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Research Areas
Biography and Research Information
OverviewAI-generated summary
Matthew J. Igoe's research investigates cellular metabolism and immune cell function, particularly in the context of cancer. His work utilizes advanced imaging techniques to quantify metabolic changes in macrophages during immune responses and phagocytosis of tumor cells. He has published on the use of autofluorescence imaging to assess endogenous metabolic cofactors in stimulated macrophages. Igoe also studies the development of multicellular tumor spheroids, analyzing their structural and metabolic characteristics. His research explores the role of CD47 in macrophage function and its implications for cancer therapy. He has collaborated with Shelby N. Bess, Timothy J. Muldoon, Gaven K. Smart, and Abby C. Denison on multiple publications.
Metrics
- h-index: 4
- Publications: 5
- Citations: 31
Selected Publications
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The Physiological and Therapeutic Role of CD47 in Macrophage Function and Cancer (2024)
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Scaffold-free development of multicellular tumor spheroids with spatial characterization of structure and metabolic radial profiles (2024)
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Abstract 5549: Multicellular spheroid structural and metabolic characterization through radial line profiling (2024)
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Live-Cell Imaging Quantifies Changes in Function and Metabolic NADH Autofluorescence During Macrophage-Mediated Phagocytosis of Tumor Cells (2023)
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Autofluorescence imaging of endogenous metabolic cofactors in response to cytokine stimulation of classically activated macrophages (2023)
Collaboration Network
Top Collaborators
Shelby N. Bess
University of Arkansas at Fayetteville
5 shared publications
In database
- Autofluorescence imaging of endogenous metabolic cofactors in response to cytokine stimulation of classically activated macrophages
- Scaffold-free development of multicellular tumor spheroids with spatial characterization of structure and metabolic radial profiles
- The Physiological and Therapeutic Role of CD47 in Macrophage Function and Cancer
- Live-Cell Imaging Quantifies Changes in Function and Metabolic NADH Autofluorescence During Macrophage-Mediated Phagocytosis of Tumor Cells
- Abstract 5549: Multicellular spheroid structural and metabolic characterization through radial line profiling
Timothy J. Muldoon
University of Arkansas at Fayetteville
5 shared publications
In database
- Autofluorescence imaging of endogenous metabolic cofactors in response to cytokine stimulation of classically activated macrophages
- Scaffold-free development of multicellular tumor spheroids with spatial characterization of structure and metabolic radial profiles
- The Physiological and Therapeutic Role of CD47 in Macrophage Function and Cancer
- Live-Cell Imaging Quantifies Changes in Function and Metabolic NADH Autofluorescence During Macrophage-Mediated Phagocytosis of Tumor Cells
- Abstract 5549: Multicellular spheroid structural and metabolic characterization through radial line profiling
Gaven K. Smart
University of Arkansas at Fayetteville
2 shared publications
In database
- Scaffold-free development of multicellular tumor spheroids with spatial characterization of structure and metabolic radial profiles
- Abstract 5549: Multicellular spheroid structural and metabolic characterization through radial line profiling
Abby C. Denison
University of Arkansas at Fayetteville
1 shared publication
In database
- Autofluorescence imaging of endogenous metabolic cofactors in response to cytokine stimulation of classically activated macrophages
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