Abdussaboor Muhammad Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
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Research Areas
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Biography and Research Information
OverviewAI-generated summary
Abdussaboor Muhammad's research investigates the relationship between tumor perfusion and angiogenesis markers in primary colorectal tumors. His work examines distinct signatures associated with different chemotherapy strategies, specifically metronomic and maximum-tolerated dose approaches. Muhammad has published research comparing these strategies in both human and murine colorectal tumor models. His recent publications, including a 2022 study, explore longitudinal tracking of perfusion and angiogenesis markers to understand their role in treatment responses. He has collaborated with researchers at the University of Arkansas at Fayetteville, including Timothy J. Muldoon and Kerlin Balza, and at the University of Arkansas at Little Rock, including Christopher E. Nelson.
Metrics
- h-index: 1
- Publications: 3
- Citations: 7
Selected Publications
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Longitudinal examination of perfusion and angiogenesis markers in primary colorectal tumors shows distinct signatures for metronomic and maximum-tolerated dose strategies (2022)
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Longitudinal examination of perfusion and angiogenesis markers in primary colorectal tumors shows distinct signatures for metronomic and maximum-tolerated dose strategies (2022)
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Optical and molecular longitudinal tracking of primary colorectal murine tumors shows differences in the angiogenic response to maximum-tolerated and metronomic approaches (2021)
Collaboration Network
Top Collaborators
- Longitudinal examination of perfusion and angiogenesis markers in primary colorectal tumors shows distinct signatures for metronomic and maximum-tolerated dose strategies
- Longitudinal examination of perfusion and angiogenesis markers in primary colorectal tumors shows distinct signatures for metronomic and maximum-tolerated dose strategies
- Optical and molecular longitudinal tracking of primary colorectal murine tumors shows differences in the angiogenic response to maximum-tolerated and metronomic approaches
- Longitudinal examination of perfusion and angiogenesis markers in primary colorectal tumors shows distinct signatures for metronomic and maximum-tolerated dose strategies
- Longitudinal examination of perfusion and angiogenesis markers in primary colorectal tumors shows distinct signatures for metronomic and maximum-tolerated dose strategies
- Optical and molecular longitudinal tracking of primary colorectal murine tumors shows differences in the angiogenic response to maximum-tolerated and metronomic approaches
- Longitudinal examination of perfusion and angiogenesis markers in primary colorectal tumors shows distinct signatures for metronomic and maximum-tolerated dose strategies
- Longitudinal examination of perfusion and angiogenesis markers in primary colorectal tumors shows distinct signatures for metronomic and maximum-tolerated dose strategies
- Longitudinal examination of perfusion and angiogenesis markers in primary colorectal tumors shows distinct signatures for metronomic and maximum-tolerated dose strategies
- Longitudinal examination of perfusion and angiogenesis markers in primary colorectal tumors shows distinct signatures for metronomic and maximum-tolerated dose strategies
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