Adam Griffiths scite author profile

Adam Griffiths

3Publications

67Citation Statements Received

50Citation Statements Given

How they've been cited

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145

Affiliations

Vrije Universiteit Brussel, Health Canada, De Montfort University

Publications

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Severe Neurodegeneration with Impaired Autophagy Mechanism Triggered by Ostm1 Deficiency

Héraud

Griffiths

Pandruvada

et al. 2014

Journal of Biological Chemistry

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Background: Although loss of the Ostm1 gene leads to the most severe form of osteopetrosis, Ostm1 is expressed in other tissues, including the CNS. Results: Independently of hematopoietic lineages, loss of Ostm1 results in acute neurodegeneration with enhanced autophagy. Conclusion: We present evidence for an Ostm1 cell-autonomous role in neurons. Significance: This study shows a novel molecular pathogenic mechanism for neurodegeneration-related diseases.

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Fate and exposure modeling in regulatory chemical evaluation: new directions from retrospection

Bonnell

Zidek

Griffiths

et al. 2018

Environ. Sci.: Processes Impacts

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The development and application of fate and exposure modeling has undergone fundamental changes over the last 20 years. This has, in part, been driven by different needs within the regulatory community to address chemicals of concern using different approaches. Here we present a retrospective look at fate and exposure model application over the last two decades keeping an international regulatory perspective and using the Government of Canada's Chemicals Management Plan to illustrate concepts. We discuss the important role fate and exposure modeling has played to help address key data gaps when evaluating the risk of chemicals for both human health and ecological reasons. Yet limitations for more widespread model application within a regulatory context remain. Consequently, we identify specific data gaps and regulatory needs with an eye towards new directions for 21 century chemical evaluation. We suggest that one factor limiting greater model application is the need for increased awareness and agreement of what chemical exposure assessment encompasses within the risk assessment paradigm. This is of particular importance today because of the increased availability of computational and high-throughput data and methods for chemical assessment allowing evaluators to potentially examine exposure from site of release to site of toxic action, thus linking exposure with toxicology. We further suggest there is a need for discussion at a global level to promote the awareness of new tools and approaches available for fate and exposure modeling and suggest that this could be organized using the aggregate exposure pathways concept.

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A script for initiating molecular biology studies with non-conventional yeasts based on Saccharomycopsis schoenii

Kayacan

Griffiths

Wendland

2019

Microbiological Research

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Adam Griffiths

Severe Neurodegeneration with Impaired Autophagy Mechanism Triggered by Ostm1 Deficiency

Fate and exposure modeling in regulatory chemical evaluation: new directions from retrospection

A script for initiating molecular biology studies with non-conventional yeasts based on Saccharomycopsis schoenii

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