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In this paper we undertake an innovative analysis of infection prevention and control (IPC) activities in hospitals, using non-representational theory of space (2005). We deployed video-reflexive ethnography in three wards in two metropolitan teaching hospitals involving 252 healthcare workers as participants. We analysed our data iteratively using non-representational theory, which showed hospital space being constantly produced from varied, intersecting, and sometimes competing trajectories of hospital work, objects and people. The approach enabled multiple material factors impinging on routine IPC (including objects such as rolls of surgical tape), and habitual or prioritised actions (such as safeguarding patient privacy) to be included in analysis. The analysis also included the role of time which has been absent from other discussions of IPC, highlighting the transience of spaces produced through IPC practices and the need to continually re-make them. We found many situations in which the complexity of practice, rather than failures of compliance, contributed to potential microbial transmission. We show how inconsistency and confusion about IPC practice often can only be resolved through action. Our findings suggest that further reduction in preventable hospital infection rates will require better integration of IPC with other work trajectories; a shift in emphasis from compliance monitoring to collaborative practice; and greater use of in situ risk assessment and judgment.Background Children with fetal alcohol spectrum disorders (FASD) and developmental coordination disorders (DCD) may show similar clinical sensory-motor symptoms. Aims This study aimed to compare motor skills and sensory processing behaviors between these two groups. Methods and procedures In this retrospective analysis, we examined secondary data and used multivariate analysis of variance to compare the Movement Assessment Battery for Children-2 (MABC-2) and Sensory Processing Measure (SPM)-Home for 21 children with FASD and 21 with DCD without prenatal alcohol exposure, ages 5-13 years. Outcomes and results No significant group differences in mean total motor or subtest scores on the MABC-2 were detected, but a higher proportion of children with DCD had more severe motor delays. Both groups had sensory processing difficulties, but the children with FASD had significantly more sensory processing difficulties on the SPM total score and visual, touch, body awareness, and planning subscales. Conclusions and implications The sensory processing symptoms in children with FASD distinguished the two groups. These group differences between children with FASD and DCD need corroboration in larger samples but haveimplications for differential diagnosis, clinical assessment, and targeted intervention.Methanol solvents that are used in hydraulic fracturing often return back to the surface in the form of recalcitrant flowback water. Here, the indigenous methylotrophic bacteria from flowback water were enriched and used to generate electricity from methanol in a two-compartment microbial fuel cell (CH3OH-MFC). An identical MFC based on a tryptone-yeast extract (TY-MFC) was used as a control. CH3OH-MFC yielded a 2.7-fold thicker biofilm dominated by electrogenic species (81%) and higher power density (76 mW/m2) compared with TY-MFC (50 mW/m2). Illumina MiSeq sequencing of the 16S rRNA gene in TY-MFC revealed classes from Actinobacteria, Bacteroidia and γ-proteobacteria. The CH3OH-MFC yielded α-proteobacteria, β-proteobacteria, γ-proteobacteria and Bacteroidia, with a dominant fraction of Rhodobacter sphaeroides (~29%). We discuss the potential pathways used by R. sphaeroides to maintain syntrophic cooperation with other bacterial and archaeal members to sustain CH3OH oxidation. Finally, we establish that a pure culture of R. sphaeroides 2.4.1 generates electricity directly from methanol.A new type of ultrathin fiber microprobe for selective electroporation is reported. The microprobe is 10 cm long and has a diameter of 350 µm. This microprobe is a low cost tool, which allows electroporation of an arbitrary selected single cell or groups of cells among population with use of a standard microscope and cell culture plates. The microprobe in its basic form contains two metal microelectrodes made of a silver-copper alloy, running along the fiber, each with a diameter of 23 µm. ONO-7475 supplier The probe was tested in vitro on a population of normal and cancer cells. Successful targeted electroporation was observed by means of accumulation of trypan blue (TB) dye marker in the cell. The electroporation phenomenon was also verified with propidium iodide and AnnexinV in fluorescent microscopy.Landfill leachate is a significant environmental threat due to the complexity and variety of its pollutants. There are various physical, chemical, and biological treatment methods proposed for leachate treatment. Adsorption with conventional adsorbents such as activated carbon is a process which has been widely employed with relative success. Magnetic adsorbents are a special type of adsorbents with favorable stability, high adsorption capacities, and excellent recycling and reuse capabilities when compared to conventional sorbents. Research regarding the synthesis and use of magnetic adsorbents has been growing at a rapid pace, exhibiting >8-fold increase in publications in the decade of 2010 to 2020. In the current study, both conventional and magnetic adsorbents for landfill leachate treatment have been comprehensively reviewed and discussed. The application of magnetic adsorbents for landfill leachate treatment is relatively new, with numerous avenues of research open to study. Although the production of magnetic adsorbents is significantly more expensive than conventional adsorbents, when taking into consideration all life cycle costs, they are much more competitive than it initially appears. If environmental impacts are of concern, research should shift towards the use of greener chemicals and processes for magnetic adsorbent synthesis, because preliminary analysis of the current synthesis processes shows a much higher environmental impact compared to conventional adsorbents, in particular in terms of global warming potential and energy use.

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