Fibi Meshrkey Data-verified

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

Research Associate at the University o

University of Arkansas
Last publication 2026 Last refreshed 2026-05-16

postdoc

5 h-index 22 pubs 118 cited

Research Areas

Links

ORCID Lab Website Research Group

OverviewAI-generated summary

Fibi Meshrkey's research focuses on the quantitative analysis of cellular morphologies, particularly mitochondria, in human induced pluripotent stem cells (iPSCs). Meshrkey has investigated the alterations in mitochondrial morphology and bioenergetics observed in iPSCs derived from patients with mitochondrial mutations, such as those associated with Leigh syndrome and tRNA mutations. This work utilizes advanced imaging techniques and computational approaches, including software developed for analyzing mitochondrial shapes in both single cells and clustered stem cells. Meshrkey also studies the temporal dynamics of extracellular matrix remodeling in contexts such as anthracycline-induced cardiotoxicity. Collaborators include Bibhuti Ballav Saikia and Joshua Stabach, with whom Meshrkey has co-authored multiple publications.

Metrics

  • h-index: 5
  • Publications: 22
  • Citations: 118

Selected Publications

  • Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Additional file 4 of Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Additional file 3 of Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Additional file 4 of Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Additional file 5 of Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Additional file 1 of Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Additional file 2 of Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Additional file 3 of Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Additional file 1 of Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Additional file 5 of Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Additional file 2 of Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Impaired mitochondrial morphology and respiratory dysfunction in human induced pluripotent stem cells with mitochondrial tRNA mutations (m.3243A>G and m.14739G>A) (2026)
    DOI OpenAlex
  • Temporal Dynamics of Extracellular Matrix Remodeling in Anthracycline-Induced Cardiotoxicity (2025)
    1 citation DOI OpenAlex
  • Induced pluripotent stem cells derived from patients carrying mitochondrial mutations exhibit altered bioenergetics and aberrant differentiation potential (2023)
    10 citations DOI OpenAlex

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Collaboration Network

47 Collaborators 26 Institutions 5 Countries

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