Thomas B. Knudsen
Environmental Science · Indiana University
Publications
239
Citations
12,618
Est. group size
—
Recurring co-author estimate
Active years
54
Publishing since 1973
Thomas B. Knudsen studies how chemicals can affect development and health, with a focus on replacing traditional animal testing with new approaches such as computer models ('virtual embryos'), stem cell assays, and high-throughput laboratory screening. His work aims to predict developmental toxicity (harm to embryos and fetuses) and support chemical safety assessment for regulatory purposes. He also contributes to systematic reviews and expert panels on toxicology and environmental health.
Publication output was higher in the late 2010s (around 11-15 per year) and has slowed to roughly 5-6 per year over the last five years.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Food and Drug Administration Expert Panel on Infant Formula “Operation Stork Speed” June 2025: Part 1, Nutrient Considerations
Advances in Nutrition · 2026
- Food and Drug Administration Expert Panel on Infant Formula “Operation Stork Speed” June 2025: Part 2, Regulatory and Safety Considerations
Advances in Nutrition · 2026
- Peer Review Report For: Abstract Sifter version 8: Focus on the chemical literature [version 2; peer review: 1 approved]
2026
- Mapping out strategies to further develop human-relevant, new approach methodology (NAM)-based developmental neurotoxicity (DNT) testing
ALTEX · 2025
- Developmental neurotoxicity (DNT): A call for implementation of new approach methodologies for regulatory purposes: Summary of the 5th International Conference on DNT Testing
ALTEX · 2025
- High-throughput cytokine detection platform for evaluation of chemical induced microglial activation
SLAS TECHNOLOGY · 2025
- Abstract Sifter version 8: Focus on the chemical literature
F1000Research · 2025
- Protecting Human and Animal Health: The Road from Animal Models to New Approach Methods
Pharmacological Reviews · 2024
- Development and validation of CYP26A1 inhibition assay for high‐throughput screening
Biotechnology Journal · 2024
- Engineering a computable epiblast for in silico modeling of developmental toxicity
Reproductive Toxicology · 2024
- Improving the Quality of Toxicology and Environmental Health Systematic Reviews: What Journal Editors Can Do
UNC Libraries · 2024
- Microglial dynamics, blood-brain barrier morphogenesis, and developmental toxicity: A brief review and computational model
Current Opinion in Toxicology · 2023
- S27-27: Ontologies as the basis for in silico reconstruction of tissue dynamics
Toxicology Letters · 2023
- Engineering a Computable Epiblast for in silico Modeling of Developmental Toxicity
Preprints.org · 2023
- Society for birth defects research and prevention's multidisciplinary research needs workshop 2022: A call to action
Birth Defects Research · 2023
- Reproductive Toxicology×14
- INDIGO (University of Illinois at Chicago)×11
- Toxicology Letters×8
- Toxicological Sciences×7
- Birth Defects Research×7
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
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