Landon B. Gatrell

Researcher

UAMS
Last publication 2025 Last refreshed 2026-03-16

unknown

2 h-index 4 pubs 16 cited

Research Areas

OverviewAI-generated summary

Landon B. Gatrell's research investigates cellular mechanisms related to aging, bone development, and tissue repair. His work has explored the role of the NAD salvage pathway in skeletal development in mice and the impact of mitochondrial oxidative stress and autophagy on bone mechanoresponsiveness in aging. Gatrell has also studied the effects of chemotherapy on bone mass and the contribution of cellular senescence to fibrotic repair in preclinical models. His publications include research on single-cell RNA sequencing of mesenchymal populations to identify pathways altered in age-associated osteoarthritis and the development of a transgenic rat model for assessing chondrogenesis <i>in vivo</i>. Gatrell collaborates with researchers at the University of Arkansas for Medical Sciences, including Aaron Warren and Maria Almeida.

Metrics

  • h-index: 2
  • Publications: 4
  • Citations: 16

Selected Publications

  • The Aging Landscape by <scp>scRNAseq</scp> of Mesenchymal Lineage Cells in Mouse Bone (2025)
    1 citation DOI OpenAlex
  • The adverse effects of chemotherapy on bone mass are not prevented by senolytics (2025)
    DOI OpenAlex
  • Fibrocartilage repair involves chronic cellular senescence in a rat model of bone marrow stimulation (2025)
    DOI OpenAlex
  • Mitochondrial oxidative stress or decreased autophagy in osteoblast lineage cells is not sufficient to mimic the deleterious effects of aging on bone mechanoresponsiveness (2025)
    4 citations DOI OpenAlex
  • Single cell RNA sequencing of mesenchymal populations from murine knees reveals distinct pathways altered in age-associated versus post-traumatic osteoarthritis (2024)
    DOI OpenAlex
  • CHRONIC SENESCENCE CONTRIBUTES TO FIBROCARTILAGE REPAIR IN A PRECLINICAL MODEL OF BONE MARROW STIMULATION (2024)
    DOI OpenAlex
  • The NAD salvage pathway in mesenchymal cells is indispensable for skeletal development in mice (2023)
    14 citations DOI OpenAlex
  • A Transgenic Rat for Noninvasive Assessment of Chondrogenesis <i>in Vivo</i> (2021)
    2 citations DOI OpenAlex

View all publications on OpenAlex →

Collaboration Network

18 Collaborators 6 Institutions 2 Countries

Top Collaborators

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