OBJECTIVE Our recent genetic-neuroimaging study observed that the rs1799724 polymorphism within the TNFA gene encoding TNF-α selectively affects the anatomy of visual cortex in patients with MDD. In this study, we hypothesized that TNFA is risk factor to MDD, and TNFA rs1799724 polymorphism may be a susceptibility locus for this disorder and its clinical features. METHODS We enrolled 807 MDD samples and 822 healthy volunteers in Eastern China. There were 104 drug-naïve first episode MDD patients recruited. The Hamilton Rating Scale for Depression -17 (HRSD-17) and Repeatable Battery for the Assessment of Neuropsychological Status (RBANS) were performed to evaluate the severity of depressive symptoms and cognitive function, respectively. RESULTS Patients with MDD have higher levels of TNFA than healthy controls (F = 20.78, P  less then  0.01). There were no significant differences in genotype or allele distributions of the rs1799724 polymorphism between the MDD and control groups. MDD patients with T/T or T/C genotypes of rs1799724 polymorphism have higher somatic factor and total scores of HAMD than those with C/C genotype. The patients with T/T or T/C genotypes have significantly higher TNFA mRNA levels than those with C/C genotype (F = 4.91, P = 0.029). CONCLUSION Our findings supported that TNFA may have an important role in the pathophysiology of MDD. Although SNP rs1799724 is not an etiological factor for MDD in Han Chinese, this SNP may be associated with somatic symptom in patients with MDD. BACKGROUND Long-term engagement in opioid agonist therapy (OAT) has been consistently associated with reduced risk for morbidity and mortality in people with opioid use disorder (OUD). However, the dynamic nature of engagement/disengagement in OUD care for over time is poorly captured by traditional metrics. We characterized long-term longitudinal trajectories of engagement in OAT in Vancouver, Canada, between 2005 and 2018. METHODS Data were derived from two community-recruited prospective cohorts of people who use drugs. Retention in OAT was defined as self-reported enrolment in OAT for two consecutive follow-up periods (an approximately six-month retention interval). We used latent class growth analysis to identify OAT engagement trajectories during the first five years after OAT initiation and multivariable logistic regression to evaluate predictors of trajectory group membership. RESULTS We identified four OAT retention trajectories among 438 OAT initiators “consistently high” (36%), “consistently low” (23%), “increasing” (23%), and “decreasing” (15%). Employment was a significant cross-cutting predictor of membership of all sub-optimal OAT engagement patterns compared to consistently high trajectories. We also found that initiating OAT after 2014 (when regulatory changes to the provincial OAT program were introduced) was associated with the “consistently low” engagement group relative to others. CONCLUSIONS We identified four distinct OAT engagement trajectories in Vancouver, Canada, with employment being a common predictor of sub-optimal care trajectories, suggesting the need to explore alternative OAT models to address employment-related barriers. Care trajectory analysis could help inform tailored interventions to specific populations of people with OUD at specific time points to improve engagement in OAT, and decrease opioid-related morbidity and mortality. Micro-nanobubbles (MNBs) generated during hydrodynamic cavitation (HC) have been extensively studied in mineral processing field in the past two decades. Many researchers have claimed that MNBs can effectively promote the collection of fine particles in flotation, while studies on MNBs assisted mineral separation are rare. In this study, the role of bulk MNBs in desorbing flotation reagent was investigated, with the aim of illustrating the potential effects of MNBs on minerals separation. The results showed that bulk MNBs could efficiently remove the sodium oleate (NaOl) from diaspore surfaces, reducing the residual concentration of NaOl on solids, which was more significant when the amount of NaOl pre-adsorbed was relatively small. Furthermore, lower residual concentration of NaOl on solids caused by MNBs cleaning made the particles less hydrophobic and flocs more friable. Given that gangue entrapment in flocs was one of the main limits for high-selective flotation, the roles of MNBs in enhancing reagent desorption and associated flocs breakup and reorganization probably contribute to higher separation efficiency of different minerals, which was confirmed by the flotation results of diaspore/kaolinite mixture. V.Immunohistochemical localisation of indoleamine 2,3-dioxygenase was studied in order to better understand the pathophysiology of placenta accreta spectrum. In the decidua staining for indoleamine 2,3-dioxygenase was found in the glandular epithelium with some additional positive cells. Extravillous cytotrophoblast invasion was present in the myometrium which was not covered by the decidual tissue whereas myometrial invasion of cytotrophoblasts was absent where this tissue lay deep to decidua. These results suggest that indoleamine 2,3-dioxygenase expression in the decidua may normally control trophoblast invasion and absence of its expression where decidua is absent may be involved in the pathogenesis of the over-invaded placenta. The free radicals play an important role to understand direct/indirect transformation mechanisms of organic pollutants. However, very few efforts have been made to elucidate the radicals produced by direct photolysis. In this study, the short-lived radicals generated under simulated sunlight irradiation from representative halogenated phenols (HPs), monobromophenols, were investigated by electron paramagnetic resonance (EPR). Azacitidine The results showed that three radicals, carbon-centered radical (C), hydrogen radical (H) and hydroxyl radical (OH), were generated from the direct irradiation of HPs. Compared to other substitutions, halogenated atom at para-position led to the highest production of these radicals which is in accordance with the energies calculated by density functional theory. Based on the analyses of the reactive species and corresponding intermediate adducts, the possible reaction pathways for these radicals were tentatively proposed. Dissolved organic matters (DOM) could enhance the photodegradation of HPs by directly affecting the radicals’ formation, mainly due to generation of excited triplet DOM (3DOM*).