American journal of respiratory and critical care medicine
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FEV1, measured using spirometry, provides a straightforward, widely available, and inexpensive global measurement of airflow limitation and lung function. For decades, FEV1 has remained the main intermediate endpoint used in research studies and for the development of new chronic obstructive pulmonary disease (COPD) therapies. Not surprisingly, treatments that acutely improve FEV1 dominate as COPD therapies. ⋯ In individual patients and in COPD cohort studies, thoracic imaging using X-ray computed tomography, and magnetic resonance imaging (conventional (1)H as well as hyperpolarized noble gases such as (129)Xe, (3)He, and inhaled O2 and (19)F) can be used to directly visualize the structural and functional consequences of COPD and thus provide a clearer picture of COPD mechanisms, disease progression, and response to therapy. We briefly describe pulmonary imaging methods that provide a way to visualize and quantify, with high spatial and temporal resolution, regional ventilation abnormalities, gas trapping, emphysema, and airway remodeling in COPD. Finally, we discuss the implications of recent imaging findings and their impact on future biomarker and therapy research aimed at improving COPD outcomes.