Internalised weight stigma mediates relationships between perceived weight stigma and psychosocial correlates in individuals seeking bariatric surgery : A cross-sectional study

Purpose Research suggests that internalised weight stigma may explain the relationship between perceived weight stigma and adverse psychological correlates (e.g. depression, disordered eating, body image disturbances). However, few studies have assessed this mechanism in individuals seeking bariatric surgery, even though depression and disordered eating are more common in this group than the general population. Materials and Methods We used data from a cross-sectional study with individuals seeking bariatric surgery (n = 217; 73.6% female) from Melbourne, Australia. Participants (Mage = 44.1 years, SD = 11.9; MBMI = 43.1, SD = 7.9) completed a battery of self-report measures on weight stigma and biopsychosocial variables, prior to their procedures. Bias-corrected bootstrapped mediations were used to test the mediating role of internalised weight stigma. Significance thresholds were statistically corrected to reduce the risk of Type I error due to the large number of mediation tests conducted. Results Controlling for BMI, internalised weight stigma mediated the relationship between perceived weight stigma and psychological quality of life, symptoms of depression and anxiety, stress, adverse coping behaviours, self-esteem, exercise avoidance, some disordered eating measures and body image subscales, but not physical quality of life or pain. Conclusion Although the findings are cross-sectional, they are mostly consistent with previous research in other cohorts and provide partial support for theoretical models of weight stigma. Interventions addressing internalised weight stigma may be a useful tool for clinicians to reduce the negative correlates associated with weight stigma

Does Psychological Well-Being Mediate the Relationship Between Parental Expectations and Academic Achievement?

A Research Methods Project supervised by Dr. Laura Wilson (Fall 2021)

A Systematic Review of Ecological Momentary Assessment Studies on Weight Stigma and a Call for a Large Scale Collaboration

Background Weight stigma is associated with poor mental health correlates in cross-sectional research. Researchers are increasingly using Ecological Momentary Assessment (EMA) methods, collecting comprehensive within-person data to understand the temporal nature of weight stigma and its biopsychosocial correlates. Aim To systematically review EMA studies on the effect of weight stigma on biopsychosocial correlates and integrate the findings. Method PsycINFO, CINAHL, Embase, Medline Complete, and Web of Science were searched and studies were doubled screened (H.B. and X.P.G.). Results Twelve studies (N = 615) met our inclusion criteria. For both between- and within-subject effects, experienced and internalized weight stigmas were associated with negative correlates/outcomes (e.g., higher disordered eating and lower positive mood). However, studies differed in the correlate measures assessed, EMA methods used, and participant instructions provided. Given these inconsistencies, comparison across studies was difficult, and findings could not be reliably integrated. Conclusions Consistent with previous research, studies from this review suggest weight stigma leads to adverse outcomes. EMA has the potential to overcome many of the limitations present in cross-sectional research on weight stigma and provide more ecologically valid and reliable results. We argue for a collaborative data-sharing consortium with standardized EMA methodologies, so researchers worldwide can contribute to and make use of a large, collective dataset on weight stigma and health correlates (see osf.io/s5ru6/)

Transforming Protein: Land-Use Implications of a Transition to Plant-Based Meat

The burgeoning plant-based meat industry has demonstrated the potential for plant-based meat to provide a comparable consumer experience to animal meat with a significantly reduced environmental impact. This study explores the land-use implications of plant-based meat production under various adoption scenarios and ingredient mixtures. A system-level model quantifies land that is both offset from beef and pork production and land that is potentially additive from ingredients grown in regions outside traditional animal agriculture supply chains. Coconut oil is explored as a potential high-risk ingredient due to it contributing additive land-use and being grown in sensitive biomes. GIS software was used to contextualize land-use requirements for the oil by comparing projections to existing suitable agricultural land in top producing countries and current production land area. Finally, a qualitative case study of potential risks and opportunities associated with relying on the oil was conducted to inform sourcing and ingredient panel strategies. There are several key takeaways from the analyses conducted: 1. Due to its much larger land-use footprint, plant-based displacement of beef products drive proportionally higher land-use benefits than that of pork. 2. Over 20 years, roughly 25% rate of animal-based meat displacement in the US will stabilize land-use associated with overall meat production in the country. 3. Under high market adoption, plant-based meat will require almost two million square hectares of land for coconut oil production in 20 years, or 55% of land currently used for coconut cultivation in the Philippines. These findings signal that plant-based meat has significant land-use implications which can be realized under reasonably high adoption and over the long run. The industry would benefit from diversifying ingredients which represent additive land-use and potential supply chain risks. The research presented serves as a “living” model and foundation for future investigation into other ingredients used in plant-based meat products.Master of ScienceSchool for Environment and SustainabilityUniversity of Michiganhttps://deepblue.lib.umich.edu/bitstream/2027.42/154861/1/358_TransformingProtein_FinalDoc.pd

Cis-interactions between Notch and Delta generate mutually exclusive signalling states

The Notch–Delta signalling pathway allows communication between neighbouring cells during development^1. It has a critical role in the formation of ‘fine-grained’ patterns, generating distinct cell fates among groups of initially equivalent neighbouring cells and sharply delineating neighbouring regions in developing tissues. The Delta ligand has been shown to have two activities: it transactivates Notch in neighbouring cells and cis-inhibits Notch in its own cell. However, it remains unclear how Notch integrates these two activities and how the resulting system facilitates pattern formation. Here we report the development of a quantitative time-lapse microscopy platform for analysing Notch–Delta signalling dynamics in individual mammalian cells, with the aim of addressing these issues. By controlling both cis- and trans-Delta concentrations, and monitoring the dynamics of a Notch reporter, we measured the combined cis–trans input–output relationship in the Notch–Delta system. The data revealed a striking difference between the responses of Notch to trans- and cis-Delta: whereas the response to trans-Delta is graded, the response to cis-Delta is sharp and occurs at a fixed threshold, independent of trans-Delta. We developed a simple mathematical model that shows how these behaviours emerge from the mutual inactivation of Notch and Delta proteins in the same cell. This interaction generates an ultrasensitive switch between mutually exclusive sending (high Delta/low Notch) and receiving (high Notch/low Delta) signalling states. At the multicellular level, this switch can amplify small differences between neighbouring cells even without transcription-mediated feedback. This Notch–Delta signalling switch facilitates the formation of sharp boundaries and lateral-inhibition patterns in models of development, and provides insight into previously unexplained mutant behaviours

Impacts of active school design on schooltime sedentary behavior and physical activity: A pilot natural experiment

Background Children spend a significant portion of their days in sedentary behavior (SB) and on average fail to engage in adequate physical activity (PA). The school built environment may influence SB and PA, but research is limited. This natural experiment evaluated whether an elementary school designed to promote movement impacted students\u27 school-time SB and PA. Methods Accelerometers measured SB and PA at pre and post time-points in an intervention group who moved to the new school (n = 21) and in a comparison group experiencing no school environmental change (n = 20). Difference-in-difference (DD) analysis examined SB and PA outcomes in these groups. Measures were also collected post-intervention from an independent, grade-matched group of students in the new school (n = 21). Results As expected, maturational increases in SB were observed. However, DD analysis estimated that the intervention attenuated increase in SB by 81.2 ± 11.4 minutes/day (p\u3c0.001), controlling for time in moderate to vigorous physical activity (MVPA). The intervention was also estimated to increase daily number of breaks from SB by 23.4 ± 2.6 (p \u3c .001) and to increase light physical activity (LPA) by 67.7 ± 10.7 minutes/day (p\u3c0.001). However, the intervention decreased MVPA by 10.3 ± 2.3 minutes/day (p\u3c0.001). Results of gradematched independent samples analysis were similar, with students in the new vs. old school spending 90.5 ± 16.1 fewer minutes/day in SB, taking 21.1 ± 2.7 more breaks from SB (p\u3c0.001), and spending 64.5 ± 14.8 more minutes in LPA (p\u3c0.001), controlling for time in MVPA. Students in the new school spent 13.1 ± 2.7 fewer minutes in MVPA (p\u3c0.001) than their counterparts in the old school. Conclusions This pilot study found that active school design had beneficial effects on SB and LPA, but not on MVPA. Mixed results point to a need for active classroom design strategies to mitigate SB, and quick access from classrooms to areas permissive of high-intensity activities to promote MVPA. Integrating active design with programs/policies to promote PA may yield greatest impact on PA of all intensities

Lipid transfer proteins (nsLTPs) from barley and maize leaves are potent inhibitors of bacterial and fungal plant pathogens

Four homogeneous proteins (Cw18, Cw20, Cw21, Cw22) were isolated from etiolated barley leaves by extraction of the insoluble pellet from a Tris-HCl (pH 7.5) homogenate with 1.5 M LiCl and fractionation by reverse-phase high-performance liquid chromatography. All 4 proteins inhibited growth of the pathogen Clavibacter michiganensis subsp. sepedonicus (EC50S = 1−3 × 10−7 M) and had closely related N-terminal amino acid sequences. The complete amino acid sequences of proteins Cw18 and Cw21 were determined and found to be homologous to previously described, non-specific lipid transfer proteins from plants (32–62% identical positions). The proteins also inhibited growth of the bacterial pathogen Pseudomonas solanacearum (EC50s = 3–6 × 10−7 M) and the fungus Furium solani (EC50s = 3–20 × 10−6 M). A homologous protein from maize leaves (Cw41) was purified in a similar manner and also found to have inhibitory properties, A synergistic effect against the fungus was observed when protein Cw21, was combined with thionins. A defense role for non-specific lipid transfer proteins from plants is proposed

Activity patterns and reproductive behavior of the Critically Endangered Bermuda skink (Plestiodon longirostris)

The study of rare or cryptic species in zoos can provide insights into natural history and behavior that would be difficult to obtain in the field. Such information can then be used to refine population assessment protocols and conservation management. The Bermuda skink (Plestiodon longirostris) is an endemic Critically Endangered lizard. Chester Zoo's successful conservation breeding program is working to safeguard, increase and reinforce skink populations in the wild. A key aim of this program is to develop our understanding of the behavior of this species. In this study, using 24 h video recordings, we examined the daily activity patterns, basking behavior and food preferences of four pairs of Bermuda skinks. The skinks displayed a bimodal pattern of activity and basking, which may have evolved to avoid the strength of the midday sun in exposed habitats in Bermuda. Captive Bermuda skinks appear to prefer a fruit‐based diet to orthopteran prey. We also documented their reproductive behavior and compared it against two closely related species. Although there were many similarities between the courtship and mating behaviors of the three species, there was a significantly shorter period of cloacal contact in the Bermuda skink. Oophagia was also documented for the first time in this species. This knowledge has enabled the evaluation of the current ex‐situ management practices of this species, filled gaps in knowledge that would be challenging to obtain in the field, and enabled the enhancement of both animal husbandry and reproductive success for the conservation breeding program

Multidrug resistant pulmonary tuberculosis treatment regimens and patient outcomes: an individual patient data meta-analysis of 9,153 patients.

Treatment of multidrug resistant tuberculosis (MDR-TB) is lengthy, toxic, expensive, and has generally poor outcomes. We undertook an individual patient data meta-analysis to assess the impact on outcomes of the type, number, and duration of drugs used to treat MDR-TB