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His lab has focused over the past decade on using physics and engineering based approaches to understand and describe physiological systems in health and disease.
Mechanical (pressure and shear stress), neuronal (sympathetic tone), metabolic (ATP release) and humoral (circulating small molecules, e.g. Angiotensin II) stimuli are integrated locally in the resistance vessels of the vasculature to govern blood flow. Research on this topic focuses on utilizing experimental and theoretical methods to define the mechanisms transducing these stimuli into changes in vessel caliber and hence blood flow.
Mechanical (pressure and shear stress), neuronal (sympathetic tone), metabolic (ATP release) and humoral (circulating small molecules, e.g. Angiotensin II) stimuli are integrated locally in the resistance vessels of the vasculature to govern blood flow. Research on this topic focuses on utilizing experimental and theoretical methods to define the mechanisms transducing these stimuli into changes in vessel caliber and hence blood flow.
Research Interests
Papers共 79 篇Author StatisticsCo-AuthorSimilar Experts
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Mathematical biosciencespp.109242-109242, (2024)
Journal of Molecular and Cellular Cardiology (2024): 94-108
PHYSIOLOGY (2023)
Nature Communicationsno. 1 (2021): 1447-1447
Journal of molecular and cellular cardiology (2021): 33-55
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