# Morphological Analysis and Short-Term Evolution in Pulmonary Infarction Ultrasound Imaging: A Pilot Study

**Authors:** Chiara Cappiello, Elisabetta Casto, Alessandro Celi, Camilla Tinelli, Francesco Pistelli, Laura Carrozzi, Roberta Pancani

PMC · DOI: 10.3390/diagnostics16030383 · 2026-01-24

## TL;DR

This pilot study explores lung ultrasound features of pulmonary infarction and their changes over time in patients with pulmonary embolism.

## Contribution

The study introduces new insights into the short-term morphological evolution of pulmonary infarction using lung ultrasound.

## Key findings

- Lung ultrasound consolidations changed in size and shape over four weeks, with a decrease in wedge/triangular shapes and increase in elongated forms.
- Some ultrasound features like 'bubbly consolidation' were more common at one week, while pleural effusion persisted.
- A statistically significant reduction in lesion size was observed after four weeks.

## Abstract

Background: Pulmonary infarction (PI) is the result of the occlusion of distal pulmonary arteries resulting in damage to downstream lung areas that become ischemic, hemorrhagic, or necrotic, and it is often a complication of an underlying condition such as pulmonary embolism (PE). Since in most of cases it is located peripherally, lung ultrasound (LUS) can be a good evaluation tool. The typical radiological features of PI are well-known; however, there are limited data on its sonographic characteristics and its evolution. Methods: The aim of this study is to evaluate, using LUS, a convenience sample of patients with acute PE with computed tomography (CT) consolidation findings consistent with PI. Patients’ clinical characteristics were collected and LUS findings at baseline and their short-term progression was assessed. LUS was performed within 72 h of PE diagnosis (T0) and repeated after one (T1) and four weeks (T2). Each procedure started with a focused examination of the areas of lesions based on CT findings, followed by an exploration of the other posterior and lateral lung fields. The convex probe was used for initial evaluation integrating LUS evaluation with the linear one was employed for smaller and more superficial lesions and when appropriate. Color Doppler mode was added to study vascularization. Results: From June to October 2023, 14 consecutive patients were enrolled at the Respiratory Unit of the University Hospital of Pisa. The main population characteristics included the absence of respiratory failure and prognostic high-risk PE (100%), the absence of significant comorbidities (79%), and the presence of typical symptoms, such as chest pain (57%) and dyspnea (50%). The average number of consolidations per patient was 1.4 ± 0.6. Follow-up LUS showed the disappearance of some consolidations and some morphological changes in the remaining lesions: the presence of hypoechoic consolidation with a central hyperechoic area (“bubbly consolidation”) was more typical at T1 while the presence of a small pleural effusion often persisted both at T1 and T2. A decrease in wedge/triangular-shaped consolidations was observed (82% at T0, 67% at T1, 24% at T2), as was an increase in elongated shapes, representing a residual pleural thickening over time (9% at T0, 13% at T1, 44% at T2). A reduction in size was also observed by comparing the mean diameter, long axis, and short axis measurements of each consolidation at the three different studied time points: the average of the short axes and the median of the mean diameters showed a statistically significant reduction after four weeks. Additionally, a correlation between lesion size and pleuritic pain was described, although it did not achieve statistical significance. Conclusions: Patients’ clinical characteristics and ultrasound features are consistent with previous studies studying PI at PE diagnosis. Most consolidations detected by LUS change over time regarding size and form, but a minority of them do not differ. LUS is a safe and non-invasive exam that could help to improve patients’ clinical approach in emergency rooms as well as medical and pulmonology settings, clinically contextualized for cases of chest pain and dyspnea. Future studies could expand the morphological study of PI.

## Linked entities

- **Diseases:** pulmonary embolism (MONDO:0005279)

## Full-text entities

- **Diseases:** pleural thickening (MESH:D010995), necrotic (MESH:D009336), pleuritic pain (MESH:D010146), pleural effusion (MESH:D010996), chest pain (MESH:D002637), PI (MESH:D054060), respiratory failure (MESH:D012131), PE (MESH:D011655), hemorrhagic (MESH:D006470), ischemic (MESH:D002545), dyspnea (MESH:D004417)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12896474/full.md

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Source: https://tomesphere.com/paper/PMC12896474