Eukaryotes are important components of ecosystems in wastewater treatment processes. However, little is known about eukaryotic community in anaerobic wastewater treatment systems. In this study, ...eukaryotic communities in an up flow anaerobic sludge blanket (UASB) reactor treating domestic sewage during two years of operation were investigated using V4 and V9 regions of 18S rRNA gene for amplicon sequencing. In addition, activated sludge and influent sewage samples were also analyzed and used as the references for aerobic eukaryotic community to characterize anaerobic eukaryotes. The amplicon sequence V4 and V9 libraries detected different taxonomic groups, especially from the UASB samples, suggesting that commonly used V4 and V9 primer pairs could produce a bias for eukaryotic communities analysis. Eukaryotic community structures in the UASB reactor were influenced by the immigration of eukaryotes via influent sewage but were clearly different from the influent sewage and activated sludge. Multivariate statistics indicated that protist genera Cyclidium, Platyophrya and Subulatomonas correlated with chemical oxygen demand and suspended solid concentration, and could be used as bioindicators of treatment performance. Uncultured eukaryotes groups were dominant in the UASB reactor, and their physiological roles need to be examined to understand their contributions to anaerobic processes in future studies.
AbstractContextMorphine is recommended as the first-line pharmacological therapy for cancer dyspnea. However, the detailed practice of morphine has not been evaluated and consensus about other ...opioids for cancer dyspnea has not been established. ObjectivesTo explore the physician-reported practice of opioid for cancer dyspnea. MethodsA nationwide mail-questionnaire survey was conducted among 536 Japanese certified palliative care physicians. We randomly selected 268 and asked the following: 1) how the physicians themselves initiate and use morphine for cancer dyspnea, 2) opioid choice for dyspnea in patients who have already used opioid other than morphine regularly, and 3) opioid choice for dyspnea in patients with various degrees of renal impairment in their daily practice. ResultsOverall, 192 physicians responded (response rate, 71.6%). The major (58.3%) practice of initiating morphine was “immediate-release morphine as needed” in opioid-naïve patients, and the mean % increase when they titrate morphine for cancer dyspnea was 29.4 ± 11.3% of the baseline dose. Although “titrate baseline oxycodone” was the most frequent (42.3%) for low-to-moderate–dose regular oxycodone cases, “stepwise switch to morphine” (30.0%) and “add morphine on baseline oxycodone” (27.1%) were the more frequent practices for high-dose regular oxycodone. Regardless of the baseline dose, “add morphine on baseline fentanyl” was the most frequent practice for regular transdermal fentanyl cases. Oxycodone was the most frequent choice in renal insufficiency cases, regardless of its degree. ConclusionsAmong Japanese palliative care physicians, using oxycodone for cancer dyspnea was relatively popular practice, whereas fentanyl was not. Oxycodone was the most preferred opioid for cancer dyspnea in the setting of renal insufficiency among Japanese palliative care physicians. We should conduct studies to confirm the safety and effectiveness of these opioid practices for cancer dyspnea.
Summary
In situ detection of microorganisms by fluorescence in situ hybridization (FISH) is a powerful tool for environmental microbiology, but analyses can be hampered by low rRNA content in target ...organisms, especially in oligotrophic environments. Here, we present a non‐enzymatic, hybridization chain reaction (HCR)‐based signal amplified in situ whole‐cell detection technique (in situ DNA‐HCR). The components of the amplification buffer were optimized to polymerize DNA amplifier probes for in situ DNA‐HCR. In situ hybridization of initiator probes followed by signal amplification via HCR produced bright signals with high specificity and probe permeation into cells. The detection rates for Bacteria in a seawater sample and Archaea in anaerobic sludge samples were comparable with or greater than those obtained by catalyzed reporter deposition (CARD)‐FISH or standard FISH. Detection of multiple organisms (Bacteria, Archaea and Methanosaetaceae) in an anaerobic sludge sample was achieved by simultaneous in situ DNA‐HCR. In summary, in situ DNA‐HCR is a simple and easy technique for detecting single microbial cells and enhancing understanding of the ecology and behaviour of environmental microorganisms in situ.
•The VMHvl and its extended circuit are essential for generating aggressive behaviors.•Mesolimbic dopamine circuit may signal the rewarding value of attacks and reinforce winning experience.•The ...VMHvl can potentially drive the VTA dopaminergic cells through the LH and MPOA.•Dopamine can modulate aggression through its action in the medial hypothalamus.
Aggression is a crucial survival behavior: it is employed to defend territory, compete for food and mating opportunities, protect kin, and resolve disputes. Two highly conserved circuitries emerge as critical substrates for generating and modulating aggression. One circuitry centers on the medial hypothalamus, a brain region essential for driving the expression of aggressive behaviors. The other circuit involves the mesolimbic dopamine cells. Animal studies support essential roles of mesolimbic dopaminergic signaling in assessing the reward value of aggression and reinforcing aggressive behaviors. In this review, we will provide an overview regarding the functions of medial hypothalamus and dopaminergic system in mediating aggressive behaviors and the potential interactions between these two circuitries.
The basal ganglia–thalamocortical circuitry plays a central role in selecting actions that achieve reward-seeking outcomes and avoid aversive ones. Inputs of the nucleus accumbens (NAc) in this ...circuitry are transmitted through two parallel pathways: the striatonigral direct pathway and the striatopallidal indirect pathway. In the NAc, dopaminergic (DA) modulation of the direct and the indirect pathways is critical in reward-based and aversive learning and cocaine addiction. To explore how DA modulation regulates the associative learning behavior, we developed an asymmetric reversible neurotransmission-blocking technique in which transmission of each pathway was unilaterally blocked by transmission-blocking tetanus toxin and the transmission on the intact side was pharmacologically manipulated by local infusion of a receptor-specific agonist or antagonist. This approach revealed that the activation of D1 receptors and the inactivation of D2 receptors postsynaptically control reward learning/cocaine addiction and aversive learning in a direct pathway-specific and indirect pathway–specific manner, respectively. Furthermore, this study demonstrated that aversive learning is elicited by elaborate actions of NMDA receptors, adenosine A2a receptors, and endocannabinoid CB1 receptors, which serve as key neurotransmitter receptors in inducing long-term potentiation in the indirect pathway. Thus, reward and aversive learning is regulated by pathway-specific neural plasticity via selective transmitter receptors in the NAc circuit.
Chronic viral hepatitis is a global public health problem, with approximately 570 million persons chronically infected. Hepatitis B and C viruses increase the risk of morbidity and mortality from ...liver cirrhosis, hepatocellular carcinoma (HCC), and extrahepatic complications that develop. Hepatitis virus infection induces transforming growth factor (TGF)-β, which influences microenvironments within the infected liver. TGF-β promotes liver fibrosis by up-regulating extracellular matrix production by hepatic stellate cells. TGF-β is also up-regulated in patients with HCC, in whom it contributes importantly to bringing about a favorable microenvironment for tumor growth. Thus, TGF-β is thought to be a major factor regulating liver fibrosis and carcinogenesis. Since TGF-β carries out regulatory signaling by influencing the phosphorylation of Smads, we have generated several kinds of phospho-specific antibodies to Smad2/3. Using these, we have identified three types of phospohorylated forms: COOH-terminally phosphorylated Smad2/3 (pSmad2C and pSmad3C), linker phosphorylated Smad2/3 (pSmad2L and pSmad3L), and dually phosphorylated Smad3 (pSmad2L/C and pSmad3L/C). TGF-β-mediated pSmad2/3C signaling terminates cell proliferation; on the other hand, cytokine-induced pSmad3L signaling accelerates cell proliferation and promotes fibrogenesis. This review addresses TGF-β/Smad signal transduction in chronic liver injuries and carcinogenic processes. We also discuss the reversibility of Smad signaling after antiviral therapy.
Aim: We investigated whether cardio-ankle vascular index (CAVI), an arterial stiffness marker, independently predicts future cardiovascular events in subjects with metabolic disorders. Methods: 1562 ...outpatients underwent CAVI between April 2004 and March 2006 at Toho University, Sakura Medical Center in Chiba, Japan. Patients who already had cardiovascular events at baseline, patients with low ankle brachial index (<0.9), and patients with atrial fibrillation were excluded. After exclusion, 1080 subjects with metabolic disorders including diabetes mellitus, hypertension and dyslipidemia were screened and followed prospectively. Results: Eventually, 1003 subjects (92.9% of 1,080 subjects) followed until March 2012 (follow-up duration 6.7±1.6 years) were analyzed. During the observation period, 90 subjects had new-onset myocardial infarction or angina pectoris confirmed by angiography. All subjects were stratified into quartiles by baseline CAVI (Q1: CAVI ≤8.27, Q2: CAVI 8.28-9.19, Q3: CAVI 9.20-10.08, Q4: CAVI ≥10.09). Age, male ratio and future cardiovascular events increased as CAVI quartile became higher. In Cox proportional hazards regression analysis, the factors independently associated with higher risk of future cardiovascular events were every 1.0 increment of CAVI hazard ratio (HR) 1.126, p= 0.039, male gender (HR 2.276, p=0.001), smoking (HR 1.846, p=0.007), diabetes mellitus (HR 1.702,p=0.020), and hypertension (HR 1.682, p=0.023). Conclusion: In individuals with metabolic disorders, CAVI was a predictor of future cardiovascular events, independent of traditional coronary risk factors. CAVI is a potentially valuable tool to identify persons likely to benefit from more intensive therapeutic approaches.
Abstract
Background
Dyspnea is a common and distressing symptom in patients with cancer. To improve its management, multicenter confirmatory studies are necessary. Research policy would be useful in ...conducting these studies. Here, we propose a new research policy for the management of dyspnea in patients with cancer.
Methods
The first draft was developed by a policy working group of 11 specialists in the field of supportive care or palliative care for dyspnea. Then, a provisional draft was developed after review by a research support group (the Japanese Supportive, Palliative and Psychosocial Care Study Group) and five Japanese scientific societies (Japanese Association of Supportive Care in Cancer, Japanese Society of Medical Oncology, Japanese Society of Palliative Medicine, Japanese Association of Rehabilitation Medicine and Japanese Society of Clinical Oncology), and receipt of public comments.
Results
The policy includes the following components of research policy on dyspnea: (i) definition of dyspnea, (ii) scale for assessment of dyspnea, (iii) reason for dyspnea or factors associated with dyspnea and (iv) treatment effectiveness outcomes/adverse events. The final policy (Ver1.0) was completed on 1 March 2021.
Conclusions
This policy could help researchers plan and conduct studies on the management of cancer dyspnea.
We propose a research policy for the management of dyspnea in patients with cancer. This policy could help researchers plan and conduct studies on the management of cancer dyspnea.
•Thermophilic multi-stage-UASB reactor allowed an OLR of 42kgCODm−3d−1.•Total COD and BOD removal rates at the maximum OLR were 85% and 95%, respectively.•Acidification is important to maintain low ...H2-partial pressure in the reactor.•Syntrophic associations mainly contributed to organic removal.•Unique archaeal community composition was developed in the MS-UASB reactor.
Molasses wastewater contains high levels of organic compounds, cations, and anions, causing operational problems for anaerobic biological treatment. To establish a high organic loading treatment system for industrial molasses wastewater, this study designed a combined system comprising an acidification tank, a thermophilic multi-stage (MS)-upflow anaerobic sludge blanket (UASB) reactor, mesophilic UASB reactor, and down-flow hanging sponge reactor. The average total chemical oxygen demand (COD) and biochemical oxygen demand removal rates were 85%±3% and 95%±2%, respectively, at an organic loading rate of 42kgCODcrm−3d−1 in the MS-UASB reactor. By installation of the acidification tank, the MS-UASB reactor achieved low H2-partial pressure. The abundance of syntrophs such as fatty acid-degrading bacteria increased in the MS-UASB and 2nd-UASB reactors. Thus, the acidification tank contributed to maintaining a favorable environment for syntrophic associations. This study provides new information regarding microbial community composition in a molasses wastewater treatment system.
Display omitted
•First full-scale DHS reactor was operated at 1.5-h HRT for over 1800days in India.•Removal efficiency of the DHS reactor was 79% for NH4-N and 65% for TN.•The DHS exhibited high DO, ...sludge concentration, and nitrification activity.•A full-scale DHS is practically applicable to developing countries.
The first full-scale down-flow hanging sponge (DHS) reactor applied to post-treatment of effluent from an upflow anaerobic sludge blanket (UASB) reactor for the treatment of municipal sewage was evaluated, with emphasis on nitrification. The full-scale DHS reactor was successfully operated at a hydraulic retention time of 1.5h for over 1800days in India. The DHS reactor produced effluent with 6mgL−1 ammonium nitrogen, corresponding to 79% removal efficiency. The total nitrogen removal by the DHS reactor was 65%. The high process performance of the DHS reactor was supported by its distinctive characteristics of (1) high dissolved oxygen of 5.4mgL−1 in the DHS effluent without forced ventilation, (2) dense retained sludge in the range of 23–46gVSSLsponge−1, and (3) adequate sludge activity of 52mgNgVSS−1 day−1 for nitrification. The full-scale experiment has proven that the DHS reactor has practical applicability to developing countries.