Quantification and Visualization of Fungal Degradation of Polyurethane Foam in Homes

People spend 90% of their time in the indoor environment including homes. Homes contain many exposures that can cause harm to human health, and one harmful exposure potentially comes from the degradation of polyurethanes. This deterioration of the polymer causes the release of a carcinogenic compound called 2,4-diaminotoluene (2,4-DAT). Polyurethane foam is a common household material and is used to make many items such as mattresses, couches, insulation, and carpet backing. It is uncertain if growth of fungi on this foam can cause biodegradation to occur, which could potentially result in the release of 2,4-DAT. The goal of this study is to better understand under what conditions one common fungal species, Aureobasidium pullulans, degrades polyurethane foam. We tested the effects of nutrient availability, foam age, and relative humidity levels on the ability of Aureobasidium pullulans to degrade polyurethane foam. The effects of nutrient availability on fungal degradation were evaluated by incubating polyurethane foam with different agars and comparing weight loss of foam samples as a result. The effects of foam age were tested by obtaining 2 foam types; one new and one already used in a home and incubating them to compare weight loss as a result. The effects of relative humidity (RH) on fungal degradation of foam were evaluated by incubating foam at varying equilibrium relative humidity (ERH) levels and performing quantitative polymerase chain reaction (qPCR) to quantify fungal growth. Polyurethane foam incubated with Aureobasidium pullulans was observed under a scanning electron microscope (SEM) in order to visually observe the growth of fungi on polyurethane foam. The ideal conditions for fungal degradation were foam type 1 with an additional carbon source and high RH level. The peak weight loss of foam from fungal degradation was found to be 56% and fungal growth was highest at 100% ERH. Spore chains and fruiting bodies were observed via microscopy wrapped around the foam after incubation indicating Aureobasidium pullulans can grow and reproduce on polyurethane foam given appropriate conditions. This information can be used in the future to prevent fungal degradation of polyurethane foam and potentially decrease carcinogen exposure.OSU OUR&CI Undergraduate Research Apprenticeship ProgramOSU College of Engineering Research Distinction ScholarshipNo embargoAcademic Major: Environmental Engineerin

Luminescence dating of Scottish burnt mounds: new investigations in Orkney and Shetland

This thesis presents new research on the luminescence dating of burnt mounds in the Orkney and Shetland Islands. Through an examination of available evidence for Scottish burnt mounds, a number of key problematic areas have been identified in relation to our understanding of these sites and their place within the archaeological record. Previous chronological investigations of burnt mounds have so far provided little information on the likely duration of individual sites. Site information processes are likewise poorly understood. Luminescence dating has been outlined as a method suited to determining the age of both excavated and unexcavated sites, and to tackling issues of site formation. A combination of stratigraphic and surface sampling at sites on the island of Eday, Orkney and at coastally eroding sites across Shetland has provided suitable material for study. In addition, detailed sampling during excavation of Cruester burnt mound, on Bressay, Shetland has enabled the collection of a series of samples directly linked with the formation of the mound and structures at the site. Fieldwork is reported together with detailed characterisation of the external and internal dose rates of samples collected. Additive dose thermoluminescence dating techniques have been applied to extracted feldspar grains. A procedure for correcting temperature-shift due to thermal contact variation has been developed and implemented, leading to improvements in data processing. Problems have been identified relating to unequal sensitisation at different stages of equal-predose additive dose run which cause normalisation errors leading to incorrect dose estimates. Whilst the underlying physical origins of such changes are not yet firmly understood, a correction method based on modelling of the sensitisation behaviour has been applied. When both sets of corrections are applied, satisfactory plateau responses are obtained, and data from controlled experiments are consistent with external controls

Collecting resilience points for a smooth transition to adult healthcare services:co-creating a playful resource for Spina Bifida.

Background: The transition of young people with a disability or a chronic health condition, from paediatric to adult focused health and social care services, in Scotland, is known to be difficult. There is a significant body of evidence to suggest that a transition should start early, be holistic and inclusive, as well as structured to build essential capabilities and promote resilience. The nurse led project, reported here, was set to create a playful mechanism for meaningful interactions between young people, families and healthcare professionals involved in the transfer of care. Methodology: Salutogenic theory and efforts to enhance a ‘sense of coherence’ guided developments of a collaborative boardgame entitled ‘The Young Heroes’. Through participatory design and the ecological framing of resilience, the captured lived experience of adults with spina bifida who already transitioned to adult care, was used to enhance developments. Playtests with a range of stakeholders was used to further hone and validate the tool. Results: Seeking to co-create a tool to support effective transitions, enabled a team to craft and test a transition game that is easily accessible, inclusive, and sufficiently adaptable to fit different settings, communities and cultures. The open licence grants others a free access to download, play and adapt this game so it could be further used, enhanced and validated. <br/

Dual-stream simulation, the answer to broadening the experience

Peer reviewe

Interprofessional, student-led intervention to improve insulin prescribing to patients in an Acute Surgical Receiving Unit

Our aim was to test the feasibility of interprofessional, workplace-based learning about improvement through a 4-week placement for one medical and two pharmacy final year students in an Acute Surgical Receiving Unit (ASRU). The target was insulin because this is a common, high-risk medicine in this ASRU and the intervention was medicines reconciliation. Baseline data were collected from 10 patients and used to construct a cause and effect diagram and a process map through feedback and discussions with staff. Hypoglycaemia occurred in four patients but hyperglycaemia occurred in eight patients, of whom six were placed on intravenous insulin infusion (IVII). We estimated that £2454 could be saved by preventing one patient from going on IVII. The students designed and tested a sticker to improve medicines reconciliation for insulin patients. An online form was created to capture clinician feedback on the layout and usability of the sticker. The intervention was associated with improvements in the reliability of medicines reconciliation. The students’ work contributed to a larger project to reduce the risk of hypoglycaemia in the ASRU. This proved beneficial in enabling the students to engage with the clinical team. Nonetheless, it was challenging for students from two Universities to get a shared understanding of improvement methods and work effectively with the clinical team. The students said that they learnt more about quality improvement in a working healthcare environment than they would ever learn in a classroom and they valued the opportunity to work with students from other healthcare backgrounds in practice. Despite the additional staff time required to support students from two Universities, both have supported continuation of this work

The Potential of Structurally Insulated Panels (SIPs) to Supply Net Zero Carbon Housing

Governments throughout the EU and the UK face a persistent challenge of satisfying the continual growth in demand for housing and create zero carbon buildings. This paper presents a novel conceptual framework and empirical results to evaluate the potential for Structurally Insulated Panels (SIPs) to address this challenge. Firstly, we present a comprehensive analysis of the energy performance of a SIPs building in the UK to evaluate the potential for such technologies to satisfy the energy and carbon objectives. Using our unique data set we show that SIPs can exceed the necessary energy efficiency standards and reach Net Zero Carbon. Secondly, we introduce game theory as a novel conceptual framework to understand the incentives of the manufacturers of SIPs and UK/EU authorities. This enables us to identify potential sources of incentive conflict, which inhibit the diffusion of such technologies. We demonstrate that it benefits both parties to engage in medium investment, but the inferior under investment scenario can emerge if the UK/EU does not provide leadership and commitment to SIPs technologies. Regardless of the market design in terms of the timing of decisions, the maximum level of support by both the UK/EU and the SIPs manufacturers cannot be achieved

Effect of COVID-19 on presentations of decompensated liver disease in Scotland

BACKGROUND AND AIMS: SARS-CoV-2 and consequent pandemic has presented unique challenges. Beyond the direct COVID-related mortality in those with liver disease, we sought to determine the effect of lockdown on people with liver disease in Scotland. The effect of lockdown on those with alcohol-related disease is of interest; and whether there were associated implications for a change in alcohol intake and consequent presentations with decompensated disease. METHODS: We performed a retrospective analysis of patients admitted to seven Scottish hospitals with a history of liver disease between 1 April and 30 April 2020 and compared across the same time in 2017, 2018 and 2019. We also repeated an intermediate assessment based on a single centre to examine for delayed effects between 1 April and 31 July 2020. RESULTS: We found that results and outcomes for patients admitted in 2020 were similar to those in previous years in terms of morbidity, mortality, and length of stay. In the Scotland-wide cohort: admission MELD (Model for End-stage Liver Disease) (16 (12–22) vs 15 (12–19); p=0.141), inpatient mortality ((10.9% vs 8.6%); p=0.499) and length of stay (8 days (4–15) vs 7 days (4–13); p=0.140). In the Edinburgh cohort: admission MELD (17 (12–23) vs 17 (13–21); p=0.805), inpatient mortality ((13.7% vs 10.1%; p=0.373) and length of stay (7 days (4–14) vs 7 days (3.5–14); p=0.525)). CONCLUSION: This assessment of immediate and medium-term lockdown impacts on those with chronic liver disease suggested a minimal effect on the presentation of decompensated liver disease to secondary care

The Environmental Risks Associated With the Development of Seaweed Farming in Europe - Prioritizing Key Knowledge Gaps

Cultivation of kelp has been well established throughout Asia, and there is now growing interest in the cultivation of macroalgae in Europe to meet future resource needs. If this industry is to become established throughout Europe, then balancing the associated environmental risks with potential benefits will be necessary to ensure the carrying capacity of the receiving environments are not exceeded and conservation objects are not undermined. This is a systematic review of the ecosystem changes likely to be associated with a developing seaweed aquaculture industry. Monitoring recommendations are made by risk ranking environmental changes, highlighting the current knowledge gaps and providing research priorities to address them. Environmental changes of greatest concern were identified to include: facilitation of disease, alteration of population genetics and wider alterations to the local physiochemical environment. Current high levels of uncertainty surrounding the true extent of some environmental changes mean conservative risk rankings are given. Recommended monitoring options are discussed that aim to address uncertainty and facilitate informed decision-making. Whilst current small-scale cultivation projects are considered ‘low risk,’ an expansion of the industry that includes ‘large-scale’ cultivation will necessitate a more complete understanding of the scale dependent changes in order to balance environmental risks with the benefits that seaweed cultivation projects can offer

Multi-ancestry genome-wide association study of major depression aids locus discovery, fine mapping, gene prioritization and causal inference

Most genome-wide association studies (GWAS) of major depression (MD) have been conducted in samples of European ancestry. Here we report a multi-ancestry GWAS of MD, adding data from 21 cohorts with 88,316 MD cases and 902,757 controls to previously reported data. This analysis used a range of measures to define MD and included samples of African (36% of effective sample size), East Asian (26%) and South Asian (6%) ancestry and Hispanic/Latin American participants (32%). The multi-ancestry GWAS identified 53 significantly associated novel loci. For loci from GWAS in European ancestry samples, fewer than expected were transferable to other ancestry groups. Fine mapping benefited from additional sample diversity. A transcriptome-wide association study identified 205 significantly associated novel genes. These findings suggest that, for MD, increasing ancestral and global diversity in genetic studies may be particularly important to ensure discovery of core genes and inform about transferability of findings