超声检查在经支气管肺冷冻活检术后气胸的诊断和处理决策算法中的作用。

The Role of Ultrasonography in the Diagnosis and Decision Algorithm for the Management of Pneumothorax after Transbronchial Lung Cryobiopsy.

机构信息

Department of Pneumology, Centro Hospitalar São João, Porto, Portugal,

Faculty of Medicine, University of Porto, Porto, Portugal,

出版信息

Respiration. 2022;101(1):67-75. doi: 10.1159/000518140. Epub 2021 Oct 29.

DOI:10.1159/000518140

PMID:34818255

Abstract

BACKGROUND

Pneumothorax is one of the main complications of transbronchial lung cryobiopsy (TBLC). Chest ultrasound (CUS) is a radiation-free alternative method for pneumothorax detection.

OBJECTIVE

We tested CUS diagnostic accuracy for pneumothorax and assessed its role in the decision algorithm for pneumothorax management. Secondary objectives were to evaluate the post-procedure pneumothorax occurrence and risk factors.

METHODS

Eligible patients underwent TBLC, followed by chest X-ray (CXR) evaluation 2 h after the procedure, as our standard protocol. Bedside CUS was performed within 30 min and 2 h after TBLC. Pneumothorax by CUS was defined by the absence of lung sliding and comet-tail artefacts and confirmed with the stratosphere sign on M-mode. Pneumothorax size was determined through lung point projection on CUS and interpleural distance on CXR and properly managed according to clinical status.

RESULTS

Sixty-seven patients were included. Nineteen pneumothoraces were detected at 2 h after the procedure, of which 8 (42.1%) were already present at the first CUS evaluation. All CXR-detected pneumothoraces had a positive CUS detection. There were 3 discordant cases (κ = 0.88, 95% CI: 0.76-1.00, p < 0.001), which were detected by CUS but not by inspiration CXR. We calculated a specificity of 97.5% (95% CI: 86.8-99.9) and a sensitivity of 100% (95% CI: 87.2-100) for CUS. Pneumothorax rate was higher when biopsies were taken in 2 lobes and if histology had pleural representation. Final diagnosis was achieved in 79.1% of patients, with the most frequent diagnosis being hypersensitivity pneumonitis. Regarding patients with large-volume pneumothorax needing drainage, the rate of detection was similar between CUS and CRX.

CONCLUSION

CUS can replace CXR in detecting the presence of pneumothorax after TBLC, and the lung point site can reliably indicate its size. This useful method optimizes time spent at the bronchology unit and allows immediate response in symptomatic patients, helping to choose optimal treatment strategies, while preventing ionizing radiation exposure.

摘要

背景

气胸是经支气管肺冷冻活检（TBLC）的主要并发症之一。胸部超声（CUS）是一种无辐射的气胸检测替代方法。

目的

我们测试了 CUS 对气胸的诊断准确性，并评估了其在气胸管理决策算法中的作用。次要目标是评估术后气胸的发生和危险因素。

方法

符合条件的患者接受 TBLC 治疗，然后在 2 小时后进行胸部 X 射线（CXR）评估，这是我们的标准方案。床边 CUS 在 TBLC 后 30 分钟内和 2 小时内进行。CUS 下的气胸定义为缺乏肺滑动和彗星尾伪影，并在 M 模式下通过平流层征确认。通过 CUS 下的肺点投影和 CXR 下的肋胸膜距离确定气胸的大小，并根据临床情况进行适当的管理。

结果

共纳入 67 例患者。术后 2 小时发现 19 例气胸，其中 8 例（42.1%）在第一次 CUS 评估时已存在。所有 CXR 检测到的气胸均有 CUS 检测阳性。有 3 例不一致病例（κ=0.88，95%CI：0.76-1.00，p<0.001），这些病例通过 CUS 而非吸气 CXR 检测到。我们计算出 CUS 的特异性为 97.5%（95%CI：86.8-99.9），敏感性为 100%（95%CI：87.2-100）。当活检在 2 个肺叶进行且组织学有胸膜表现时，气胸发生率更高。79.1%的患者最终诊断明确，最常见的诊断为过敏性肺炎。对于需要引流的大量气胸患者，CUS 和 CRX 的检测率相似。