE: Vascular smooth muscle cells (VSMCs) from the animal model of insulin resistance obese Zucker rats (OZR) show impaired ability of nitric oxide (NO) to increase cGMP and of cGMP to activate its specific kinase PKG, these defects being attributable to oxidative stress. We aimed to investigate the intracellular signalling downstream PKG in human and rat VSMC, and to clarify whether it is modified by insulin resistance and oxidative stress. METHODS: In aortic VSMC from humans, lean Zucker rats (LZR) and OZR, we measured by Western blots the activation induced by NO and cGMP of signalling molecules of PI3-K and MAPK pathways, with or without PKG inhibition, hydrogen peroxide and antioxidants. We explored the mechanism of the increased oxidative stress in VSMC from OZR by measuring superoxide anion concentrations (luminescence method) with or without inhibition of NADPH oxidase, xanthine oxidase, and mitochondrial electron transport chain complex and by measuring superoxide dismutase (SOD) expression (Western blot) and activity. RESULTS: In VSMC from humans and LZR, the NO/cGMP/PKG pathway activates both PI3-K (Akt, mTOR) and MAPK (ERK-1/2, p38MAPK) signalling. This effect is attenuated in VSMC from OZR, in which the greater oxidative stress is mediated by NADPH oxidase and mitochondrial complex and by a reduced synthesis/activity of SOD. Impairment of the NO/cGMP/PKG signalling is reproduced in VSMC from LZR by hydrogen peroxide and reverted in VSMC from OZR by antioxidants. CONCLUSIONS: In VSMC from an animal model of insulin resistance the NO/cGMP/PKG intracellular signalling is impaired due to an increased oxidative stress.

Postprandial blood glucose predicts cardiovascular events and all-cause mortality in type 2 diabetes in a 14-year follow-up: lessons from the San Luigi Gonzaga Diabetes Study.

OBJECTIVE: To evaluate whether postprandial blood glucose predicts cardiovascular events and all-cause mortality in type 2 diabetes in a long-term follow-up taking into account A1C and the main cardiovascular risk factors. RESEARCH DESIGN AND METHODS: Consecutive type 2 diabetic patients (n = 505) followed up at our diabetes clinic were evaluated at baseline (1995) for the main cardiovascular risk factors and for five glycemic control parameters (fasting blood glucose, blood glucose 2 h after breakfast, blood glucose 2 h after lunch, blood glucose before dinner, and A1C); all-cause mortality and the first cardiovascular events occurring during the 14-year follow-up were measured. RESULTS: We observed 172 cardiovascular events (34.1% of the population) and 147 deaths (29.1% of the population). Using the Cox analysis with the backward method, we categorized the variables according to the therapeutic targets of the American Diabetes Association. Our observations were as follows. When the five glycemic control parameters were considered together, the predictors were 1) for cardiovascular events, blood glucose 2 h after lunch (hazard ratio 1.507, P = 0.010) and A1C (1.792, P = 0.002); and 2) for mortality, blood glucose 2 h after lunch (1.885, P < 0.0001) and A1C (1.907, P = 0.002). When blood glucose 2 h after lunch and A1C were considered together with the main cardiovascular risk factors, the following glycemic control parameters were predictors: 1) for cardiovascular events, blood glucose 2 h after lunch (1.452, P = 0.021) and A1C (1.732, P = 0.004); and 2) for mortality, blood glucose 2 h after lunch (1.846, P = 0.001) and A1C (1.896, P = 0.004). CONCLUSIONS: In type 2 diabetes, both postprandial blood glucose and A1C predict cardiovascular events and all-cause mortality in a long-term follow-up.