医学
肺
肋间间隙
重复性
超声波
肺超声
血容量
呼吸系统
核医学
肺容积
再现性
麻醉
心脏病学
内科学
外科
放射科
色谱法
化学
作者
Haifeng Zong,Guo Guo,Jing Liu,Linlin Bao,Chuanzhong Yang
摘要
Abstract Background Increases in extravascular lung water (EVLW) can lead to respiratory failure. This study aimed to investigate whether the B‐line score (BLS) was correlated with the EVLW content determined by the lung wet/dry ratio in a rabbit model. Methods A total of 45 New Zealand rabbits were randomly assigned to nine groups. Among the animals, models of various lung water content levels were induced by the infusion of different volumes of warm sterile normal saline (NS) via the endotracheal tube. The arterial blood gas, spontaneous respiratory rate, and PaO 2 /FiO 2 ratio were detected before and after infusion. In addition, the B‐lines were determined before and immediately after infusion in each group. Finally, both lungs were resected to determine the wet/dry ratio. In addition, all lung specimens were analyzed histologically, and EVLW was quantified using the BLS based on the number and confluence of B‐lines in the intercostal space. Results The BLS increased with increasing infusion volume. The BLS was statistically correlated with the wet/dry ratio ( r 2 = .946) and with the PaO 2 /FiO 2 ratio ( r 2 = .916). Furthermore, a repeatability study was performed for the lung ultrasound (LUS) technology (Bland‐Altman plots), and the results suggest that LUS had favorable intraobserver and interobserver reproducibility. Conclusions This study is the first to suggest that the BLS can serve as a sensitive, quantitative, noninvasive, and real‐time indicator of EVLW in a rabbit model of lung water accumulation. Notably, the BLS displayed an obvious correlation with the experimental gravimetry results and could also be used to predict the pulmonary oxygenation status.
科研通智能强力驱动
Strongly Powered by AbleSci AI