Rebecca Mihai1, Kirsten Ellis1, Margot J Davey1,2, Gillian M Nixon1,2,3. 1. Melbourne Children's Sleep Centre, Monash Children's Hospital, Melbourne, Australia. 2. Department of Paediatrics, Monash University, Melbourne, Australia. 3. The Ritchie Centre, The Hudson Institute of Medical Research, Melbourne, Australia.
Abstract
STUDY OBJECTIVES: An increasing number of children with obstructive sleep apnea (OSA) require treatment with continuous positive airway pressure (CPAP). This study aimed to determine whether automatic respiratory indices from a CPAP device accurately predict manually determined respiratory indices derived from overnight polysomnography (PSG) in children. METHODS: Consecutive children undergoing manual CPAP titration PSG using a ResMed VPAP ST-A (S9) were included. The apnea-hypopnea index (AHI), apnea index (AI), and hypopnea index (HI) from automatic analysis of the CPAP device for that night (AHICPAP, AICPAP, and HICPAP) were compared with manually derived respiratory indices (RDIPSG, OAHIPSG, AIPSG, and HIPSG) using the Wilcoxon matched-pairs signed-ranks test. RESULTS: Forty-six children (32 boys; median age, 13.5 years; range, 4.6-20.0 years) were included. There was no difference between RDIPSG and AHICPAP (P = .6) nor between HIPSG and HICPAP (P = .2). AIPSG was significantly lower than AICPAP (mean difference -1.3 events/hr, P < .001). AIPSG and AICPAP were strongly correlated (r² = .72, P < .01), but the CPAP machine overestimated the number of apneas at higher AIs. OAHIPSG was significantly lower than AHICPAP (P = .003) but strongly correlated (r² = .87, P < .01). The CPAP device significantly underestimated the number of hypopneas at higher indices. Using the manually scored OAHIPSG of ≥5 events/hr to define significant residual OSA, the AHICPAP had a high specificity (0.95) but low sensitivity (0.20). CONCLUSIONS: The ResMed S9 respiratory indices are not accurate enough to guide treatment decisions in children; in particular, they do not rule out the presence of residual OSA in children that remain symptomatic on CPAP. A low AHICPAP is reassuring in the context of a stable patient but may miss ongoing hypopneas.
STUDY OBJECTIVES: An increasing number of children with obstructive sleep apnea (OSA) require treatment with continuous positive airway pressure (CPAP). This study aimed to determine whether automatic respiratory indices from a CPAP device accurately predict manually determined respiratory indices derived from overnight polysomnography (PSG) in children. METHODS: Consecutive children undergoing manual CPAP titration PSG using a ResMed VPAP ST-A (S9) were included. The apnea-hypopnea index (AHI), apnea index (AI), and hypopnea index (HI) from automatic analysis of the CPAP device for that night (AHICPAP, AICPAP, and HICPAP) were compared with manually derived respiratory indices (RDIPSG, OAHIPSG, AIPSG, and HIPSG) using the Wilcoxon matched-pairs signed-ranks test. RESULTS: Forty-six children (32 boys; median age, 13.5 years; range, 4.6-20.0 years) were included. There was no difference between RDIPSG and AHICPAP (P = .6) nor between HIPSG and HICPAP (P = .2). AIPSG was significantly lower than AICPAP (mean difference -1.3 events/hr, P < .001). AIPSG and AICPAP were strongly correlated (r² = .72, P < .01), but the CPAP machine overestimated the number of apneas at higher AIs. OAHIPSG was significantly lower than AHICPAP (P = .003) but strongly correlated (r² = .87, P < .01). The CPAP device significantly underestimated the number of hypopneas at higher indices. Using the manually scored OAHIPSG of ≥5 events/hr to define significant residual OSA, the AHICPAP had a high specificity (0.95) but low sensitivity (0.20). CONCLUSIONS: The ResMed S9 respiratory indices are not accurate enough to guide treatment decisions in children; in particular, they do not rule out the presence of residual OSA in children that remain symptomatic on CPAP. A low AHICPAP is reassuring in the context of a stable patient but may miss ongoing hypopneas.
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