K
Katelin S. Matazel Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
faculty
9 h-index
18 pubs
541 cited
Research Areas
Biography and Research Information
OverviewAI-generated summary
Katelin S. Matazel's research investigates the impact of human milk bioactives on infant gut and immune health, as well as the broader metabolic profiles of milk-fed versus formula-fed piglets. Her work has explored how human milk oligosaccharides influence cellular and inflammatory gene expression and immune responses. Matazel has also contributed to studies modeling neurovascular dysfunction in Alzheimer's disease using isogenic brain-chip models. Her scholarship metrics include an h-index of 9 and 527 total citations across 18 publications. Key collaborators include Héctor Rosas-Hernández and W. Drew Gill, with whom she has co-authored five publications, and Andrew Shen, with whom she has two shared publications.
Metrics
- h-index: 9
- Publications: 18
- Citations: 541
Selected Publications
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Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model (2026)
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Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model (2026)
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Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model (2026)
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Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model (2026)
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Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model (2026)
Collaboration Network
Top Collaborators
W. Drew Gill
National Center for Toxicological Research
5 shared publications
In database
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
Lorna Ewart
Emulate (United States) (US)
5 shared publications
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
Randy S. Daughters
Emulate (United States) (US)
5 shared publications
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
Héctor Rosas-Hernández
5 shared publications
In database
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
Fernanda Rosa
Arkansas Children's Nutrition Center (US)
3 shared publications
- Role of Human Milk Bioactives on Infants' Gut and Immune Health
- Human Milk Oligosaccharides Impact Cellular and Inflammatory Gene Expression and Immune Response
- Human Milk-Fed Piglets Have a Distinct Small Intestine and Circulatory Metabolome Profile Relative to That of Milk Formula-Fed Piglets
Ahmed A. Elolimy
Agricultural Research Service (US)
3 shared publications
- Role of Human Milk Bioactives on Infants' Gut and Immune Health
- Human Milk Oligosaccharides Impact Cellular and Inflammatory Gene Expression and Immune Response
- Human Milk-Fed Piglets Have a Distinct Small Intestine and Circulatory Metabolome Profile Relative to That of Milk Formula-Fed Piglets
Laxmi Yeruva
United States Department of Agriculture (US)
3 shared publications
- Role of Human Milk Bioactives on Infants' Gut and Immune Health
- Human Milk Oligosaccharides Impact Cellular and Inflammatory Gene Expression and Immune Response
- Human Milk-Fed Piglets Have a Distinct Small Intestine and Circulatory Metabolome Profile Relative to That of Milk Formula-Fed Piglets
Andrew Shen
National Center for Toxicological Research
3 shared publications
In database
- Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Additional file 1 of Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
K. D. Williams
University of Arkansas for Medical Sciences (US)
2 shared publications
- Human Milk Oligosaccharides Impact Cellular and Inflammatory Gene Expression and Immune Response
- Human Milk-Fed Piglets Have a Distinct Small Intestine and Circulatory Metabolome Profile Relative to That of Milk Formula-Fed Piglets
Lars Bode
University of California, San Diego (US)
2 shared publications
- Human Milk Oligosaccharides Impact Cellular and Inflammatory Gene Expression and Immune Response
- Human Milk-Fed Piglets Have a Distinct Small Intestine and Circulatory Metabolome Profile Relative to That of Milk Formula-Fed Piglets
Andrew N. Shen
National Center for Toxicological Research (US)
2 shared publications
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
- Modeling neurovascular dysfunction in Alzheimer’s disease using an isogenic brain-chip model
Sean H. Adams
University of Arkansas for Medical Sciences
1 shared publication
In database
- Human Milk-Fed Piglets Have a Distinct Small Intestine and Circulatory Metabolome Profile Relative to That of Milk Formula-Fed Piglets
Anne K. Bowlin
University of Arkansas for Medical Sciences
1 shared publication
In database
- Human Milk-Fed Piglets Have a Distinct Small Intestine and Circulatory Metabolome Profile Relative to That of Milk Formula-Fed Piglets
Laura E. Carr
University of Arkansas for Medical Sciences
1 shared publication
In database
- Role of Human Milk Bioactives on Infants' Gut and Immune Health
Misty Virmani
University of Arkansas for Medical Sciences
1 shared publication
In database
- Role of Human Milk Bioactives on Infants' Gut and Immune Health
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