Nathan Goldsmith
About Nathan Goldsmith
Nathan Goldsmith is a toxicologist with a PhD from St George's, University of London. He has expertise in endocrine disruptor assessments and currently works at Exponent in Harrogate, United Kingdom, focusing on data gap analysis for pesticides and biocides.
Work at Exponent
Nathan Goldsmith has been employed at Exponent as a Toxicologist since 2019. His role is based in Harrogate, United Kingdom. At Exponent, he is involved in various toxicological assessments, focusing on data gap analysis for pesticides and biocides. His work contributes to understanding the safety and regulatory compliance of chemical substances.
Education and Expertise
Nathan Goldsmith holds a Bachelor's Degree in Physiology from The Manchester Metropolitan University, where he studied from 2010 to 2014. He furthered his education with a Master's Degree in Drug Toxicology and Safety Pharmacology from the University of Bradford, completed in 2015. He earned his Doctor of Philosophy (PhD) in Toxicology from St George's, University of London, between 2015 and 2019. His expertise includes summarizing and assessing GLP study reports according to OECD test guidelines.
Background
Nathan Goldsmith completed his secondary education at Prince Henry's Grammar School. His academic journey in the field of toxicology began with a focus on physiology, which laid the foundation for his advanced studies in drug toxicology and safety pharmacology, culminating in a PhD in Toxicology.
Research Involvement
Nathan Goldsmith has been involved in research related to endocrine disruptor assessments and genetic toxicology studies. His academic background and current work at Exponent reflect a strong commitment to advancing knowledge in toxicology and safety evaluation.
Technical Skills
Nathan Goldsmith possesses extensive experience in method development, validation, and execution of various analytical techniques. His skills include using UHPLC-MS, GC-MS, ICP-MS, RT-qPCR, flow cytometry, and conducting cell cytotoxicity and viability assays. These techniques are essential for conducting rigorous toxicological assessments.