Diagnosis of Sleep Apnoea Using a Mandibular Monitor and Machine Learning Analysis: One-Night Agreement Compared to in-Home Polysomnography

Julia L Kelly; Raoua Ben Messaoud; Marie Joyeux-Faure; Robin Terrail; Renaud Tamisier; Jean-Benoît Martinot; Nhat-Nam Le-Dong; Mary J Morrell; Jean-Louis Pépin

doi:10.3389/fnins.2022.726880

Diagnosis of Sleep Apnoea Using a Mandibular Monitor and Machine Learning Analysis: One-Night Agreement Compared to in-Home Polysomnography

Front Neurosci. 2022 Mar 15:16:726880. doi: 10.3389/fnins.2022.726880. eCollection 2022.

Authors

Julia L Kelly¹, Raoua Ben Messaoud², Marie Joyeux-Faure^{2

3}, Robin Terrail^{2

3}, Renaud Tamisier^{2

3}, Jean-Benoît Martinot^{4

5}, Nhat-Nam Le-Dong⁶, Mary J Morrell¹, Jean-Louis Pépin^{2

3}

Affiliations

¹ National Heart and Lung Institute, Imperial College London, Royal Brompton Hospital, London, United Kingdom.
² HP2 Laboratory, Inserm U1300, Grenoble Alpes University, Grenoble, France.
³ EFCR Laboratory, Thorax and Vessels division, Grenoble Alpes University Hospital, Grenoble, France.
⁴ Sleep Laboratory, CHU Université catholique de Louvain (UCL) Namur Site Sainte-Elisabeth, Namur, Belgium.
⁵ Institute of Experimental and Clinical Research, UCL Bruxelles Woluwe, Brussels, Belgium.
⁶ Sunrise, Namur, Belgium.

Abstract

Background: The capacity to diagnose obstructive sleep apnoea (OSA) must be expanded to meet an estimated disease burden of nearly one billion people worldwide. Validated alternatives to the gold standard polysomnography (PSG) will improve access to testing and treatment. This study aimed to evaluate the diagnosis of OSA, using measurements of mandibular movement (MM) combined with automated machine learning analysis, compared to in-home PSG.

Methods: 40 suspected OSA patients underwent single overnight in-home sleep testing with PSG (Nox A1, ResMed, Australia) and simultaneous MM monitoring (Sunrise, Sunrise SA, Belgium). PSG recordings were manually analysed by two expert sleep centres (Grenoble and London); MM analysis was automated. The Obstructive Respiratory Disturbance Index calculated from the MM monitoring (MM-ORDI) was compared to the PSG (PSG-ORDI) using intraclass correlation coefficient and Bland-Altman analysis. Receiver operating characteristic curves (ROC) were constructed to optimise the diagnostic performance of the MM monitor at different PSG-ORDI thresholds (5, 15, and 30 events/hour).

Results: 31 patients were included in the analysis (58% men; mean (SD) age: 48 (15) years; BMI: 30.4 (7.6) kg/m²). Good agreement was observed between MM-ORDI and PSG-ORDI (median bias 0.00; 95% CI -23.25 to + 9.73 events/hour). However, for 15 patients with no or mild OSA, MM monitoring overestimated disease severity (PSG-ORDI < 5: MM-ORDI mean overestimation + 5.58 (95% CI + 2.03 to + 7.46) events/hour; PSG-ORDI > 5-15: MM-ORDI overestimation + 3.70 (95% CI -0.53 to + 18.32) events/hour). In 16 patients with moderate-severe OSA (n = 9 with PSG-ORDI 15-30 events/h and n = 7 with a PSG-ORD > 30 events/h), there was an underestimation (PSG-ORDI > 15: MM-ORDI underestimation -8.70 (95% CI -28.46 to + 4.01) events/hour). ROC optimal cut-off values for PSG-ORDI thresholds of 5, 15, 30 events/hour were: 9.53, 12.65 and 24.81 events/hour, respectively. These cut-off values yielded a sensitivity of 88, 100 and 79%, and a specificity of 100, 75, 96%. The positive predictive values were: 100, 80, 95% and the negative predictive values 89, 100, 82%, respectively.

Conclusion: The diagnosis of OSA, using MM with machine learning analysis, is comparable to manually scored in-home PSG. Therefore, this novel monitor could be a convenient diagnostic tool that can easily be used in the patients' own home.

Clinical trial registration: https://clinicaltrials.gov, identifier NCT04262557.

Keywords: automated machine learning analysis; in-home diagnosis; mandibular monitor; one-night agreement; performance; polysomnography; sleep apnoea.

Associated data

ClinicalTrials.gov/NCT04262557