Pulse Transit Time as a Measure of Arousal and Respiratory Effort in Children with Sleep-Disordered Breathing

The upper airway resistance syndrome (UARS) is associated with neurobehavioral morbidity in children. The diagnostic gold standard for UARS is esophageal manometry. However, this is invasive. Furthermore, upper airway obstructive events in sleeping children frequently terminate without visible electrocortical (EEG) arousal. The pulse transit time (PTT) is a noninvasive marker of blood pressure and, therefore, subcortical arousal. Blood pressure elevation, associated with respiratory arousal from sleep, results in a drop in the PTT. We hypothesized that: 1) the PTT is a more sensitive measure of respiratory arousal than EEG; and 2) the PTT arousal index can distinguish children with UARS from those with primary snoring. Polysomnography, including esophageal manometry and PTT, was measured prospectively in 24 symptomatic children and 10 normal controls. Apnea, hypopnea, and respiratory effort-related arousal events terminated in a PTT arousal 91%, 83%, and 80% of the time, and in an EEG arousal in 55%, 51%, and 43% (all p < 0.05), respectively. The PTT arousal index was significantly greater in children with UARS (6.8 events/h) than primary snoring (2.2 events/h) (p < 0.05). We conclude that, in children, PTT arousals are a more sensitive measure of obstructive events than visible EEG arousals.

[1]  J. Stradling,et al.  Sleep fragmentation indices as predictors of daytime sleepiness and nCPAP response in obstructive sleep apnea. , 1998, American journal of respiratory and critical care medicine.

[2]  C Guilleminault,et al.  A cause of excessive daytime sleepiness. The upper airway resistance syndrome. , 1993, Chest.

[3]  N Chhina,et al.  Changes in pulse transit time and pulse rate as markers of arousal from sleep in normal subjects. , 1994, Clinical science.

[4]  Daniel J Buysse,et al.  Sleep–Related Breathing Disorders in Adults: Recommendations for Syndrome Definition and Measurement Techniques in Clinical Research , 2000 .

[5]  H. Trang,et al.  Use of nasal cannula for detecting sleep apneas and hypopneas in infants and children. , 2002, American journal of respiratory and critical care medicine.

[6]  C. Marcus,et al.  Natural history of primary snoring in children , 1998, Pediatric pulmonology.

[7]  L A Geddes,et al.  Pulse transit time as an indicator of arterial blood pressure. , 1981, Psychophysiology.

[8]  P. Lévy,et al.  Differentiating obstructive and central sleep respiratory events through pulse transit time. , 1998, American journal of respiratory and critical care medicine.

[9]  C. Guilleminault,et al.  Recognition of sleep-disordered breathing in children. , 1996, Pediatrics.

[10]  S. Berg,et al.  Intrathoracic pressure variations in obese habitual snorers. , 1995, The Journal of Otolaryngology.

[11]  M. Okawa,et al.  Respiratory disturbance during sleep due to adenoid-tonsillar hypertrophy. , 1989, American Journal of Otolaryngology.

[12]  F. Abboud,et al.  Sympathetic neural mechanisms in obstructive sleep apnea. , 1995, The Journal of clinical investigation.

[13]  M. Mograss,et al.  Movement/arousals. Description, classification, and relationship to sleep apnea in children. , 1994, American journal of respiratory and critical care medicine.

[14]  Darrell M. Wilson,et al.  Standardized percentile curves of body-mass index for children and adolescents. , 1991, American journal of diseases of children.

[15]  Daniel J Buysse,et al.  Sleep-related breathing disorders in adults: recommendations for syndrome definition and measurement techniques in clinical research. The Report of an American Academy of Sleep Medicine Task Force. , 1999, Sleep.

[16]  J. Stradling,et al.  Snoring, sleep disturbance, and behaviour in 4-5 year olds. , 1993, Archives of disease in childhood.

[17]  P. Obrist,et al.  Aortic-radial pulse transit time and ECG Q-wave to radial pulse wave interval as indices of beat-by-beat blood pressure change. , 1983, Psychophysiology.

[18]  C. Sullivan,et al.  Arousal pattern following central and obstructive breathing abnormalities in infants and children. , 1996, Journal of applied physiology.

[19]  N. Collop,et al.  The upper airway resistance syndrome. , 1999, Chest.

[20]  S. Redline,et al.  Risk factors for sleep-disordered breathing in children. Associations with obesity, race, and respiratory problems. , 1999, American journal of respiratory and critical care medicine.

[21]  T. Gislason,et al.  Snoring, apneic episodes, and nocturnal hypoxemia among children 6 months to 6 years old. An epidemiologic study of lower limit of prevalence. , 1995, Chest.

[22]  P. Lévy,et al.  Comparison of esophageal pressure with pulse transit time as a measure of respiratory effort for scoring obstructive nonapneic respiratory events. , 2000, American journal of respiratory and critical care medicine.

[23]  Kahn,et al.  Naso‐oesophageal probes decrease the frequency of sleep apnoeas in infants , 2000, Journal of sleep research.

[24]  E. Wolpert A Manual of Standardized Terminology, Techniques and Scoring System for Sleep Stages of Human Subjects. , 1969 .

[25]  J. Stradling,et al.  Value of beat-to-beat blood pressure changes, detected by pulse transit time, in the management of the obstructive sleep apnoea/hypopnoea syndrome. , 1998, The European respiratory journal.

[26]  C. Guilleminault,et al.  EEG arousals: scoring rules and examples: a preliminary report from the Sleep Disorders Atlas Task Force of the American Sleep Disorders Association. , 1992, Sleep.

[27]  Gabriel G. Haddad,et al.  Standards and indications for cardiopulmonary sleep studies in children. American Thoracic Society. , 1996, American journal of respiratory and critical care medicine.

[28]  D. Gozal,et al.  Dynamic changes in EEG spectra during obstructive apnea in children , 2000, Pediatric pulmonology.

[29]  C. Guilleminault,et al.  Children and nocturnal snoring: Evaluation of the effects of sleep related respiratory resistive load and daytime functioning , 1982, European Journal of Pediatrics.

[30]  J. Stradling,et al.  Use of pulse transit time as a measure of inspiratory effort in patients with obstructive sleep apnoea. , 1995, The European respiratory journal.