390 research outputs found
Experiences of gender and diversity in research teams working on transport related projects funded by EU
This study explores the experience of gender and diversity in research teams in transport and smart mobility related projects funded by the European Commission under Horizon 2020. An analysis of interviews with 14 Principal Investigators revealed that despite the growing awareness about gender and diversity inequalities in academia, bias against underrepresented groups exists. However, variation of experiences calls for intersectional lenses when assessing the problem. Findings reveal the need for changes in EU projects application process, implementation, delivery, and impact evaluation to address gender and diversity gaps
âEAASIâ A Gender- and Diversity- Sensitive Usability Evaluation Tool
The TInnGO project encourages a gender and diversity perspective in design and deployment of smart mobility products. The project has established 5 key criteria â products should be effective, attractive, affordable, sustainable, and inclusive. To encourage designers to focus on these indicators and to inform procurement teams and organisations choosing a product, we developed âEAASIâ - a tool for evaluating smart mobility products from a gender and diversity perspective. The tool consists of a checklist of questions regarding gender and intersectional diversity. It was refined through the design experiences of the UK Hub evaluating products in use and âdesign provocationsâ developed during group work with design students. The focus of this tool on gender- and diversity-smart thinking in transport gives it a strong appeal over more generic âusabilityâ methods and assessment tools
Understanding Pharmaceutical Quality by Design
This review further clarifies the concept of pharmaceutical quality by design (QbD) and describes its objectives. QbD elements include the following: (1) a quality target product profile (QTPP) that identifies the critical quality attributes (CQAs) of the drug product; (2) product design and understanding including identification of critical material attributes (CMAs); (3) process design and understanding including identification of critical process parameters (CPPs), linking CMAs and CPPs to CQAs; (4) a control strategy that includes specifications for the drug substance(s), excipient(s), and drug product as well as controls for each step of the manufacturing process; and (5) process capability and continual improvement. QbD tools and studies include prior knowledge, risk assessment, mechanistic models, design of experiments (DoE) and data analysis, and process analytical technology (PAT). As the pharmaceutical industry moves toward the implementation of pharmaceutical QbD, a common terminology, understanding of concepts and expectations are necessary. This understanding will facilitate better communication between those involved in risk-based drug development and drug application review
The first crop plant genetically engineered to release an insect pheromone for defence
Insect pheromones offer potential for managing pests of crop plants. Volatility and instability are problems for deployment in agriculture but could be solved by expressing genes for the biosynthesis of pheromones in the crop plants. This has now been achieved by genetically engineering a hexaploid variety of wheat to release (E)-ÎČ-farnesene (EÎČf), the alarm pheromone for many pest aphids, using a synthetic gene based on a sequence from peppermint with a plastid targeting amino acid sequence, with or without a gene for biosynthesis of the precursor farnesyl diphosphate. Pure EÎČf was produced in stably transformed wheat lines with no other detectable phenotype but requiring targeting of the gene produced to the plastid. In laboratory behavioural assays, three species of cereal aphids were repelled and foraging was increased for a parasitic natural enemy. Although these studies show considerable potential for aphid control, field trials employing the single and double constructs showed no reduction in aphids or increase in parasitism. Insect numbers were low and climatic conditions erratic suggesting the need for further trials or a closer imitation, in the plant, of alarm pheromone release
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Blood-based systems biology biomarkers for next-generation clinical trials in Alzheimer's disease
Alzheimerâs disease (AD)âa complex disease showing multiple pathomechanistic alterationsâis triggered by nonlinear dynamic interactions of genetic/epigenetic and environmental risk factors, which, ultimately, converge into a biologically heterogeneous disease. To tackle the burden of AD during early preclinical stages, accessible blood-based biomarkers are currently being developed. Specifically, next-generation clinical trials are expected to integrate positive and negative predictive blood-based biomarkers into study designs to evaluate, at the individual level, target druggability and potential drug resistance mechanisms. In this scenario, systems biology holds promise to accelerate validation and qualification for clinical trial contexts of useâincluding proof-of-mechanism, patient selection, assessment of treatment efficacy and safety rates, and prognostic evaluation. Albeit in their infancy, systems biology-based approaches are poised to identify relevant AD âsignaturesâ through multifactorial and interindividual variability, allowing us to decipher disease pathophysiology and etiology. Hopefully, innovative biomarker-drug codevelopment strategies will be the road ahead towards effective disease-modifying drugs.Includes MRC fundin
Recommendations for the design of therapeutic trials for neonatal seizures
Although seizures have a higher incidence in neonates than any other age group and are associated with significant mortality and neurodevelopmental disability, treatment is largely guided by physician preference and tradition, due to a lack of data from welldesigned clinical trials. There is increasing interest in conducting trials of novel drugs to treat neonatal seizures, but the unique characteristics of this disorder and patient population require special consideration with regard to trial design. The Critical Path Institute formed a global working group of experts and key stakeholders from academia, the pharmaceutical industry, regulatory agencies, neonatal nurse associations, and patient advocacy groups to develop consensus recommendations for design of clinical trials to treat neonatal seizures. The broad expertise and perspectives of this group were invaluable in developing recommendations addressing: (1) use of neonate-specific adaptive trial designs, (2) inclusion/exclusion criteria, (3) stratification and randomization, (4) statistical analysis, (5) safety monitoring, and (6) definitions of important outcomes. The guidelines are based on available literature and expert consensus, pharmacokinetic analyses, ethical considerations, and parental concerns. These recommendations will ultimately facilitate development of a Master Protocol and design of efficient and successful drug trials to improve the treatment and outcome for this highly vulnerable population
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