Portable System for Non-intrusive Monitoring of Sleep

Sleep Apnea Clinical Trial

Official title: Validation of a New Non-intrusive Technology for Detecting Sleep Apnea

Status Not yet recruiting

Clinical Trial Summary

Obstructive sleep apnea (OSA) is a prevalent kind of sleep-disordered breathing affecting one-seventh of the world's population. Almost 45 percent of this population suffers from mild to severe apnea. However, in many cases it remains undiagnosed, leading to increased health risks. Sleep-disordered breathing, as seen in OSA, can have serious long-term consequences, including sympathetic nervous system activation, sleep disturbances, heart remodeling, and cardiovascular disease development. Polysomnography is the standard method for assessing sleep-breathing disorders, which requires the attachment of various sensors by a trained technician or a healthcare professional. However, if the diagnosis of OSA depends on referral to a sleep laboratory, and if the referral is reliant on symptoms of an OSA syndrome, then current screening approaches may exclude a large population of individuals at risk. Besides, the number of sleep centers and caregivers is limited, and the associated costs are high. Therefore, alternative techniques allowing home monitoring are necessary. The goal of this observational study is to evaluate the accuracy of the Kinocardiography technique in detecting apneic episodes during sleep and comparing the results with the gold standard polysomnography in 47 patients suffering from obstructive sleep apnea. We hypothesize that this device is able to detect sleep-disordered breathing events, and thus to compute the apnea-hypopnea index, with an accuracy that is close to that of the polysomnography. Participants who meet the criteria will be invited to participate in this protocol and do both polysomnography and kinocardiography records simultaneously at night during sleep.

Clinical Trial Description

1. Study Glossary - BCG = Ballistocardiography - ECG = Electrocardiography - PSG = Polysomnography - SCG = Seismocardiography - KCG = Kinocardiography 2. Monitoring Technique Ballistocardiography (BCG) and seismocardiography (SCG) are two promising technologies for monitoring vital signs during sleep. BCG measures body movements caused by blood flow ejection at each cardiac contraction, while SCG detects micro-vibrations from heart contractions on the chest surface. These low-cost and unobtrusive technologies have been used in various sleep studies, showing promise in vital sign recording, detecting abnormal breathing episodes, and studying the effects of disease and environmental conditions. However, more research and replication of studies are required for widespread application. Kinocardiography: Kinocardiography (KCG) is a technique that combines BCG and SCG with electrocardiography (ECG). The BCG module is placed close to the subject's center of mass in the lumbar vertebrae. The SCG module is placed on the sternum beneath the clavicle, close to the heart and major blood vessels. Each module is a MOVESENSE device that incorporates a three-axis accelerometer and three-axis gyroscope sensor and is attached to the body using standard sticky gel electrodes and a belt. The overall system is remotely controlled via a Bluetooth-connected smartphone or tablet. This device allows the measurement of the micro-accelerations induced by the cardiac activity at the body's surface. By computing these accelerations, it is possible to calculate other parameters, such as the kinetic energies associated with the contraction of the heart. Polysomnography: Polysomnography (PSG) includes various techniques to monitor neurophysiological, cardiopulmonary, and other physiologic parameters simultaneously. PSG uses electroencephalogram, electrooculogram, electromyogram, ECG, pulse oximetry, airflow, and respiratory effort to identify the underlying causes of sleep disturbances. 3. Safety Reporting The MOVESENSE device will be used in this study to collect ECG and signals from accelerometers and gyroscopes. Once this data has been collected, then the analysis will be conducted within the Erasme hospital. This device is a CE-marked medical device (https://ec.europa.eu/tools/eudamed/#/screen/search-device/8d619c90-794a-4564-9a54-829ae fa9c707). The hazard probability is extremely low, and its severity is minimal (the only possibility is feeling uncomfortable with the electrodes' gel on the skin). If a subject becomes uncomfortable, they can call the nurse/operator throughout the measurement and will be able to let the operator know right away if they want to stop the measurement. 4. Strategies for participant recruitment The recruitment will be done among the subjects referred for PSG as required by their medical condition. This study will not affect in any manner the regular medical care of the patients admitted to the sleep laboratory. Subjects will be recruited within the routine of the sleep laboratory in the Erasme hospital. Subjects who meet the criteria will be invited to participate in this protocol and do both PSG and KCG records simultaneously. ;

Related Conditions & MeSH terms

• Apnea
• Sleep Apnea
• Sleep Apnea Syndromes

• NCT number: NCT06029881
• Study type: Observational [Patient Registry]
• Source: Erasme University Hospital
• Contact: Paniz Balali
• Phone: 02 555 32 75 ext +32
• Email: paniz.balali@ulb.be
• Status: Not yet recruiting
• Start date: September 20, 2023
• Completion date: February 29, 2024