Quantification of Regional Ventilation-Perfusion Ratios with PET

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Basic Science Investigations

Quantification of Regional Ventilation-Perfusion Ratios with PET

Marcos F. Vidal Melo, MD, PhD¹, Dominick Layfield, MSc², R. Scott Harris, MD³, Kevin O’Neill, MSc², Guido Musch, MD¹, Torsten Richter, MD⁴, Tilo Winkler, PhD¹, Alan J. Fischman, MD, PhD⁵ and Jose G. Venegas, PhD¹

¹ Department of Anesthesia and Critical Care, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts
² School of Engineering, Massachusetts Institute of Technology, Boston, Massachusetts
³ Pulmonary and Critical Care Unit, Department of Medicine, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts
⁴ Clinic of Anesthesiology and Intensive Care Medicine, University Clinic Carl Gustav Carus, Dresden University of Technology, Dresden, Germany
⁵ Department of Radiology, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts

The topographic matching of alveolar ventilation (_A)and perfusion () is the main determinantof gas exchange efficiency of the lung. However, no pulmonaryfunctional imaging technique has been shown to predict whole-lunggas exchange in health and disease. This study aims to presenta PET-based method to estimate regional alveolar ventilation-to-perfusionratios (_A/) predictiveof arterial blood gases. Methods: The method is based on theregional tracer kinetics of ¹³N-nitrogen (¹³NN) after an intravenousbolus injection during a breath-hold period and subsequent washoutfrom the lungs with resumption of breathing. The method takesinto account the presence of inter- and intraregional nonuniformitiesat length scales smaller than the imaging spatial resolution.An algorithm used regional tracer washout to classify regional_A/ uniformity. Intraregional_A/ mismatch in nonuniformregions was described with a 2-compartment model. Regional _A/ estimates were combined intoa whole-lung distribution of _A/ratios and were used to compute global arterial blood gases.The method was applied to 3-dimensional PET data from anesthetizedand mechanically ventilated sheep before and after methacholinebronchoconstriction (n = 3) and pulmonary embolism (n = 3) andafter saline lung lavage (n = 3). Results: PET images revealedregional changes in ventilation and perfusion consistent withthe different disease models. Quantification of the images usingPET-derived _A/ distributionsshowed unimodal and narrow distributions in control conditionsthat became wider and unimodal after pulmonary embolism andsaline lung lavage and bimodal after bronchoconstriction. Imagesof regional gas exchange allowed for visualization of regionalgas exchange. Arterial blood gases estimated from the PET-based_A/ distributions closelyagreed with measured values (partial pressure of oxygen, arterial[PaO₂]: r² = 0.97, P < 0.001; partial pressure of carbondioxide, arterial [PaCO₂]: r² = 0.96, P < 0.001). Conclusion:Tracer kinetics analysis of PET images after an intravenousinjection of ¹³NN provides a quantitative assessment of regional_A/ heterogeneity includingthat corresponding to length scales smaller than the spatialresolution of the imaging method. Quantification of _A/ mismatch obtained with thepresented technique is directly related to severity of gas exchangeimpairment as determined by arterial blood gases.

Key Words: lung • mathematic model • PET • sheep • ventilation-perfusion

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