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Adrenocorticotropic hormone-producing pancreatic neuroendocrine neoplasm (ACTHoma) is an exceedingly rare type of pancreatic neuroendocrine neoplasm (pNEN) that often causes ectopic adrenocorticotropic hormone syndrome. These neoplasms have been found to be very aggressive and challenging to treat. Angiogenesis inhibitor The current systematic review aimed to analyze the clinical features, immunohistochemical characteristics, diagnosis, therapy, and prognosis of ACTHoma.

A systematic review of the English- and Chinese-language literature was performed. PubMed, EMBASE, and Wanfang databases were searched to identify articles about ACTHoma in accordance with the Preferred Reporting Items for Systematic reviews and Meta-Analyses guidelines.

A total of 210 studies encompassing 336 patients diagnosed with ACTHoma were selected for the systematic review, including 16 Chinese patients.

ACTHoma was more common in women (66.4%), and the mean age was 44.7 years. Tumors were generally large, and the mean tumor size was 4.43 cm. The incidence of clinical manifestations was hypokalemia, 69.3%; diabetes, 63.2%; weakness, 60.1%, hypertension, 56.4%; moon face 41.1%; and edema, 37.4%. These tumors are more commonly found in the tail of pancreas, and the most frequent site of metastasis was the liver. The pNENs or other functioning pNENs could evolve into ACTHoma. ACTHoma is a very rare disease, and the mean follow-up time was 28.3 months.

ACTHoma was more common in women (66.4%), and the mean age was 44.7 years. Tumors were generally large, and the mean tumor size was 4.43 cm. The incidence of clinical manifestations was hypokalemia, 69.3%; diabetes, 63.2%; weakness, 60.1%, hypertension, 56.4%; moon face 41.1%; and edema, 37.4%. These tumors are more commonly found in the tail of pancreas, and the most frequent site of metastasis was the liver. The pNENs or other functioning pNENs could evolve into ACTHoma. ACTHoma is a very rare disease, and the mean follow-up time was 28.3 months.

To determine the impact of diabetes-specific recommendations at 1 year after hospital discharge on glycemic control and diabetes care in an outpatient setting.

A total of 139 patients with type 2 diabetes on a basal-bolus insulin regimen during hospitalization were included in the statistical analysis. We gathered data on treatment regimens after 12 to 16, 26 to 30, and 52 to 56 weeks following discharge as well as glycosylated hemoglobin (HbA1c) levels for all patients. Prescriptions for diabetes therapy were retrieved. All changes in insulin or oral/noninsulin injectable drug regimens were recorded.

Half of the patients (n= 69) were discharged on their preadmission regimen (no change), and a change in the home treatment was recommended in the other half (n= 70). In the group of patients whose preadmission therapy was adjusted, HbA1c decreased from 9.6% (80 mmol/mol) to 8.5% (69 mmol/mol) (P= .0004) 1 year after discharge. In the group of patients discharged on their preadmission regimen, no significannderwent modifications in their treatment. This supports the relevance of providing and implementing proper care recommendations at transition.

Type 1 diabetes (T1D) is frequently associated with other autoimmune diseases (AIDs). Although most of T1D patients are sporadic cases (S-T1D), 10% to 15% have a familial form (F-T1D) involving 2 or more first-degree relatives. This study evaluated the effect of T1D family aggregation and age onset on AIDs occurrence.

In this observational, cross-sectional, case-control, single center study, we enrolled 115 F-T1D and 115 S-T1D patients matched for gender, age, T1D age onset, and duration. With respect to T1D age onset (before or after 18 years), both groups were further subdivided into young- or adult-onset F-T1D and young- or adult-onset S-T1D. The presence of organ-specific antibodies and/or overt AIDs was evaluated.

The F-T1D group had a higher percentage of AIDs (29.8% vs 18.4%, P= .04) and a significant earlier onset of AIDs at Cox regression analysis (P= .04) than the S-T1D group. Based on multivariate analysis, the adult-onset F-T1D subgroup had the highest prevalence of both additional organ-specific antibodies (60.5%) and overt AIDs (34.9%), whereas the adult S-T1D subgroup was the least frequently involved (29.1% and 12.7%, respectively). In F-T1D patients, offsprings develop T1D and AIDs earlier than their parents do.

In T1D patients, familial aggregation and adult-onset of T1D increase the risk for coexistent AIDs. These clinical predictors could guide clinicians to address T1D patients for the screening of T1D-related AIDs.

In T1D patients, familial aggregation and adult-onset of T1D increase the risk for coexistent AIDs. These clinical predictors could guide clinicians to address T1D patients for the screening of T1D-related AIDs.

Type 2 diabetes mellitus (T2DM) and nonalcoholic fatty liver disease (NAFLD) share pathophysiological mechanism. Metformin is a widely used first-line anti-diabetic drug. We investigated the evolution of liver fibrosis and steatosis during 2-year use of metformin in patients with T2DM.

Between 2006 and August 2010, patients newly diagnosed with T2DM who received metformin as the first-line treatment were recruited. Fibrosis-4 index (FIB-4) > 2.67 and hepatic steatosis index (HSI) > 36.0 was used to define advanced liver fibrosis and fatty liver, respectively.

A total of 1292 (mean age 60.8 years, 57% men and 43% women) patients were recruited. The mean FIB-4 and HSI scores were 1.38 and 27.3, respectively. At enrollment, 83 (6.4%) patients had advanced liver fibrosis and 429 (33.2%) had fatty liver. After 2 years of metformin treatment, the mean FIB-4 score increased from 1.38 to 1.51 (p < 0.001), whereas the mean HSI score decreased from 27.3 to 26.5 (p < 0.001). During follow-up, advanced liver fibrosis additionally developed in 52/1209 (4.3%) patients, whereas 48/83 (57.8%) experienced fibrosis regression. Older age (odds ratio [OR] = 1.007), lower platelet count (OR = 0.993), and lower serum albumin (OR = 0.325) were independently associated with the increased risk of advanced liver fibrosis development after 2-years of metformin treatment.

In our cohort of patients with metformin treatment, a small proportion of patients developed liver fibrosis and steatosis after 2 years. Optimized follow-up strategy is required according to different risk of liver fibrosis progression in patients with T2DM.

In our cohort of patients with metformin treatment, a small proportion of patients developed liver fibrosis and steatosis after 2 years. Optimized follow-up strategy is required according to different risk of liver fibrosis progression in patients with T2DM.

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