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Toxicological Risk Assessment
An initiative of
24 October 2013 - UCL - Brussels (Woluwe)
Louvain Centre for Toxicology and Applied Pharmacology
Université catholique de Louvain
Pr Alfred Bernard Research Director FNRS
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Potential of University Research Centres for Toxicological Risk Assessment
• Academic and scientific independence
• Commitment to high quality science (ethics, integrity,
objectivity, transparency, confidentiality…)
• Production of results that are applicable and publishable
(peer-review journals)
• Scientific knowledge rooted in basic research (e.g.
translational medicine or from « bench to bedside »)
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Potential of University Research Centres for Toxicological Risk Assessment
• Development of advanced risk assessment methodologies
(e.g. non-invasive biomarkers)
• Critical and evidence-based reasoning (causal inference,
statistical and analytical limitations,..)
• Detection of emerging risks (e.g. nanoparticles and CBPs )
• Studies among patients or populations at risk in the
industry or environment
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Fields of expertise and industrial targets
LTAP: an interdisciplinary expertise
• Development of non-invasive biomarkers to detect early effects of
environmental pollutants (A. Bernard)
• Biological monitoring of exposure to chemicals (V. Haufroid)
• Physico-chemical properties and toxicity of nanoparticles (D. Lison)
• Experimental models of lung inflammation and fibrosis (F. Huaux)
• Evaluation of health hazards and risks of chemical substances (P. Hoet)
• Systematic review and meta-analysis (G. Van Maele-Fabry)
• Critical care toxicology: from the management of acute poisoning to the
investigation of the mechanisms of toxicity (P. Hantson)
• Treatment of Cystic Fibrosis (T. Leal)
• Therapeutic drug monitoring and population pharmacokinetics (P. Wallemacq)
• Human pharmacogenomics (V. Haufroid)
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Risks of low-level environmental Cd: toxicity or extrapolation fallacy ?
In industrial workers, urinary Cd is a well-validated biomarker of the Cd body burden. What about the general population ?
Variations of urinary Cd over lifetime in the general population of Belgium (Chaumont et al., Environ
Health Perspectives, 2013)
Toxicokinetic model developed by EFSA for assessing the risk of Cd in food
(Amzal et al., , Environ Health Perspectives, 2009)
EFSA LTAP
Biomarkers of kidney toxicity: LMW urinary proteins
Derivation of the threshold of urinary Cd associated with an increased risk of renal dysfunction in an international cohort of Cd battery workers (n=599)
Chaumont et al., Occup Environ Medicine, 2011
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Biomarkers of lung toxicity: serum lung-specific proteins
Persistent defects of airways epithelium in adolescents (n=800) with the highest attendance at chlorinated pools during childhood (top quintile). A, girls; B, boys.
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Meta-analysis: pooling data from independent studies
Risk of Parkinson disease associated with occupationnal exposure to pesticides
(Van Maele-Fabry et al., 2012)
Risk of childhood brain tumour associated with parental exposure to pesticides
(Van Maele-Fabry et al,. 2013)
Risk Risk
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Emerging risks: indium (IT0)
Pulmonary alveolar proteinosis induced by indium-tin oxide
Industrial workers Cummings et al. 2010
Rat Lison et al., 2010
Biomonitoring of occupational exposure to indium-tin oxide
Hoet et al., 2012
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Muller et al.,Toxicol Appl Pharmacology, 2005
Emerging risks: lung toxicity of carbon nanotubes
Experimental evidence of inflammatory and fibrotic reactions in rat two months after the intra-tracheal administration of multi-wall carbon nanotubes
Visit the LTAP after this session !
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Special equipments
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Contacts
Pr Alfred Bernard FNRS Research Director [email protected] +32 2 764 53 34 Pr Dominique Lison Director of LTAP [email protected] +32 2 764 53 31
Université catholique de Louvain Louvain Centre for Toxicology and
Applied Pharmacology Tour Pasteur
avenue E. Mounier, 53- box B1-52-12 1200 Brussels, Belgium
http://www.toxi.ucl.ac.be/