Clinical Evaluation of an AI-Based Prototype for Contactless Respiratory Monitoring in Children
Ludwig Maximilian Seebauer, Marcel Geis, Niklas Alexander Köhler, Claudius Nöh, Jochen Frey, Volker Groß, Keywan Sohrabi, Sebastian Kerzel

TL;DR
This study evaluates a non-invasive AI-based system for monitoring children's breathing during sleep, offering a less intrusive alternative to traditional methods.
Contribution
The study introduces a clinically validated contactless system for pediatric respiratory monitoring using AI and 3D imaging.
Findings
The prototype accurately detects respiratory rate and abnormal breathing patterns in children during sleep.
It performs reliably across different sleep positions and stages, including N3 and REM sleep.
The system reduces patient discomfort and offers potential for broader clinical use.
Abstract
Background: Pediatric respiratory disorders frequently necessitate clinical evaluation, often during sleep. Traditional polysomnography (PSG), while the gold standard for sleep-related respiratory assessment, is resource-intensive and can cause discomfort, particularly in children. Therefore, in a prior published study, we designed and technically validated a video-based prototype for contactless monitoring of respiratory movements. Objective: Our present study aimed to clinically validate the contactless monitoring prototype in pediatric patients, with a primary focus on detecting respiratory rate and identifying abnormal breathing patterns. Methods: Twenty-seven pediatric patients (aged 6 months to 12 years) were recruited from a pediatric sleep laboratory. To monitor thoracoabdominal movements in real time, the prototype employed a time-of-flight camera and a 3D imaging module,…
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Taxonomy
TopicsObstructive Sleep Apnea Research · Non-Invasive Vital Sign Monitoring · Neuroscience of respiration and sleep
