Payton Phelps Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
unknown
Research Areas
Biography and Research Information
OverviewAI-generated summary
Payton Phelps' research focuses on skeletal muscle regeneration and repair, particularly in the context of volumetric muscle loss injuries. Phelps has investigated the role of Interleukin-10 (IL-10) in modulating the immune response to enhance muscle repair, with findings published in 2023 and 2022. Additionally, Phelps has explored the use of cell-derived extracellular matrix fiber scaffolds as a method to improve recovery from volumetric muscle loss injuries, as detailed in a 2023 publication. This work involves animal models, specifically rats, and examines aspects of immunity, muscle fibers, and tissue engineering. Phelps has collaborated with researchers at the University of Arkansas at Fayetteville, including Jeffrey C. Wolchok and Tai Huynh, on multiple publications. Phelps' scholarly output includes 3 total publications with 41 citations and an h-index of 2.
Metrics
- h-index: 2
- Publications: 3
- Citations: 42
Selected Publications
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Cell-Derived Extracellular Matrix Fiber Scaffolds Improve Recovery from Volumetric Muscle Loss (2023)
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Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury (2023)
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Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury (2022)
Collaboration Network
Top Collaborators
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Cell-Derived Extracellular Matrix Fiber Scaffolds Improve Recovery from Volumetric Muscle Loss
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Cell-Derived Extracellular Matrix Fiber Scaffolds Improve Recovery from Volumetric Muscle Loss
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Cell-Derived Extracellular Matrix Fiber Scaffolds Improve Recovery from Volumetric Muscle Loss
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Local IL-10 delivery modulates the immune response and enhances repair of volumetric muscle loss muscle injury
- Cell-Derived Extracellular Matrix Fiber Scaffolds Improve Recovery from Volumetric Muscle Loss
- Cell-Derived Extracellular Matrix Fiber Scaffolds Improve Recovery from Volumetric Muscle Loss
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