1. Measurement of relative lung perfusion with electrical impedance and positron emission tomography: an experimental comparative study in pigs
- Author
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Michael Kircher, Thomas Kiss, Michael Andreeff, J. Roegner, Marco Millone, Robert Huhle, C. Bozsak, Anja Braune, Birgit Stender, P. Herzog, Luigi Vivona, Joerg Kotzerke, Martin Scharffenberg, Thea Koch, M. Gama de Abreu, Thomas Bluth, Olaf Dössel, and Moritz Herzog
- Subjects
Swine ,medicine.medical_treatment ,03 medical and health sciences ,0302 clinical medicine ,030202 anesthesiology ,medicine.artery ,Occlusion ,Electric Impedance ,Medicine ,Animals ,Electrical impedance tomography ,Saline ,Lung ,medicine.diagnostic_test ,business.industry ,respiratory system ,Respiration, Artificial ,respiratory tract diseases ,Disease Models, Animal ,Anesthesiology and Pain Medicine ,Positron emission tomography ,Positron-Emission Tomography ,Pulmonary artery ,Breathing ,Airway ,business ,Nuclear medicine ,Pulmonary Ventilation ,Perfusion ,Respiration and the Airway - Abstract
Background Electrical impedance tomography (EIT) with indicator dilution may be clinically useful to measure relative lung perfusion, but there is limited information on the performance of this technique. Methods Thirteen pigs (50–66 kg) were anaesthetised and mechanically ventilated. Sequential changes in ventilation were made: (i) right-lung ventilation with left-lung collapse, (ii) two-lung ventilation with optimised PEEP, (iii) two-lung ventilation with zero PEEP after saline lung lavage, (iv) two-lung ventilation with maximum PEEP (20/25 cm H2O to achieve peak airway pressure 45 cm H2O), and (v) two-lung ventilation under unilateral pulmonary artery occlusion. Relative lung perfusion was assessed with EIT and central venous injection of saline 3%, 5%, and 10% (10 ml) during breath holds. Relative perfusion was determined by positron emission tomography (PET) using 68Gallium-labelled microspheres. EIT and PET were compared in eight regions of equal ventro-dorsal height (right, left, ventral, mid-ventral, mid-dorsal, and dorsal), and directional changes in regional perfusion were determined. Results Differences between methods were relatively small (95% of values differed by less than 8.7%, 8.9%, and 9.5% for saline 10%, 5%, and 3%, respectively). Compared with PET, EIT underestimated relative perfusion in dependent, and overestimated it in non-dependent, regions. EIT and PET detected the same direction of change in relative lung perfusion in 68.9–95.9% of measurements. Conclusions The agreement between EIT and PET for measuring and tracking changes of relative lung perfusion was satisfactory for clinical purposes. Indicator-based EIT may prove useful for measuring pulmonary perfusion at bedside.
- Published
- 2019