27 research outputs found

    Dr Hubert P.J.M. NOTEBORN

    No full text
    Évaluation du risque toxicologique des OGM Commission du génie biomoléculaire Évaluation de l’équivalence en substanc

    Emerging risks indentification on food and feed - EFSA

    Get PDF
    The European Food Safety Authority’s has established procedures for the identification of emerging risk in food and feed. The main objectives are to: (i) to carry out activities aiming at identifying, assessing and disseminating information on emerging issues and ensure coordination with relevant networks and international organisations; (ii) promote the identification of data sources and data collection and /or data generation in prioritised emerging issues; and the (iii) evaluate of the collected information and identify of emerging risks. The objective(s) of the Standing Working Group on Emerging Risks (SWG-ER) is tocollaborate with EFSA on the emerging risks identification (ERI) procedure and provide strategic direction for EFSA work building on past and ongoing projects related to EFSA ERI procedure. The SWG-ER considered the ERI methodologies in place and results obtained by EFSA. It was concluded that a systematic approach to the identification of emerging issues based on experts’ networks is the majorstrength of the procedure but at present, it is mainly focused on single issues, over short to medium time horizons, no consistent weighting or ranking is applied and clear governance of emerging risks with follow-up actions is missing. The analysis highlighted weaknesses with respect to data collection, analysis and integration. No methodology is in place to estimate the value of the procedure outputs in terms of avoided risk and there is urgent need for a communication strategy that addresses the lack of data and knowledge uncertainty and addresses risk perception issues. Recommendations were given in three areas: (i) Further develop a food system-based approach including the integration of social sciences to improve understanding of interactions and dynamics between actors and drivers and the development of horizon scanning protocols; (ii) Improve data processing pipelines to prepare big data analytics,implement a data validation system and develop data sharing agreements to explore mutual benefits; and (iii) Revise the EFSA procedure for emerging risk identification to increase transparency and improve communication

    Coverage of endangered species in environmental risk assessments at EFSA

    Get PDF
    The EFSA performs environmental risk assessment (ERA) for single potential stressors such as plantprotection products, genetically modified organisms and feed additives, and for invasive alien speciesthat are harmful to plant health. This ERA focusses primarily on the use or spread of such potentialstressors in an agricultural context, but also considers the impact on the wider environment. It isimportant to realise that the above potential stressors in most cases contribute a minor proportion ofthe total integrated pressure that ecosystems experience. The World Wildlife Fund listed the relativeattribution of threats contributing to the declines in animal populations as follows: 37% fromexploitation (fishing, hunting, etc.), 31% habitat degradation and change, 13% from habitat loss, 7%from climate change, and only 5% from invasive species, 4% from pollution and 2% from disease. Inthis scientific opinion, the Scientific Committee gathered scientific knowledge on the extent of coverageof endangered species in current ERA schemes that fall under the remit of EFSA. The legal basis andthe relevant ecological and biological features used to classify a species as endangered areinvestigated. The characteristics that determine vulnerability of endangered species are reviewed.Whether endangered species are more at risk from exposure to potential stressors than other non-target species is discussed, but specific protection goals for endangered species are not given. Due toa lack of effect and exposure data for the vast majority of endangered species, the reliability of usingdata from other species is a key issue for their ERA. This issue and other uncertainties are discussedwhen reviewing the coverage of endangered species in current ERA schemes. Potential tools, such aspopulation and landscape modelling and trait-based approaches, for extending the coverage ofendangered species in current ERA schemes, are explored and reported

    Switching the Mode of Drug Release from a Reaction-Coupled Low-Molecular-Weight Gelator System by Altering Its Reaction Pathway

    No full text
    Low-molecular-weight hydrogels are attractive scaffolds for drug delivery applications because of their modular and facile preparation starting from inexpensive molecular components. The molecular design of the hydrogelator results in a commitment to a particular release strategy, where either noncovalent or covalent bonding of the drug molecule dictates its rate and mechanism. Herein, we demonstrate an alternative approach using a reaction-coupled gelator to tune drug release in a facile and user-defined manner by altering the reaction pathway of the low-molecular-weight gelator (LMWG) and drug components through an acylhydrazone-bond-forming reaction. We show that an off-the-shelf drug with a reactive handle, doxorubicin, can be covalently bound to the gelator through its ketone moiety when the addition of the aldehyde component is delayed from 0 to 24 h, or noncovalently bound with its addition at 0 h. We also examine the use of an l-histidine methyl ester catalyst to prepare the drug-loaded hydrogels under physiological conditions. Fitting of the drug release profiles with the Korsmeyer-Peppas model corroborates a switch in the mode of release consistent with the reaction pathway taken: increased covalent ligation drives a transition from a Fickian to a semi-Fickian mode in the second stage of release with a decreased rate. Sustained release of doxorubicin from the reaction-coupled hydrogel is further confirmed in an MTT toxicity assay with MCF-7 breast cancer cells. We demonstrate the modularity and ease of the reaction-coupled approach to prepare drug-loaded self-assembled hydrogels in situ with tunable mechanics and drug release profiles that may find eventual applications in macroscale drug delivery. </p
    corecore