Rabab N. Hamzah

Researcher

UAMS
Last publication 2022 Last refreshed 2026-05-09

faculty

8 h-index 15 pubs 277 cited

Research Areas

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ORCID

OverviewAI-generated summary

Rabab N. Hamzah's research focuses on the development and application of nanoparticles and exosomes for theranostic purposes. Her work investigates the traceability and composition of exosomes, exploring their potential to modulate the tumor microenvironment. Hamzah has published on the use of nanoparticle-labeled exosomes as theranostic agents and has explored gold nanorod substrates for directing stem cell differentiation. Her research also extends to the development of biomedical devices with controlled disassembly for in vivo testing. She has co-authored 15 publications, with a total of 272 citations and an h-index of 8. Hamzah collaborates with researchers from the University of Arkansas for Medical Sciences and the University of Arkansas at Little Rock. Her recent work includes studies on exosome traceability, nanoparticle-labeled exosomes, and polymeric biomedical devices.

Metrics

  • h-index: 8
  • Publications: 15
  • Citations: 277

Selected Publications

  • Nanoparticle-Labeled Exosomes as Theranostic Agents: A Review (2022)
    12 citations DOI OpenAlex
  • Author Correction: Molecular events in MSC exosome mediated cytoprotection in cardiomyocytes (2022)
    2 citations DOI OpenAlex
  • Gold Nanorod Substrate for Rat Fetal Neural Stem Cell Differentiation into Oligodendrocytes (2022)
    6 citations DOI OpenAlex
  • Identification and functional characterization of multiple inositol polyphosphate phosphatase1 (Minpp1) isoform-2 in exosomes with potential to modulate tumor microenvironment (2022)
    6 citations DOI OpenAlex
  • Development of a polymeric biomedical device platform with controlled disassembly and in vivo testing in a swine intestinal model (2022)
    DOI OpenAlex
  • Exosome Traceability and Cell Source Dependence on Composition and Cell-Cell Cross Talk (2021)
    72 citations DOI OpenAlex

View all publications on OpenAlex →

Collaboration Network

25 Collaborators 7 Institutions 1 Country

Top Collaborators

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