MRC Clinical Trials Unit, UK

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Bayesian inference in genetic parameter estimation of visual scores in Nellore beef-cattle

The aim of this study was to estimate the components of variance and genetic parameters for the visual scores which constitute the Morphological Evaluation System (MES), such as body structure (S), precocity (P) and musculature (M) in Nellore beef-cattle at the weaning and yearling stages, by using threshold Bayesian models. The information used for this was gleaned from visual scores of 5,407 animals evaluated at the weaning and 2,649 at the yearling stages. The genetic parameters for visual score traits were estimated through two-trait analysis, using the threshold animal model, with Bayesian statistics methodology and MTGSAM (Multiple Trait Gibbs Sampler for Animal Models) threshold software. Heritability estimates for S, P and M were 0.68, 0.65 and 0.62 (at weaning) and 0.44, 0.38 and 0.32 (at the yearling stage), respectively. Heritability estimates for S, P and M were found to be high, and so it is expected that these traits should respond favorably to direct selection. The visual scores evaluated at the weaning and yearling stages might be used in the composition of new selection indexes, as they presented sufficient genetic variability to promote genetic progress in such morphological traits

Porcine synapsin 1: SYN1 gene analysis and functional characterization of the promoter

AbstractSynapsin 1 (SYN1) is a phosphoprotein involved in nerve signal transmission. The porcine SYN1 promoter orthologue was cloned and characterized to provide a means of expressing a transgene specifically in neurons. The nucleotide sequence of the promoter displayed a high degree of conservation of elements responsible for neuron-specific expression. Expression analysis of SYN1 demonstrated presence of transcript during embryonic development. Analysis of GFP expression in transgenic zebrafish embryos suggests that the pig SYN1 promoter directs expression in neuronal cells. Thus, the SYN1 promoter is a good candidate for use in the generation of pig models of human neurodegenerative disorders

Job and family demands and burnout among healthcare workers: The moderating role of workplace flexibility

Burnout is a growing problem among healthcare workers. Whereas there are numerous predictors of burnout, this article explores the compounding effects of job and family demands among nurses and Patient Care Associates (PCA). This study used the 2018 survey data of the Boston Hospital Health Workers Study (BHWHS) to assess the relationship of job and family demands, workplace flexibility, and burnout (N = 874). In addition, it aimed to evaluate the moderating effect of workplace flexibility and job and family demands on burnout. Results of the study demonstrate that active and high strained healthcare workers are associated with higher odds of experiencing burnout as well as workers who reported perceived low workplace flexibility. In addition, workplace flexibility is associated with reduced odds of experiencing burnout. Workplace flexibility moderated the relationship of childless married healthcare workers and burnout. The study shows that workplace flexibility plays a critical role in potentially reducing odds of burnout in the healthcare worker population. Assessing the perception and accessibility to workplace flexibility among workers is imperative to improve worker well-being and the quality of care provided to patients especially the current effects to worker's health during a pandemic

Risk factors of stillbirths in four district hospitals on Pemba Island, Tanzania: a prospective cohort study

Abstract Background More than 2 million third-trimester stillbirths occur yearly, most of them in low- and middle-income countries. Data on stillbirths in these countries are rarely collected systematically. This study investigated the stillbirth rate and risk factors associated with stillbirth in four district hospitals in Pemba Island, Tanzania. Methods A prospective cohort study was completed between the 13th of September and the 29th of November 2019. All singleton births were eligible for inclusion. Events and history during pregnancy and indicators for adherence to guidelines were analysed in a logistic regression model that identified odds ratios [OR] with a 95% confidence interval [95% CI]. Results A stillbirth rate of 22 per 1000 total births in the cohort was identified; 35.5% were intrapartum stillbirths (total number of stillbirths in the cohort, n = 31). Risk factors for stillbirth were breech or cephalic malpresentation (OR 17.67, CI 7.5-41.64), decreased or no foetal movements (OR 2.6, CI 1.13–5.98), caesarean section [CS] (OR 5.19, CI 2.32–11.62), previous CS (OR 2.63, CI 1.05–6.59), preeclampsia (OR 21.54, CI 5.28–87.8), premature rupture of membranes or rupture of membranes 18 h before birth (OR 2.5, CI 1.06–5.94) and meconium stained amniotic fluid (OR 12.03, CI 5.23–27.67). Blood pressure was not routinely measured, and 25% of women with stillbirths with no registered foetal heart rate [FHR] at admission underwent CS. Conclusions The stillbirth rate in this cohort was 22 per 1000 total births and did not fulfil the Every Newborn Action Plan’s goal of 12 stillbirths per 1000 total births in 2030. Awareness of risk factors associated with stillbirth, preventive interventions and improved adherence to clinical guidelines during labour, and hence improved quality of care, are needed to decrease the stillbirth rate in resource-limited settings

Molecular Cloning and Characterization of Porcine Na⁺/K⁺-ATPase Isoforms α1, α2, α3 and the ATP1A3 Promoter

<div><p>Na⁺/K⁺-ATPase maintains electrochemical gradients of Na⁺ and K⁺ essential for a variety of cellular functions including neuronal activity. The α-subunit of the Na⁺/K⁺-ATPase exists in four different isoforms (α1–α4) encoded by different genes. With a view to future use of pig as an animal model in studies of human diseases caused by Na⁺/K⁺-ATPase mutations, we have determined the porcine coding sequences of the α1–α3 genes, <i>ATP1A1</i>, <i>ATP1A2</i>, and <i>ATP1A3</i>, their chromosomal localization, and expression patterns. Our <i>ATP1A1</i> sequence accords with the sequences from several species at five positions where the amino acid residue of the previously published porcine <i>ATP1A1</i> sequence differs. These corrections include replacement of glutamine 841 with arginine. Analysis of the functional consequences of substitution of the arginine revealed its importance for Na⁺ binding, which can be explained by interaction of the arginine with the C-terminus, stabilizing one of the Na⁺ sites. Quantitative real-time PCR expression analyses of porcine <i>ATP1A1</i>, <i>ATP1A2</i>, and <i>ATP1A3</i> mRNA showed that all three transcripts are expressed in the embryonic brain as early as 60 days of gestation. Expression of α3 is confined to neuronal tissue. Generally, the expression patterns of <i>ATP1A1</i>, <i>ATP1A2</i>, and <i>ATP1A3</i> transcripts were found similar to their human counterparts, except for lack of α3 expression in porcine heart. These expression patterns were confirmed at the protein level. We also report the sequence of the porcine <i>ATP1A3</i> promoter, which was found to be closely homologous to its human counterpart. The function and specificity of the porcine <i>ATP1A3</i> promoter was analyzed in transgenic zebrafish, demonstrating that it is active and drives expression in embryonic brain and spinal cord. The results of the present study provide a sound basis for employing the <i>ATP1A3</i> promoter in attempts to generate transgenic porcine models of neurological diseases caused by <i>ATP1A3</i> mutations.</p></div