Abstract
Neurological surgery in the semi-sitting position is linked with a pronounced incidence of venous air embolism (VAE) which can be fatal and therefore requires continuous monitoring. Transesophageal echocardiography (TEE) provides a high sensitivity for the intraoperative detection of VAE; however, continuous monitoring with TEE requires constant vigilance by the anaesthesiologist, which cannot be ensured during the entire surgical procedure. We implemented a fully automatic VAE detection system for TEE based on a statistical model of the TEE images. In the sequence of images, the cyclic heart activity is regarded as a quasi-periodic process, and air bubbles are detected as statistical outliers. The VAE detection system was evaluated by means of receiver operating characteristic (ROC) curves using a data set consisting of 155.14 h of intraoperatively recorded TEE video and a manual classification of periods with visible VAE. Our automatic detection system accomplished an area under the curve (AUC) of 0.945 if all frames with visible VAE were considered as detection target, and an AUC of 0.990 if frames with the least severe optical grade of VAE were excluded from the analysis. Offline-review of the recorded TEE videos showed that short embolic events (≤ 2 min) may be overseen when monitoring TEE video manually. Automatic detection of VAE is feasible and could provide significant support to anaesthesiologists in clinical practice. Our proposed algorithm might possibly even offer a higher sensitivity compared to manual detection. The specificity, however, requires improvement to be acceptable for practical application. Trial Registration: German Clinical Trials Register (DRKS00011607).
Highlights
If the blood pressure of veins in a surgical site is less than the atmospheric pressure, air can enter the venous system and cause a lung air embolism (VAE) [1]
In total 155.14 h of transesophageal echocardiography (TEE) videos were recorded; 6.29 h were marked as air emboli with optical grade 1; 1.58 h were marked as air emboli with optical grade 2, and 0.10 h were marked as air emboli with optical grade 3
The reported incidence of air embolism during neurological surgery in the semi-sitting position in the literature range from 2–76% [14, 15]. This wide range is partly explained by varying definitions of venous air embolism (VAE) [16]
Summary
If the blood pressure of veins in a surgical site is less than the atmospheric pressure, air can enter the venous system and cause a lung air embolism (VAE) [1]. Depending on the total amount of air and the speed of infusion, VAE can be fatal [3] with an estimated lethal volume of 3–5 ml/kg [4]. There exist mainly two methods for the intraoperative detection of VAE in the clinical practice [4]: (i) the precordial doppler ultrasound and (ii) the transesophageal echocardiography (TEE). Of these two the TEE has higher sensitivity and can be seen as diagnostic standard for the detection of VAE [4, 5].
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