Drowning in loneliness and writing the blues: Creating lesbian space in the novels of Radclyffe Hall and Leslie Feinberg

Feminist theory has long been concerned with identity politics, and feminists have grappled with the ideologies and identities of race, sex, gender, and sexuality, to name only a few. Psychoanalytic theorist Teresa Brennan and postmodern theorist Judith Butler combine feminism with their respective fields in their quests to figure out how subjectivities are created, and why some people are objectified or created as objects, while others are created as subjects. Literature is an excellent vehicle for studying subject/object creation and identity politics, because it often mirrors “real” life, because literature can have such an impact on the lives of those who read it, and because it can tap emotions and possibilities which theory cannot. Through the portrayals of the lesbian (and transgender, in the case of Stone Butch Blues\u27), protagonists’ lives, the ways in which they are othered by people occupying subject positions, and the ways in which they resist that othering, Radclyffe Hall’s The Well of Loneliness and Leslie Feinberg’s Stone Butch Blues provide numerous examples of the workings of subject and object creation. They also illuminate possibilities which the theories cannot quite grasp, such as how to live a life which promotes the erasure of dichotomous thinking and living. The novels and theories are also excellent tools with which to explore facets of identity such as lesbian, butch, femme, and transgender, in an attempt to show that it is possible to expose the fiction of individual identity in order to dismantle our current oppressive systems of living and create a liberating, rather than an oppressive, world

Advancement in the child attachment interview and the child and adolescent reflective functioning scale using a PDM-2 framework: case reports

open5siThe Child Attachment Interview (CAI) is a well-established semi-structured interview, widely used to identify attachment representations in middle childhood and adolescence. The application of the Child and Adolescent Reflective Functioning Scale (CRFS) to CAI narratives allows for an assessment of child mentalization, considered a strong predictor of attachment security. The 2nd edition of the Psychodynamic Diagnostic Manual (PDM-2) includes CAI and CRFS as valid and reliable assessment measures in order to assess the dominion of the Mental Functioning axis. The aim of the present paper is to investigate the informative power of CAI and CRFS for the overall understanding of mental functioning and personality in a PDM-2 framework. The present report includes the discussion of two clinical cases of school-aged children in applying the Psychodiagnostic Chart-Second Edition (PDC-2) to the CAI transcript. The first case concerns a young male, aged 10, suffering from Oppositional-Provocative Disorder (externalizing disorder), while the second case concerns a young female, aged 15, suffering from Somatic Symptoms Disorder (internalizing disorder). PDC-2 for children and adolescents was used. Data from the scoring of CAI and CRFS were combined with a systematic evaluation of the qualitative contents emerging from CAI transcripts. A detailed analysis suggests that both the CAI and CRFS are useful attachment-oriented measures, able to explore a child's mental states, and together with the application of PDC-2 they provide an essential contribution in the understanding of developmental psychopathology. Implications of this innovative approach for clinical assessment, treatment design, and interventions are further discussed.openBizzi, Fabiola; Locati, Francesca; Parolin, Laura; Shmueli-Goetz Yael; Brusadelli, EmanuelaBizzi, Fabiola; Locati, Francesca; Parolin, Laura; Shmueli-Goetz, Yael; Brusadelli, Emanuel

Heterogeneous photocatalysis and photo-Fenton of estradiol in wastewater

The European Directive 2000/60/CE stresses the need of adopting measures against water pollution in order to achieve a progressive reduction of pollutants and water reuse. Advanced Oxidation Processes (AOPs) are promising ways to perform the mineralization of pollutants. AOPs are characterized by the in situ production of hydroxyl radicals, which are highly reactive species capable of oxidizing organic materials in a non-selective way. The main objective of this to study was to compare the 17-β Estradiol (E2) degradation in wastewater by different AOPs including UV, UV+oxidant, UV-TiO2, photo-Fenton, UV-photosphere, UV-graphenesphere, UV-oxone (a photo-Fenton like process based on peroxymonopersulfate as oxidant). Homogeneous photo–Fenton like process using peroxymonopersulfate as oxidant and heterogeneous photocatalysis using TiO2 were the most effective technologies for the fast removal of estrogenic hormone. Both processes were very fast considering that 95% of E2 was removed in few minutes. Moreover, UV-oxone was more efficient than UV-TiO2 since with the first technology the complete mineralization of E2 was achieved within 2 minutes without the production of dangerous by-products

Blip glitches in Advanced LIGO data

Blip glitches are short noise transients present in data from ground-based gravitational-wave observatories. These glitches resemble the gravitational-wave signature of massive binary black hole mergers. Hence, the sensitivity of transient gravitational-wave searches to such high-mass systems and other potential short duration sources is degraded by the presence of blip glitches. The origin and rate of occurrence of this type of glitch have been largely unknown. In this paper we explore the population of blip glitches in Advanced LIGO during its first and second observing runs. On average, we find that Advanced LIGO data contains approximately two blip glitches per hour of data. We identify four subsets of blip glitches correlated with detector auxiliary or environmental sensor channels, however the physical causes of the majority of blips remain unclear

Bacterial lipopolysaccharide induces apoptosis in the trout ovary

BACKGROUND: In mammals it is well known that infections can lead to alterations in reproductive function. As part of the innate immune response, a number of cytokines and other immune factors is produced during bacterial infection or after treatment with lipopolysaccharide (LPS) and acts on the reproductive system. In fish, LPS can also induce an innate immune response but little is known about the activation of the immune system by LPS on reproduction in fish. Therefore, we conducted studies to examine the in vivo and in vitro effects of lipopolysaccharide (LPS) on the reproductive function of sexually mature female trout. METHODS: In saline- and LPS -injected brook trout, we measured the concentration of plasma steroids as well as the in vitro steroidogenic response (testosterone and 17alpha-hydroxyprogesterone) of ovarian follicles to luteinizing hormone (LH), the ability of 17alpha,20beta-dihydroxy-4-pregnen-3-one to induce germinal vesicle breakdown (GVBD) in vitro, and that of epinephrine to stimulate follicular contraction in vitro. We also examined the direct effects of LPS in vitro on steroid production, GVBD and contraction in brook trout ovarian follicles. The incidence of apoptosis was evaluated by TUNEL analysis. Furthermore, we examined the gene expression pattern in the ovary of saline- and LPS-injected rainbow trout by microarray analysis. RESULTS: LPS treatment in vivo did not affect plasma testosterone concentration or the basal in vitro production of steroids, although a small but significant potentiation of the effects of LH on testosterone production in vitro was observed in ovarian follicles from LPS-treated fish. In addition, LPS increased the plasma concentration of cortisol. LPS treatment in vitro did not affect the basal or LH-stimulated steroid production in brook trout ovarian follicles. In addition, we did not observe any effects of LPS in vivo or in vitro on GVBD or follicular contraction. Therefore, LPS did not appear to impair ovarian steroid production, oocyte final maturation or follicular contraction under the present experimental conditions. Interestingly, LPS administration in vivo induced apoptosis in follicular cells, an observation that correlated with changes in the expression of genes involved in apoptosis, as evidenced by microarray analysis. CONCLUSION: These results indicate that female trout are particularly resistant to an acute administration of LPS in terms of ovarian hormone responsiveness. However, LPS caused a marked increase in apoptosis in follicular cells, suggesting that the trout ovary could be sensitive to the pro-apoptotic effects of LPS-induced inflammatory cytokines

Relevance of a photo-Fenton like technology based on peroxymonosulphate for 17b-estradiol removal from wastewater

The objective of this work was to evaluate the effectiveness of sulphate radical based homogeneous advanced oxidation technologies (SR-AOTs) involving peroxymonosulphate (PMS) as an oxidant and ferrous iron (Fe(II)) as a catalyst, for the removal of 17b-estradiol (E2) from wastewater effluents collected downstream of a biological WWTP in Perpignan (France). This molecule is used as a surrogate for endocrine disrupting compounds (EDCs) due to its high biological activity at very low concentration levels (ng/ L). For this purpose, two different laboratory-scale devices have been employed, one for indoor experiments working with controlled and artificial UV light centered on k = 365 nm emission, and the other at a larger scale for outdoor experiments using direct solar irradiation. Comparison of kinetic studies with those obtained with commonly used hydroxyl radical based advanced oxidation technologies (HR-AOTs), i.e., UV–Vis/H2O2/Fe(II) and UV/TiO2 revealed the higher efficiency of the former over the latter ones. Estrogenicity measurement through bioassays confirmed the complete removal of 17b-estradiol after only a few minutes treatment. Determination of E2 transformation pathways upon sulphate radical reactivity through intermediates identification by mass spectrometry revealed that the oxidation of phenol moiety into quinone might be the main step responsible for the decrease in estrogenicity. UV–Vis/PMS/Fe(II) system appears to be the most suitable method for the treatment of aqueous solutions containing E2

Translocation of gold nanoparticles across the lung epithelial tissue barrier: Combining in vitro and in silico methods to substitute in vivo experiments

The lung epithelial tissue barrier represents the main portal for entry of inhaled nanoparticles (NPs) into the systemic circulation. Thus great efforts are currently being made to determine adverse health effects associated with inhalation of NPs. However, to date very little is known about factors that determine the pulmonary translocation of NPs and their subsequent distribution to secondary organs.Methods: A novel two-step approach to assess the biokinetics of inhaled NPs is presented. In a first step, alveolar epithelial cellular monolayers (CMLs) at the air-liquid interface (ALI) were exposed to aerosolized NPs to determine their translocation kinetics across the epithelial tissue barrier. Then, in a second step, the distribution to secondary organs was predicted with a physiologically based pharmacokinetic (PBPK) model. Monodisperse, spherical, well-characterized, negatively charged gold nanoparticles (AuNP) were used as model NPs. Furthermore, to obtain a comprehensive picture of the translocation kinetics in different species, human (A549) and mouse (MLE-12) alveolar epithelial CMLs were exposed to ionic gold and to various doses (i.e., 25, 50, 100, 150, 200 ng/cm 2 ) and sizes (i.e., 2, 7, 18, 46, 80 nm) of AuNP, and incubated post-exposure for different time periods (i.e., 0, 2, 8, 24, 48, 72 h).Results: The translocation kinetics of the AuNP across A549 and MLE-12 CMLs was similar. The translocated fraction was (1) inversely proportional to the particle size, and (2) independent of the applied dose (up to 100 ng/cm 2 ). Furthermore, supplementing the A549 CML with two immune cells, i.e., macrophages and dendritic cells, did not significantly change the amount of translocated AuNP. Comparison of the measured translocation kinetics and modeled biodistribution with in vivo data from literature showed that the combination of in vitro and in silico methods can accurately predict the in vivo biokinetics of inhaled/instilled AuNP.Conclusion: Our approach to combine in vitro and in silico methods for assessing the pulmonary translocation and biodistribution of NPs has the potential to replace short-term animal studies which aim to assess the pulmonary absorption and biodistribution of NPs, and to serve as a screening tool to identify NPs of special concern

Beliefs about Causes of Colon Cancer by English-as-a-Second-Language Chinese Immigrant Women to Canada

Abstract Colon cancer is the second leading cause of cancer death for Canadians

Bottom-up drivers of future fire regimes in western boreal North America

Forest characteristics, structure, and dynamics within the North American boreal region are heavily influenced by wildfire intensity, severity, and frequency. Increasing temperatures are likely to result in drier conditions and longer fire seasons, potentially leading to more intense and frequent fires. However, an increase in deciduous forest cover is also predicted across the region, potentially decreasing flammability. In this study, we use an individual tree-based forest model to test bottom-up (i.e. fuels) vs top-down (i.e. climate) controls on fire activity and project future forest and wildfire dynamics. The University of Virginia Forest Model Enhanced is an individual tree-based forest model that has been successfully updated and validated within the North American boreal zone. We updated the model to better characterize fire ignition and behavior in relation to litter and fire weather conditions, allowing for further interactions between vegetation, soils, fire, and climate. Model output following updates showed good agreement with combustion observations at individual sites within boreal Alaska and western Canada. We then applied the updated model at sites within interior Alaska and the Northwest Territories to simulate wildfire and forest response to climate change under moderate (RCP 4.5) and extreme (RCP 8.5) scenarios. Results suggest that changing climate will act to decrease biomass and increase deciduous fraction in many regions of boreal North America. These changes are accompanied by decreases in fire probability and average fire intensity, despite fuel drying, indicating a negative feedback of fuel loading on wildfire. These simulations demonstrate the importance of dynamic fuels and dynamic vegetation in predicting future forest and wildfire conditions. The vegetation and wildfire changes predicted here have implications for large-scale changes in vegetation composition, biomass, and wildfire severity across boreal North America, potentially resulting in further feedbacks to regional and even global climate and carbon cycling

Bottom-Up Drivers of Future Fire Regimes in Western Boreal North America

Forest characteristics, structure, and dynamics within the North American boreal region are heavily influenced by wildfire intensity, severity, and frequency. Increasing temperatures are likely to result in drier conditions and longer fire seasons, potentially leading to more intense and frequent fires. However, an increase in deciduous forest cover is also predicted across the region, potentially decreasing flammability. In this study, we use an individual tree-based forest model to test bottom-up (i.e. fuels) vs top-down (i.e. climate) controls on fire activity and project future forest and wildfire dynamics. The University of Virginia Forest Model Enhanced is an individual tree-based forest model that has been successfully updated and validated within the North American boreal zone. We updated the model to better characterize fire ignition and behavior in relation to litter and fire weather conditions, allowing for further interactions between vegetation, soils, fire, and climate. Model output following updates showed good agreement with combustion observations at individual sites within boreal Alaska and western Canada. We then applied the updated model at sites within interior Alaska and the Northwest Territories to simulate wildfire and forest response to climate change under moderate (RCP 4.5) and extreme (RCP 8.5) scenarios. Results suggest that changing climate will act to decrease biomass and increase deciduous fraction in many regions of boreal North America. These changes are accompanied by decreases in fire probability and average fire intensity, despite fuel drying, indicating a negative feedback of fuel loading on wildfire. These simulations demonstrate the importance of dynamic fuels and dynamic vegetation in predicting future forest and wildfire conditions. The vegetation and wildfire changes predicted here have implications for large-scale changes in vegetation composition, biomass, and wildfire severity across boreal North America, potentially resulting in further feedbacks to regional and even global climate and carbon cycling