Pulmonary Recruitment Prior to Intraoperative Multiple Pulmonary Ground-Glass Nodule Localization Increases the Localization Accuracy-A Retrospective Study.
Yu Hsiang WangPei Chin SuHsu Chih HuangKenneth AuFrank Cheau-Feng LinChih Yi ChenMing Chih ChouJiun Yi HsiaPublished in: Journal of clinical medicine (2023)
The standard treatment for early-stage lung cancer is complete tumor excision by limited resection of the lung. Preoperative localization is used before video-assisted thoracoscopic surgery (VATS) to improve the accuracy of pulmonary nodule excision. However, lung atelectasis and hypoxia resulting from controlling apnea during the localization procedure may affect the localization accuracy. Pre-procedural pulmonary recruitment may improve the respiratory mechanics and oxygenation during localization. In this study, we investigated the potential benefits of pre-localization pulmonary recruitment prior to pulmonary ground-glass nodule localization in a hybrid operating room. We hypothesized that pre-localization pulmonary recruitment would increase the localization accuracy, improve oxygenation, and prevent the need for re-inflation during the localization procedure. We retrospectively enrolled patients with multiple pulmonary nodule localizations before surgical intervention in our hybrid operating room. We compared the localization accuracy between patients who had undergone pre-procedure pulmonary recruitment and patients who had not. Saturation, re-inflation rate, apnea time, procedure-related pneumothorax, and procedure time were also recorded as secondary outcomes. The patients who had undergone pre-procedure recruitment had better saturation, shorter procedure time, and higher localization accuracy. The pre-procedure pulmonary recruitment maneuver was effective in increasing regional lung ventilation, leading to improved oxygenation and localization accuracy.
Keyphrases
- pulmonary hypertension
- minimally invasive
- early stage
- radiation therapy
- randomized controlled trial
- patients undergoing
- intensive care unit
- coronary artery disease
- type diabetes
- climate change
- atrial fibrillation
- blood flow
- lymph node
- mass spectrometry
- coronary artery bypass
- skeletal muscle
- sentinel lymph node
- insulin resistance
- robot assisted
- acute respiratory distress syndrome
- mechanical ventilation