OBJECTIVE Identify current practice for recruitment prediction and monitoring within clinical trials. STUDY DESIGN AND SETTING Chief investigators (CIs) were surveyed to identify data sources and adjustments made to support recruitment prediction. Statisticians were surveyed to determine methods and adjustments used when predicting and monitoring recruitment. Participants were identified from the National Institute for Health Research recently funded studies, the UK Clinical Research Collaboration registered Clinical Trial Units network or by the European Clinical Research Infrastructure Network. RESULTS Fifty-one CIs (UK=32, ECRIN=19) and 104 statisticians (UK=51, ECRIN=53) were contacted. Response rates varied (CIs UK=53% ECRIN=32%; statisticians UK=98% ECRIN=36%). Multiple data sources are used to support recruitment rates, most commonly audit data from multiple sites. Variation in individual site recruitment rates are frequently incorporated but staggered site openings were featured more commonly amongst UK respondents. Simple prediction methods are preferred to rarely used statistical models. Lack of familiarity with statistical methods are barriers to their use with evidence needed to justify the time required to support their implementation. CONCLUSION Simplistic methods will continue as the mainstay of prediction, however generation of evidence supporting the benefits of complex statistical models should promote their implementations. Multiple data sources to support recruitment prediction are being used and further work on the quality of these data is needed.  https://www.selleckchem.com/products/sf2312.html  Pressure to be optimistic about recruitment rates for the trial to be attractive to funders was felt by a sizeable minority. OBJECTIVE Expansion of visceral adipose tissue (VAT) and metabolic inflammation are consequences of obesity and associated with type 2 diabetes (DM). Metabolically activated adipose tissue macrophages (ATMs) undergo qualitative and quantitative changes that influence their inflammatory responses. How these cells contribute to insulin resistance (IR) in humans is not well understood. Cholesterol 25-Hydroxylase (CH25H) converts cholesterol into 25-Hydroxycholesterol (25-HC), an oxysterol that modulates immune responses. Using human and murine models, we investigated the role of CH25H in metabolic inflammation. METHODS We performed transcriptomic (RNASeq) analysis on the human whole AT biopsies and sorted ATMs from obese non-diabetic (NDM) and obese diabetic (DM) subjects to inquire if CH25H was increased in DM. We challenged mice lacking Ch25h with a high-fat diet (HFD) to characterize their metabolic and immunologic profiling. Ch25h KO mice and human adipose tissue biopsies from NDM and DM subjects were analyzAT. Finally, by testing AT explants, bone marrow-derived macrophages (BMDMs) and SVF cells from Ch25h deficient mice, we observed that 25-HC is required for the expression of pro-inflammatory genes. 25-HC was also able to induce inflammatory genes in preadipocytes. CONCLUSIONS Our data suggest a critical role for CH25H/25-HC in the progression of meta-inflammation and insulin resistance in obese humans and mouse models of obesity. In response to obesogenic stimuli, CH25H/25-HC could exert a pro-inflammatory role. OBJECTIVE Pancreatic β-cell failure is central to the development and progression of type 2 diabetes (T2D). The aggregation of human islet amyloid polypeptide (hIAPP) has been associated with pancreatic islet inflammation and dysfunction in T2D. Alpha1-antitrypsin (AAT) is a circulating protease inhibitor with anti-inflammatory properties. Here, we sought to investigate the potential therapeutic effect of AAT treatment in a mouse model characterized by hIAPP overexpression in pancreatic β-cells. METHODS Mice overexpressing hIAPP (hIAPP-Tg) in pancreatic β-cells were used as a model of amyloid-induced β-cell dysfunction. Glucose homeostasis was evaluated by glucose tolerance tests and insulin secretion assays. Apoptosis and amyloid formation was assessed in hIAPP-Tg mouse islets cultured at high glucose levels. Dissociated islet cells were cocultured with macrophages obtained from the peritoneal cavity. RESULTS Nontreated hIAPP-Tg mice were glucose intolerant and exhibited impaired insulin secretion. Interestiexpressing hIAPP and protects pancreatic β-cells from the cytotoxic actions of hIAPP mediated by macrophages. These results support the use of AAT-based therapies to recover pancreatic β-cell function for the treatment of T2D. Thousands of chemicals have limited, or no hazard data readily available to characterize human risk. The threshold of toxicological concern (TTC) constitutes a science-based tool for screening level risk-based prioritization of chemicals with low exposure. Herein we compare TTC values to more rigorously derived reference dose (RfD) values for 288 chemicals in the U.S. Environmental Protection Agency's (US EPA) Integrated Risk Information System (IRIS) database. Using the Cramer decision tree and the Kroes tiered decision tree approaches to determine TTC values, the TCC for the majority of these chemicals were determined to be lower than their corresponding RfD values. The ratio of log10(RfD/TCC) was used to measure the differences between these values and the mean ratio for the substances evaluated was ~0.74 and ~0.79 for the Cramer and Kroes approach, respectively, when considering the Cramer Classes only. These data indicate that the RfD values for Cramer Class III compounds were, on average, ~6-fold higher than their TTC value. These analyses indicate that provisional oral toxicity values might be estimated from TTCs in data-poor or emergency situations; moreover, RfD values that are well below TTC values (e.g., 2 standard deviations below the log10(Ratio)) might be overly conservative and targets for re-evaluation. In the mouse carcinogenicity study, an apparent increase in lung adenocarcinoma was observed in male mice at 7000 ppm. Based on the overall evaluation of toxicology, oncology, pathology and statistics, we concluded that the apparent increase in lung tumors is not relevant for evaluation of carcinogenicity of imiprothrin (Regul Toxicol Pharmacol, 105, 1-14, 2019). To investigate whether imiprothrin has any mitogenic effect on mouse Club cells, the present study examined its effects on replicative DNA synthesis of Club cells and lung histopathology in male mice treated with imiprothrin for 7 days at 3500 and 7000 ppm in the diet. Isoniazid, a known mouse lung mitogen and tumor inducer, was also examined at 1000 ppm in the diet as a positive control of Club cell mitogenesis and morphological changes. Neither imiprothrin nor isoniazid caused any necrotic changes in lung by light or electron microscopy. There were no increases observed in the bromodeoxyuridine (BrdU) labeling index in the imiprothrin groups, while there was a statistically significant increase in the BrdU labeling index in the isoniazid group.