Browsing by Issue Date, starting with "2022-01"
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- Staying psychologically safe as a doctor during the COVID-19 pandemicPublication . Benson, Jill; Sexton, Roger; Dowrick, Christopher; Gibson, Christine; Lionis, Christos; Ferreira Veloso Gomes, Joana; Bakola, Maria; AlKhathami, Abdullah; Nazeer, Shimnaz; Igoumenaki, Alkisti; Usta, Jinan; Arroll, Bruce; van Weel-Baumgarten, Evelyn; Allen, ClaudiaAs we face the ongoing global pandemic of COVID-19, doctors, nurses, ambulance officers, paramedics and many other health workers answer the call to serve in time pressured, unfamiliar, chaotic and often traumatic environments.1 We know how to look after ourselves in an infectious physical environment, but it is equally important to look after ourselves psychologically at this time. We have all been exposed in different ways, for instance, the role of a General Practitioner (Family Physician) will vary in the different healthcare systems throughout the world—some will be at the forefront, others will be doing telehealth, or may find themselves back in a hospital situation. With long hours, an often unmanageable workload, lack of personal protection equipment, distressed patients, fake news and the prospect of this continuing into the future, doctors are at high risk of burn-out.1–3 The features of burn-out are emotional exhaustion, low personal accomplishment and depersonalisation, and the consequences of burn-out on the doctors and their patients can be profound and long-lasting.2–4 In crises, doctors are also at risk of vicarious trauma as we listen to stories from our patients of illness, death, grief, hardship, unemployment, domestic violence and suicide.5 This is at a time when we are physically distancing from our family and friends, with little time to exercise and possibly without sufficient access to healthy food or fresh air.
- Variability in Carcinus maenas Fecundity Along lagoons and estuaries of the Portuguese coastPublication . N. Monteiro, J.; Ovelheiro, Andreia; Ventaneira, Ana M.; Vieira, Vasco; Teodosio, Maria; Leitão, FranciscoAlthough Carcinus maenas as a species is widely studied, research focusing on fecundity is still scarce. The main objective of this study was to evaluate size-fecundity relationships across diferent lagoons and estuaries, along the Portuguese coast, to understand how the local environment afects reproductive patterns. Between 2019 and 2020, ovigerous females were collected from the Southern (Ria Formosa and Ria de Alvor), Central (Rio Sado) and Northern regions (Ria de Aveiro) of Portugal, and the fecundity of each female was estimated by counting and weighing eggs. Morphometric relationships (carapace width–egg counting; egg counting–egg weight; body wet weight–egg weight; carapace width–body wet weight) were inferred from 180 egg-bearing females with a carapace width between 26.96 and 61.25 mm. A positive correlation between fecundity and the morphological parameters was observed. Diferences in fecundity were found among all systems, from northern to southern Portugal, varying between 22121 and 408538 eggs per female. Furthermore, a regional gradient was observed across regions, with lower temperature estuaries (Ria de Aveiro) displaying an increase in fecundity. The fecundity in Rio Sado was also afected by salinity. Fecundity diferences across regions were associated with hydrodynamics, temperature, and salinity diferences among systems. No statistically signifcant diferences were observed between Carapace Width—Body Wet Weight regressions performed in each studied system, indicating that, contrary to fecundity, the somatic growth of C. maenas is not afected by latitudinal or environmental conditions.
- Peninsular southern Europe refugia during the Middle Palaeolithic: an introductionPublication . Bicho, Nuno; Carvalho, MilenaNeanderthals faced great environmental and climatic instability during the Pleistocene, which may have influenced their lithic technology, subsistence patterns, mobility, behaviour and survival. Modern research assessing the effect of climate and environment on the Middle Palaeolithic and transition to the Upper Palaeolithic has often turned to southern Europe, specifically peninsular southern Europe (Iberia, Italy and the Balkans). These are regions typically regarded as refugia during periods of unfavourable climatic conditions, inspiring hundreds of palaeoenvironmental studies at Neanderthal sites and hypotheses on late Neanderthal survival in locations with relative ameliorated conditions. Here, we present the topic of the special issue focusing on peninsular southern Europe refugia during the Middle Palaeolithic covering the three main peninsulas. Its 16 contributions discuss relevant data on peninsular southern Europe as possible refugia during periods of unfavourable climate during the Middle Palaeolithic and transition to Upper Palaeolithic.
- The economic impact of recreational trails: a systematic literature reviewPublication . Lukoseviciute, Goda; Pereira, LN; Panagopoulos, ThomasRecreational trails are a type of nature-based tourism providing various activities such as hiking, biking, rafting or horseback riding. Increasing investment in infrastructure and touristic services development has resulted in higher visitor expenditure and thus contributed to economic development. This study aims to review the current economic impact assessment studies on recreational trail tourism and to extract the main economic impact determinants. A systematic literature review analysis was applied in a quantitative approach about economic models, study cases of nature-based tourism, comparison of economic impacts. A qualitative analysis was then applied with an inductive approach to compare the economic impacts of nature-based tourism forms and identify the main determinants of economic impact. This study suggests that I-O is the most suitable theoretical approach to study the economic impact of long-distance trails, while the Keynesian multiplier approach and Ad hoc model are the most suitable approaches to study the economic impact of short-distance trails.
- Identification of a novel mutation in MEF2C gene in an atypical patient with frontotemporal lobar degenerationPublication . Adrião, Andreia; Santana, Isabel; Ribeiro, Carolina; Cancela, M. Leonor; Conceição, Natércia; Grazina, ManuelaThe MEF2C gene encodes a transcription factor known to play a crucial role in molecular pathways affecting neuronal development. MEF2C mutations were described as a genetic cause of developmental disease (MRD20), and several reports sustain its involvement in dementia-related conditions, such as Alzheimer's disease and amyotrophic lateral sclerosis. These pathologies and frontotemporal degeneration (FTLD) are thought to share common physiopathological pathways. In this exploratory study, we searched for alterations in the DNA sequence of exons and boundaries, including 5 '- and 3 '-untranslated regions (5 ' UTR, 3 ' UTR), of MEF2C gene in 11 patients with clinical phenotypes related with MRD20 or FTLD. We identified a heterozygous deletion of 13 nucleotides in the 5 ' UTR region of a 69 years old FTLD patient. This alteration was absent in 200 healthy controls, suggesting a contribution to this patient's disease phenotype. In silico analysis of the mutated sequence indicated changes in mRNA secondary structure and stability, thus potentially affecting MEF2C protein levels. Furthermore, in vitro functional analysis of this mutation revealed that the presence of this deletion abolished the transcriptional activity of the gene in human embryonic cells and rat brain neurons, probably by modifying MEF2C expression. Altogether, our results provide evidence for the involvement of MEF2C in FTLD manifesting with seizures.
- Forecasting shifts in habitat suitability across the distribution range of a temperate small pelagic fish under different scenarios of climate changePublication . Lima, André R.A.; Baltazar-Soares, Miguel; Garrido, Susana; Riveiro, Isabel; Carrera, Pablo; Piecho-Santos, A. Miguel; Peck, Myron A.; Silva, GonçaloClimate change often leads to shifts in the distribution of small pelagic fish, likely by changing the matchmismatch dynamics between these sensitive species within their environmental optima. Using present-day habitat suitability, we projected how different scenarios of climate change (IPCC Representative Concentration Pathways 2.6, 4.5 and 8.5) may alter the large scale distribution of European sardine Sardina pilchardus (a model species) by 2050 and 2100. We evaluated the variability of species-specific environmental optima allowing a comparison between present-day and future scenarios. Regardless of the scenario, sea surface temperature and salinity and the interaction between current velocity and distance to the nearest coast were the main descriptors responsible for the main effects on sardine's distribution. Present-day and future potential “hotspots” for sardine were neritic zones (<250 km) with water currents <0.4 m s−1 , where SST was between 10 and 22 °C and SSS > 20 (PSU), on average. Most variability in projected shifts among climatic scenarios was in habitats with moderate to low suitability. By the end of this century, habitat suitability was projected to increase in the Canary Islands, Iberian Peninsula, central North Sea, northern Mediterranean, and eastern Black Sea and to decrease in the Atlantic African coast, southwest Mediterranean, English Channel, northern North Sea and Western U.K. A gradual poleward-eastward shift in sardine distribution was also projected among scenarios. This shift was most pronounced in 2100 under RCP 8.5. In that scenario, sardines had a 9.6% range expansion which included waters along the entire coast of Norway up and into the White Sea. As habitat suitability is mediated by the synergic effects of climate variability and change on species fitness, it is critical to apply models with robust underlying species-habitat data that integrate knowledge on the full range of processes shaping species productivity and distribution.
- ULK overexpression mitigates motor deficits and neuropathology in mouse models of Machado-Joseph diseasePublication . Vasconcelos-Ferreira, Ana; Martins, Inês Morgado; Lobo, Diana; Pereira, Dina; Lopes, Miguel M.; Faro, Rosário; Lopes, Sara M.; Verbeek, Dineke; Schmidt, Thorsten; Nóbrega, Clévio; Pereira de Almeida, LuísMachado-Joseph disease (MJD) is a fatal neurodegenerative disorder clinically characterized by prominent ataxia. It is caused by an expansion of a CAG trinucleotide in ATXN3, translating into an expanded polyglutamine (polyQ) tract in the ATXN3 protein, that becomes prone to misfolding and aggregation. The pathogenesis of the disease has been associated with the dysfunction of several cellular mechanisms, including autophagy and transcription regulation. In this study, we investigated the transcriptional modifications of the autophagy pathway in models of MJD and assessed whether modulating the levels of the affected autophagy-associated transcripts (AATs) would alleviate MJD-associated pathology. Our results show that autophagy is impaired at the transcriptional level in phagy activating kinase 1 and 2 (ULK1 and ULK2), two homologs involved in autophagy induction. Reinstating ULK1/2 levels by adeno-associated virus (AAV)-mediated gene transfer significantly improved motor performance while preventing in vitro studies showed that the observed positive effects may be mainly attributed to ULK1 activity. This study provides strong evidence of the beneficial effect of overexpression of ders.
- theLiTE™: a screening platform to identify compounds that reinforce tight junctionsPublication . Gomes, Teresa Lopes; Oliveira-Marques, Virgínia de; Hampson, Richard John; Jacinto, António; de Moraes, Luciana Vieira; Martinho, Rui GoncaloTight junctions (TJ) are formed by transmembrane and intracellular proteins that seal the intercellular space and control selective permeability of epithelia. Integrity of the epithelial barrier is central to tissue homeostasis and barrier dysfunction has been linked to many pathological conditions. TJ support the maintenance of cell polarity through interactions with the Par complex (Cdc42-Par-6-Par-3-aPKC) in which Par-6 is an adaptor and links the proteins of the complex together. Studies have shown that Par-6 overexpression delays the assembly of TJ proteins suggesting that Par-6 negatively regulates TJ assembly. Because restoring barrier integrity is of key therapeutic and prophylactic value, we focus on finding compounds that have epithelial barrier reinforcement properties; we developed a screening platform (theLiTE™) to identify compounds that modulate Par-6 expression in follicular epithelial cells from Par-6-GFP Drosophila melanogaster egg chambers. Hits identified were then tested whether they improve epithelial barrier function, using measurements of transepithelial electrical resistance (TEER) or dye efflux to evaluate paracellular permeability. We tested 2,400 compounds, found in total 10 hits. Here we present data on six of them: the first four hits allowed us to sequentially build confidence in theLiTE™ and two compounds that were shortlisted for further development (myricetin and quercetin). We selected quercetin due to its clinical and scientific validation as a compound that regulates TJ; food supplement formulated on the basis of this discovery is currently undergoing clinical evaluation in gastroesophageal reflux disease (GERD) sufferers.
- Impacts of climate change on the biogeography of three amnesic shellfish toxin producing diatom speciesPublication . Borges, Francisco O.; Lopes, Vanessa M.; Santos, Catarina Frazão; Reis Costa, Pedro; Rosa, RuiHarmful algal blooms (HABs) are considered one of the main risks for marine ecosystems and human health worldwide. Climate change is projected to induce significant changes in species geographic distribution, and, in this sense, it is paramount to accurately predict how it will affect toxin-producing microalgae. In this context, the present study was intended to project the potential biogeographical changes in habitat suitability and occurrence distribution of three key amnesic shellfish toxin (AST)-producing diatom species (i.e., Pseudo-nitzschia australis, P. seriata, and P. fraudulenta) under four different climate change scenarios (i.e., RCP-2.6, 4.5, 6.0, and 8.5) up to 2050 and 2100. For this purpose, we applied species distribution models (SDMs) using four abiotic predictors (i.e., sea surface temperature, salinity, current velocity, and bathymetry) in a MaxEnt framework. Overall, considerable contraction and potential extirpation were projected for all species at lower latitudes together with projected poleward expansions into higher latitudes, mainly in the northern hemisphere. The present study aims to contribute to the knowledge on the impacts of climate change on the biogeography of toxin-producing mi
- Metabolic and nutritional responses of Nile tilapia juveniles to dietary methionine sourcesPublication . Teodósio, Rita; Engrola, Sofia; Cabano, Miguel; Colen, R.; Masagounder, Karthik; Raquel Cêa de Aragão Teixeira, CláudiaCommercial diets for tilapia juveniles contain high levels of plant protein sources. Soybean meal has been utilised due to its high protein content; however, soy-based diets are limited in methionine (Met) and require its supplementation to fulfil fish requirements. DL-Methinone (DL-Met) and Ca bis-methionine hydroxyl analogue (MHA-Ca) are synthetic Met sources supplemented in aquafeeds, which may differ in biological efficiency due to structural differences. The present study evaluated the effect of both methionine sources on metabolism and growth of Nile tilapia. A growth trial was performed using three isonitrogenous and isoenergetic diets, containing plant ingredients as protein sources: DLM and MHA diets were supplemented on equimolar levels of Met, while REF diet was not supplemented. Hepatic free Met and one-carbon metabolites were determined in fish fed for 57 d. Metabolism of DL-Met and MHA was analysed by an in vivo time-course trial using 14C-labelled tracers. Only DLMet supplementation significantly increased final body weight and improved feed conversion and protein efficiency ratios compared with the REF diet. Our findings indicate that Met in DLM fed fish follows the transsulphuration pathway, while in fish fed MHA and REF diets it is reme thylated. The in vivo trial revealed that 14C-DL-Met is absorbed faster and more retained than 14C-MHA, resulting in a greater availability of free Met in the tissues when fish is fed with DLM diet. Our study indicates that dietary DL-Met supplementation improves growth performance and N retention, and that Met absorption and utilisation are influenced by the dietary source in tilapia juveniles.