Innovation Systems in the European Periphery: the Case of Ireland and Greece

Two decades ago, Greece and Ireland stood passive spectators of political, economic and technological developments at the core of an emerging European Economic Community. Away from the industrial centres of Europe, the attainment and application of new ideas, it seemed, had no place among the prescriptions of policy. The pursuit of each country’s comparative advantage dictated that they be net consumers of technological wares invented elsewhere. And while a lot has changed in the meantime, a great deal has also endured. Today, innovation is no longer confined to the fringes of industrial policy; it features prominently, throughout the continent, as ‘the solution’ to the re-discovered riddle of competitiveness. Ideas on how to best mobilise intellectual assets for innovation abound. Theory suggests that institutions are important in shaping productive efforts towards innovation; the experiences of Ireland and Greece offer a fitting testing ground. Ireland has made strides in the FDI route to prosperity, no longer labelled a cohesion country. Greece however faces pressing economic problems, in the aftermath of celebrated, largesse-fuelled growth. Over the period in question though, nowhere else have the differences between the two countries become more accentuated (and apparent), as in matters of innovation. We propose that the key to these differences lies with the drafting of policy and the consequent shaping of their institutions. We observe that importing solutions from abroad, with Greece looking to Brussels and Ireland to the US, was central to their respective experiences.

Glycaemic effects of non-statin lipid-lowering therapies

Since the publication of the JUPITER trial, attention has been focused on the adverse glycemic effects of statin therapy. Although the modest increase in the risk of new diabetes mellitus is outweighed by the reduction in cardiovascular events for statins, emerging biochemical and genetic links between lipid metabolism and glycemic control raise the prospect of a broader diabetogenic effect of lipid-lowering therapies. For the novel and powerful PCSK9-inhibitor class available evidence does not support a major glycaemic effect with the results of large scale trials awaited although preliminary genetic data does suggest a link. In contrast, there is clear evidence of a diabetogenic effect for the now outdated but well-studied niacin. For ezetimibe and fibrates, evidence is scarce but currently broadly unconcerning. For now, the glycemic effects of lipid-lowering therapies should have a limited influence on clinical decision-making. Further study in this topical area is needed

Innovation Systems in the European Periphery: the Case of Ireland and Greece

Two decades ago, Greece and Ireland stood passive spectators of political, economic and technological developments at the core of an emerging European Economic Community. Away from the industrial centres of Europe, the attainment and application of new ideas, it seemed, had no place among the prescriptions of policy. The pursuit of each country's comparative advantage dictated that they be net consumers of technological wares invented elsewhere. And while a lot has changed in the meantime, a great deal has also endured. Today, innovation is no longer confined to the fringes of industrial policy; it features prominently, throughout the continent, as 'the solution' to the re-discovered riddle of competitiveness. Ideas on how to best mobilise intellectual assets for innovation abound. Theory suggests that institutions are important in shaping productive efforts towards innovation; the experiences of Ireland and Greece offer a fitting testing ground. Ireland has made strides in the FDI route to prosperity, no longer labelled a cohesion country. Greece however faces pressing economic problems, in the aftermath of celebrated, largesse-fuelled growth. Over the period in question though, nowhere else have the differences between the two countries become more accentuated (and apparent), as in matters of innovation. We propose that the key to these differences lies with the drafting of policy and the consequent shaping of their institutions. We observe that importing solutions from abroad, with Greece looking to Brussels and Ireland to the US, was central to their respective experiences

Colonel Blotto Games and Lancaster's Equations: A Novel Military Modeling Combination

Military strategists face a difficult task when engaged in a battle against an adversarial force. They have to predict both what tactics their opponent will employ and the outcomes of any resultant conflicts in order to make the best decision about their actions. Game theory has been the dominant technique used by analysts to investigate the possible actions that an enemy will employ. Traditional game theory can be augmented by use of Lanchester equations, a set of differential equations used to determine the outcome of a conflict. This paper demonstrates a novel combination of game theory and Lanchester equations using Colonel Blotto games. Colonel Blotto games, which are one of the oldest applications of game theory to the military domain, look at the allocation of troops and resources when fighting across multiple areas of operation. This paper demonstrates that employing Lanchester equations within a game overcomes some of practical problems faced when applying game theory

Does sorption of sulfuryl fluoride by wheat reduce its efficacy against adults and eggs of Rhyzopertha dominica?

Despite its growing importance as a fumigant for grain, there is no information on the impact of sorption on the efficacy of sulfuryl fluoride (SF) against target insect pests. Eggs and adults of a major grain pest, Rhyzopertha dominica, living in wheat (12% m.c.), were fumigated with SF at 0.5, 1, and 2 mg/L for 168 h at 25 °C. Sorption of the fumigant by the grain followed an exponential decay and reduced the mortality rates of both adults and eggs. The partition ratio (K), a measure of physical sorption, had a strong impact on mortality of both adults and eggs. The quadratic model showed the best fit to the data and turning points in the relationship indicated that although mortality increased as concentration increased, physical sorption removed fumigant resulting in a decrease in the mortality rate. There was a linear relationship between mortality and the rate of sorption (k) of SF by the wheat. At each concentration, mortality rate increased as k increased despite sorption continuing, indicating that the chemical sorption rate had little impact on mortality. Sorption of SF into the commodity has the potential to reduce the biological efficacy of the fumigant resulting in potential control failures. Concentration x time protocols may need to be revised to account for this phenomenon

A Galvanic Coupling Method for Assessing Hydration Rates

Recent advances in biomedical sensors, data acquisition techniques, microelectronics and wireless communication systems opened up the use of wearable technology for ehealth monitoring. We introduce a galvanic coupled intrabody communication for monitoring human body hydration. Studies in hydration provide the information necessary for understanding the desired fluid levels for optimal performance of the body’s physiological and metabolic processes during exercise and activities of daily living. Current measurement techniques are mostly suitable for laboratory purposes due to their complexity and technical requirements. Less technical methods such as urine color observation and skin turgor testing are subjective and cannot be integrated into a wearable device. Bioelectrical impedance methods are popular but mostly used for estimating total body water with limited accuracy and sensitive to 800 mL–1000 mL change in body fluid levels. We introduce a non-intrusive and simple method of tracking hydration rates that can detect up to 1.30 dB reduction in attenuation when as little as 100 mL of water is consumed. Our results show that galvanic coupled intrabody signal propagation can provide qualitative hydration and dehydration rates in line with changes in an individual’s urine specific gravity and body mass. The real-time changes in galvanic coupled intrabody signal attenuation can be integrated into wearable electronic devices to evaluate body fluid levels on a particular area of interest and can aid diagnosis and treatment of fluid disorders such as lymphoedema