Computer-based technology and student engagement: a critical review of the literature

Computer-based technology has infiltrated many aspects of life and industry, yet there is little understanding of how it can be used to promote student engagement, a concept receiving strong attention in higher education due to its association with a number of positive academic outcomes. The purpose of this article is to present a critical review of the literature from the past 5 years related to how web-conferencing software, blogs, wikis, social networking sites (Facebook and Twitter), and digital games influence student engagement. We prefaced the findings with a substantive overview of student engagement definitions and indicators, which revealed three types of engagement (behavioral, emotional, and cognitive) that informed how we classified articles. Our findings suggest that digital games provide the most far-reaching influence across different types of student engagement, followed by web-conferencing and Facebook. Findings regarding wikis, blogs, and Twitter are less conclusive and significantly limited in number of studies conducted within the past 5 years. Overall, the findings provide preliminary support that computer-based technology influences student engagement, however, additional research is needed to confirm and build on these findings. We conclude the article by providing a list of recommendations for practice, with the intent of increasing understanding of how computer-based technology may be purposefully implemented to achieve the greatest gains in student engagement. © 2017, The Author(s)

Update in asthma/airway inflammation 2018

Throughout 2018, the publications of the AJRCCM and associated ATS journals have continued to focus on the individual and societal impact of asthma and the challenges involved in managing this prevalent, but heterogeneous, condition. Asthma remains the most common chronic respiratory condition with ongoing significant unmet need at all levels of severity. The cardinal features of asthma, i.e. that it affects a significant proportion of all age‐groups, but generates highly individual effects on health and socioeconomic factors, have hampered previous attempts to gauge its true cost at a population level. Nurmagambetov et al. approached this task by utilising data from the 2008‐2013 household component of the Medical Expenditure Panel Survey, examining a total sample size of more than 200,000 persons (more than 10,000 of whom had ‘treated asthma’)[1]. Application of a two‐part regression model indicated the cost of asthma in the USA in 2013 to be $81.9 billion, underlining the huge potential for improvements in asthma care to benefit individuals and populations in multiple aspects, including financially

The prostaglandin D2 receptor 2 pathway in asthma: a key player in airway inflammation

Abstract Asthma is characterised by chronic airway inflammation, airway obstruction and hyper-responsiveness. The inflammatory cascade in asthma comprises a complex interplay of genetic factors, the airway epithelium, and dysregulation of the immune response. Prostaglandin D2 (PGD2) is a lipid mediator, predominantly released from mast cells, but also by other immune cells such as TH2 cells and dendritic cells, which plays a significant role in the pathophysiology of asthma. PGD2 mainly exerts its biological functions via two G-protein-coupled receptors, the PGD2 receptor 1 (DP1) and 2 (DP2). The DP2 receptor is mainly expressed by the key cells involved in type 2 immune responses, including TH2 cells, type 2 innate lymphoid cells and eosinophils. The DP2 receptor pathway is a novel and important therapeutic target for asthma, because increased PGD2 production induces significant inflammatory cell chemotaxis and degranulation via its interaction with the DP2 receptor. This interaction has serious consequences in the pulmonary milieu, including the release of pro-inflammatory cytokines and harmful cationic proteases, leading to tissue remodelling, mucus production, structural damage, and compromised lung function. This review will discuss the importance of the DP2 receptor pathway and the current understanding of its role in asthma