The Case of Plain Packaging for Cigarettes - an Overview

Plain packaging of tobacco products is a new tobacco control tool which has been considered in recent times by several governments throughout the world. By standardizing the appearance of all cigarette boxes, plain packaging aims to make all packs look unattractive and render health warnings more prominent. Australia is set to become the first country in the world to introduce legislation requiring “plain packaging” for cigarettes. Plain packaging raises both health-related and legal tricky issues. Indeed, it is being persistently challenged not only by the tobacco industry as to its legality, but also in its genuine effectiveness.After summing up the state of the art of the debate triggered by this innovative tobacco control tool, this report predicts that plain packaging is a thorny issue which is likely to keep busy IPRs and WTO specialists as well as academics in the years to come

Do you mind my smoking? Plain packaging of cigarettes under the TRIPS agreement

Plain packaging, a new tobacco control tool that a growing number of countries are considering, mandates the removal of all attractive and promotional aspects of tobacco product packages. As a result of plain packaging, the only authorized feature remaining on a tobacco package is the use of the brand name, displayed in a standard font, size, colour and location on the package. In opposing this new strategy, the tobacco industry is particularly keen on emphasizing the uselessness of plain packaging in reducing smoking rates and its incompatibility with trade mark provisions of international treaties. In particular, the tobacco industry and other regulated sectors believe that plain packaging jeopardizes trade mark rights and particularly contravenes several trade mark provisions outlined in the TRIPS Agreement and the Paris Convention for the Protection of Industrial Property. This article, after introducing the reader to the genesis and rationale of plain packaging within the broader context of the WHO Framework Convention on Tobacco Control, offers a detailed analysis of the compatibility of this tobacco control tool with the international system for trade mark protection as enshrined in the TRIPS

Ultrametric identities in glassy models of natural evolution

Spin-glasses constitute a well-grounded framework for evolutionary models. Of particular interest for (some of) these models is the lack of self-averaging of their order parameters (e.g. the Hamming distance between the genomes of two individuals), even in asymptotic limits, much as like what happens to the overlap between the configurations of two replica in mean-field spin-glasses. In the latter, this lack of self-averaging is related to a peculiar behavior of the overlap fluctuations, as described by the Ghirlanda–Guerra identities and by the Aizenman–Contucci polynomials, that cover a pivotal role in describing the ultrametric structure of the spin-glass landscape. As for evolutionary mod- els, such identities may therefore be related to a taxonomic classification of individuals, yet a full investigation on their validity is missing. In this paper, we study ultrametric identities in simple cases where solely random mutations take place, while selective pressure is absent, namely in flat landscape models. In particular, we study three paradigmatic models in this setting: the one parent model (which, by construction, is ultrametric at the level of single individu- als), the homogeneous population model (which is replica symmetric), and the species formation model (where a broken-replica scenario emerges at the level of species). We find analytical and numerical evidence that in the first and in the third model nor the Ghirlanda–Guerra neither the Aizenman–Contucci constraints hold, rather a new class of ultrametric identities is satisfied; in the second model all these constraints hold trivially. Very preliminary results on a real biological human genome derived by The 1000 Genome Project Consortium and on two artificial human genomes (generated by two different types neural networks) seem in better agreement with these new identities rather than the classic ones

Realization and characterization of graphitic contacts on diamond by means of laser

This work deals with the realization and characterization of integrated graphitic contacts on diamond by means of laser irradiation (graphitization), in order to obtain good quality ohmic electrodes for nuclear radiation detectors to be used in high energy physics experiments. Unlike the conventional method used for the electrode production, which requires numerous steps and very well controlled environmental conditions, this alternative technique presents many advantages: the contacts are realized in air at room temperature in a single step. In this study, the characteristics of several graphitic structures realized on a diamond surface by changing the radiation-matter interaction parameters have been evaluated in order to define the best experimental conditions to create graphitic electrodes with low resistivity. The obtained results are promising: contacts perfectly adherent, with good charge collection properties, stable and resistant to ionizing radiation

Radiation Damage of Polycrystalline CVD Diamond with Graphite Electrical Contacts

In this work we show preliminary results of radiation damage for a polycrystalline diamond with graphite contacts in terms of time response after 62 MeV protons irradiation for a total fluence of (2.0±0.08)×1015 protons/cm2. In addition, we describe the realization of a new type of device made with graphite micro-strips by laser micro-writing on diamond surface. In this way we made 20 graphite micro-strips of width about 87 m and spacing between each other of about 60 $\mu$m

FHR short and long-term variability associated with fetal breathing

Peer Reviewe

Metabolic Syndrome and Autoimmune Diabetes: Action LADA 3

OBJECTIVE—The purpose of this study was to estimate whether prevalence of metabolic syndrome in adult European diabetic patients is associated with type of diabetes