Abstract
<jats:p>Background: Contrast-enhanced ultrasound (CEUS) recently emerged as a valuable imaging modality for evaluating pleuropulmonary diseases. By combining morphological information from conventional B-mode ultrasound with real-time assessment of microvascular perfusion, CEUS can provide functional insights that improve diagnostic accuracy, guide interventions, and support patient surveillance. Methods: This review summarizes the current evidence on the use of CEUS in major pleuropulmonary disorders, including pneumonia, pleural effusion, pulmonary embolism, neoplasms, and COVID-19-related lung injury. The most relevant clinical studies and meta-analyses were analyzed, focusing on CEUS parameters, diagnostic performance, and integration with other imaging techniques. Results: CEUS enables the differentiation between inflammatory, ischemic, and malignant lesions through qualitative and quantitative analyses of enhancement patterns. Early and homogeneous enhancement is typical of inflammatory or infectious processes, whereas heterogeneous or delayed enhancement with early washout strongly suggests malignancy or ischemia. In pneumonia and pleural infections, CEUS identifies non-perfused or necrotic areas, guiding drainage and evaluating therapeutic responses. In pulmonary embolism, it reveals avascular consolidations corresponding to infarction, even when CT angiography is inconclusive. For peripheral lung tumors, CEUS assesses angiogenesis and vascular supply, correlating perfusion parameters with histopathology, and improving biopsy targeting. Furthermore, in COVID-19 pneumonia, CEUS can detect microvascular alterations related to thrombosis and fibrosis. Conclusions: CEUS is a safe, noninvasive, and radiation-free technique that provides unique real-time information on pulmonary perfusion. Its integration with conventional ultrasound enhances diagnostic precision, optimizes interventional guidance, and allows for dynamic monitoring of treatment response. Future developments in quantitative analysis, artificial intelligence, and targeted contrast agents are expected to further expand CEUS clinical applications in pleuropulmonary imaging.</jats:p>