Functional Pulmonary Imaging.

Abstract

The aging of the world population gave rise to an increased prevalence of many lung diseases, with chronic obstructive pulmonary disease now ranking as the third-leading cause of death according to the World Health Organization. To diagnose lung disease, a thorough assessment of lung function is essential since it may reveal unique signatures in terms of disease pathophysiology. Yet, clinically established lung function tests are global measurements, which may compromise their sensitivity to early, regional changes in lung function compared to spatially resolved imaging tests. From a scientific perspective, the lung is a highly complex organ, and newly developed functional imaging methods may elucidate previously unknown aspects of its physiology. Functional pulmonary imaging is and will thus be of great value for both clinical and research applications. The goal of this review is to shed light on the field of functional pulmonary imaging in all its varieties, with a particular focus on the numerous tools MRI has to offer. This includes ¹H MRI methods with or without exogenous contrast agents like oxygen- or gadolinium-based contrast agents and MRI of hyperpolarized and inert gases like ¹²⁹Xe or perfluoropropane. However, thinking outside the box, a glance is also taken at what other modalities like single-photon emission computed tomography, computed tomography, or X-ray dark-field imaging have to offer. Following a physiological perspective, methods are described in terms of their ability to assess the key parameters of lung physiology in humans-ventilation, perfusion, and alveolar membrane function, as well as microstructure-and promising clinical and research applications are discussed. An outlook into possible future paths the field might take is given. Evidence Level: 5. Technical Efficacy: 2.