IntroductionUltrasound is a relatively inexpensive and non-ionizing imaging modality, but is under-utilized in large airway assessments due to poor image quality. No commercially available contrast agents currently exist for sonographic evaluation of the respiratory system, nor has a respiratory route of microbubble contrast agent (MCA) administration been previously described for the enhancement of airway imaging.MethodsWe conducted a feasibility study to assess proof-of-concept for an inhalable ultrasound MCA composed of lipid-encapsulated decaflourobutane gas. The MCA was nebulized and administered as an aerosol through the lumen of an ex vivo porcine trachea, with image enhancement evaluated by comparing images pre- and post-exposure. Additionally, primary human bronchial epithelial (hBE) cells from three donors were differentiated at an air-liquid interface and exposed apically to 25 μL of undiluted MCA or vehicle control to assess contrast agent-induced cytotoxicity and inflammation. Basolateral medium was collected 24-hours post-exposure and lactate dehydrogenase (LDH) and interleukin-8 (IL-8) concentrations were measured as biomarkers of cytotoxicity and inflammation, respectively.ResultsContrast microbubbles remained intact following nebulization and enhanced sonographic delineation of ex vivo porcine tracheal walls, indicating adherence of the nebulized MCA to the lumenal mucosa. No significant cytotoxic or inflammatory effects were observed in cultured hBE cells following exposure to MCA.ConclusionsWe present proof-of-concept for an inhaled MCA for the enhancement of sonographic evaluations of the large airways. Pending further evaluations for safety and effectiveness, inhaled MCA may be feasible for clinical ultrasound applications, such as enhancing ultrasound-guided tracheal intubation, detecting airway bleeds, or monitoring large airway diseases in pediatric populations.
