Of the 111 patients, 75 (67.6%) exhibited PD (65 [86.7%] male; mean age, 47.8 years; mean BMI, 25.7 kg/m
2; mean AHI, 29.3), and 36 (32.4%) did not have PD (31 [86.1%] male; mean age, 44.1 years; mean BMI, 28.2 kg/m
2; mean AHI, 45.8). The mean value of the overall NS/S-AHI ratio was not significantly different from that during REM sleep (
Fig. 1A), but the values for individual patients displayed poor agreement (CCC, 0.43; 95% confidence interval [CI], 0.26–0.57). When the difference between these two ratios was examined, eight outliers (7.2%) were identified beyond ±2 standard deviations (SDs) from the mean (
Fig. 1B). Among these, three patients (case numbers 1.1–1.3) were categorized as exhibiting PD during REM sleep but not based on the overall NS/S-AHI ratio. Conversely, two (case numbers 1.4–1.5) were not considered PD during REM sleep but were counted as PD according to the overall NS/S-AHI ratio. Considerable discrepancies were also observed between the two ratios in the remaining three patients (case numbers 1.6–1.8), although their PD status, as defined by a ratio of 0.5, did not change (
Fig. 1C). In comparing the NS/S-AHI ratios between the entire sleep period and NREM sleep, the mean value of the overall ratio did not differ significantly from the ratio for NREM sleep (
Fig. 1D). However, the values for individual patients also showed poor agreement (CCC, 0.81; 95% CI, 0.74–0.86), albeit less poor than that between total sleep and REM sleep. Regarding the difference between these ratios, two outliers (1.8%) were found beyond ±2 SDs from the mean (
Fig. 1E). One of these patients (case number 2.1) was considered to exhibit PD during NREM sleep, but the overall NS/S-AHI ratio did not indicate PD. In the other patient (case number 2.2), a marked discrepancy was observed between the two ratios, but the PD status—based on the criterion of a 0.5 ratio—did not change (
Fig. 1F). When these two outliers were excluded, the agreement of the NS/S-AHI ratio between the entire sleep period and NREM sleep became substantial (CCC, 0.96; 95% CI, 0.94–0.97). Similarly, when comparing the NS/S-AHI ratios during REM and NREM sleep, the mean values were not significantly different (
Fig. 1G), but the patient-specific values showed poor agreement (CCC, 0.25; 95% CI, 0.06–0.43). Six outliers (5.4%) were identified beyond ±2 SDs from the mean in this comparison (
Fig. 1H). Among them, one (case number 3.1) was categorized as displaying PD during NREM sleep but not during REM sleep. Another two (case numbers 3.2 and 3.3) exhibited PD during REM sleep but not during NREM sleep. The remaining three patients (case numbers 3.4–3.6) also showed considerable discrepancies between the two ratios, but their PD status based on the 0.5 criterion did not change (
Fig. 1I). Lastly, the weighted NS/S-AHI ratio did not significantly differ from the overall NS/S-AHI ratio (
Fig. 2A), but the two measures showed poor agreement for individual patients (CCC, 0.86; 95% CI, 0.80–0.90). When examining the difference between these ratios, three outliers (2.7%) were found beyond ±2 SDs from the mean (
Fig. 2B). None exhibited PD based on the overall NS/S-AHI ratio. When the weighted NS/S-AHI ratio was applied, one patient (case number 4.1) was identified as having PD. The other two also exhibited notable changes in ratio values, but their PD status based on the 0.5 criterion did not change (
Fig. 2C). All three outliers exhibited OSA of mild or moderate severity (AHIs of 9.7, 5.5, and 24.0 for case numbers 4.1, 4.2, and 4.3, respectively). After these outliers were excluded, the agreement between the overall and weighted NS/S-AHI ratios became substantial (CCC, 0.98; 95% CI, 0.97–0.98). When the degree of agreement between the overall NS/S-AHI ratios and weighted NS/S-AHI ratios was compared according to OSA severity, poor agreement was found in patients with mild to moderate OSA (n=49; CCC, 0.69; 95% CI, 0.52–0.81) (
Fig. 3A), while substantial agreement was observed in those with severe OSA (n=62; CCC, 0.99; 95% CI, 0.98–0.99) (
Fig. 3B).