Scott Harris, MD

Scott Harris, MD

The Harris Lab is a multi-disciplinary, inter-departmental group of investigators aiming to advance the understanding of whole-organ physiology and pathophysiology of the human lung through the development and implementation of advanced imaging techniques, sophisticated mathematical and computer modeling and bioengineering. In our studies, we apply rigorous quantitative tools to investigate the complex structure-function relationships of healthy and diseased lungs.


Redistribution of Pulmonary Perfusion During Bronchoconstriction in Asthma

Research in asthma has focused on the airways, however, little is known about how regional pulmonary perfusion changes during an asthma attack. Recent studies from our lab using positron emission tomography (PET) functional imaging have shown for the first time that dramatic perfusion redistribution, away from patchy areas of low ventilation, take place in spontaneously breathing human subjects with asthma during methacholine-induced bronchoconstriction.

The long-term objective of this research is to understand the mechanisms of, and factors that modify, the regional perfusion redistribution during bronchoconstriction in asthma. The main hypotheses to be tested in this project are:

  • The redistribution of perfusion away from ventilation defects is primarily caused by hypoxic pulmonary vasoconstriction and is not solely an artifact of methacholine-induced bronchoconstriction
  • For a given degree of constrictive stimulus, the redistribution of perfusion away from poorly ventilated areas will be less effective in the supine than in the prone position because gravitational forces would tend to oppose the effectiveness of hypoxic vasoconstriction.

These hypotheses will be tested using state-of-the-art PET-CT functional imaging of regional perfusion and ventilation with the following specific aims:

  • Assess whether elimination of the hypoxic stimulus by breathing a high oxygen concentration blunts the redistribution of perfusion during methacholine-induced bronchoconstriction
  • Assess whether a similar perfusion redistribution occurs during bronchoconstriction induced by other bronchoconstrictive stimuli and, if so, evaluate the extent to which hypoxic pulmonary vasoconstriction is involved in that redistribution
  • Compare the magnitude of redistribution of perfusion away from poorly ventilated regions in the prone and supine positions breathing with and without a high oxygen concentration

This research is designed to improve our understanding of the mechanisms that match blood flow and airflow in the lungs during an asthma attack and how these change during recovery from an asthma attack. Knowledge of this important lung function may lead to improved asthma therapy and possibly reduce asthma-related deaths.

Group Members

R. Scott Harris, M.D., Principal Investigator


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