J
James Raymick Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
faculty
18 h-index
37 pubs
1,083 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
James Raymick's research centers on neurodegenerative diseases, particularly Alzheimer's disease, and the role of metals and diet in its progression. His work investigates the localization of amyloid plaques and tangles in brain tissue, utilizing techniques such as Congo Red labeling and modified K114 methods. Raymick has explored the potential link between high-fat diets and the expression of Alzheimer's-related genes in the enteric mucosa of rat models. He has also evaluated the affinity of styrylbenzene analogs for binding parenchymal plaques and tangles in human Alzheimer's patients. Furthermore, his research includes the application of proteomics to identify circulating biomarkers of neurotoxicity, offering fluidic endpoints for central nervous system toxicity in rodent models. Raymick has published 37 papers, accumulating 1,074 citations and an h-index of 18. He has collaborated with several researchers at the National Center for Toxicological Research, including Sumit Sarkar on six shared publications.
Metrics
- h-index: 18
- Publications: 37
- Citations: 1,083
Selected Publications
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Potential link of high fat diet and mRNA expression of Alzheimer's disease-related genes in the enteric mucosa of a rat model of Alzheimer's disease (2025)
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Evaluation and Characterization of Modified K114 Method to LocalizePlaques in Rodent and Plaques and Tangles in Human Brain Tissue (2024)
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Evaluation of Styrylbenzene analog- FSB and its affinity to bind parenchymal plaques and tangles in patients of Alzheimer’s disease (2022)
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Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity (2021)
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Role of metals in Alzheimer’s disease (2021)
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In vivo demonstration of Congo Red labeled amyloid plaques via perfusion in the Alzheimer disease rat model (2021)
Collaboration Network
Top Collaborators
Sumit Sarkar
National Center for Toxicological Research
6 shared publications
In database
- Role of metals in Alzheimer’s disease
- In vivo demonstration of Congo Red labeled amyloid plaques via perfusion in the Alzheimer disease rat model
- Evaluation and Characterization of Modified K114 Method to LocalizePlaques in Rodent and Plaques and Tangles in Human Brain Tissue
- Evaluation of Styrylbenzene analog- FSB and its affinity to bind parenchymal plaques and tangles in patients of Alzheimer’s disease
- Potential link of high fat diet and mRNA expression of Alzheimer's disease-related genes in the enteric mucosa of a rat model of Alzheimer's disease
Showing 5 of 6 shared publications
Joseph P. Hanig
Center for Drug Evaluation and Research (US)
4 shared publications
- In vivo demonstration of Congo Red labeled amyloid plaques via perfusion in the Alzheimer disease rat model
- Evaluation and Characterization of Modified K114 Method to LocalizePlaques in Rodent and Plaques and Tangles in Human Brain Tissue
- Evaluation of Styrylbenzene analog- FSB and its affinity to bind parenchymal plaques and tangles in patients of Alzheimer’s disease
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
Sharay E. Setti
National Center for Toxicological Research (US)
3 shared publications
- In vivo demonstration of Congo Red labeled amyloid plaques via perfusion in the Alzheimer disease rat model
- Evaluation and Characterization of Modified K114 Method to LocalizePlaques in Rodent and Plaques and Tangles in Human Brain Tissue
- Evaluation of Styrylbenzene analog- FSB and its affinity to bind parenchymal plaques and tangles in patients of Alzheimer’s disease
Nikita Das
National Center for Toxicological Research (US)
2 shared publications
- Role of metals in Alzheimer’s disease
- Evaluation of Styrylbenzene analog- FSB and its affinity to bind parenchymal plaques and tangles in patients of Alzheimer’s disease
Syed Imam
United States Food and Drug Administration (US)
1 shared publication
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
Zhen He
National Center for Toxicological Research (US)
1 shared publication
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
Sarah Rogstad
National Center for Toxicological Research (US)
1 shared publication
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
Susan M. Burks
National Center for Toxicological Research
1 shared publication
In database
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
Bonnie Robinson
United States Food and Drug Administration
1 shared publication
In database
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
Elvis Cuevas
United States Food and Drug Administration (US)
1 shared publication
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
Charles Law
United States Food and Drug Administration (US)
1 shared publication
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
David W. Herr
Research Triangle Park Foundation (US)
1 shared publication
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
Denise K. MacMillan
Research Triangle Park Foundation (US)
1 shared publication
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
Aaron T. Smith
Eli Lilly (United States) (US)
1 shared publication
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
Serguei Liachenko
United States Food and Drug Administration
1 shared publication
In database
- Circulating biomarkers of neurotoxicity: Proteomics approach reveals fluidic endpoints of central nervous system toxicity in a rodent model of neurotoxicity
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