OBJECTIVE: To compare 256-layer spiral computed tomography (CT) scan in sleep and laryngofiberscope technology for locating obstructive sites of upper airway in patients with obstructive sleep apnea hypopnea syndrome, analyze their advantages and disadvantages and discuss the clinical application values. METHODS: A total of 59 patients with OSAHS diagnosed by polysomnography underwent spiral CT scan in awake and drug-induced sleep states and laryngofiberscope examination in awake state to assess the sites of airway obstruction. RESULTS: Real-time CT scans were completed successfully in all patients. There were airway obstruction at isolated retropalatal region (real-time CT revealing n = 26, laryngofiberscope revealing n = 34), retropalatal and retroglottal regions simultaneously (real-time CT revealing n = 19, laryngofiberscope revealing n = 10), retropalatal and epiglottal regions simultaneously (real-time CT revealing n = 6, laryngofiberscope revealing n = 2), retropalatal and retroglottal and epiglottal regions simultaneously (real-time CT revealing n = 7, laryngofiberscope revealing n = 3) and no airway obstruction (real-time CT revealing n = 1, laryngofiberscope revealing n = 10). There was not solitary airway obstruction at retroglottal or epiglottal region. The results of real-time CT scans and laryngofiberscope examination were statistically significant different in all regions, and real-time CT scanning compared with laryngofiberscope found more obstructive sites of upper airway [retropalatal region: 98.3% (n = 58) vs 81.4% (n = 48), χ(2) = 5.82, P < 0.05; retroglottal regions: 44.1% (n = 26) vs 22.0% (n = 13), χ(2) = 9.60, P < 0.01; epiglottal regions: 22.0% (n = 13) vs 8.5% (n = 5), χ(2) = 4.90, P < 0.05]. CONCLUSION: Compared with laryngofiberscope examination,real-time dynamic CT scans in drug-induced sleep state could get more information about anatomy changes of upper airway, providing relatively objective morphological basis for diagnosis and treatment of patients with OSAHS.
OBJECTIVE: To compare 256-layer spiral computed tomography (CT) scan in sleep and laryngofiberscope technology for locating obstructive sites of upper airway in patients with obstructive sleep apnea hypopnea syndrome, analyze their advantages and disadvantages and discuss the clinical application values. METHODS: A total of 59 patients with OSAHS diagnosed by polysomnography underwent spiral CT scan in awake and drug-induced sleep states and laryngofiberscope examination in awake state to assess the sites of airway obstruction. RESULTS: Real-time CT scans were completed successfully in all patients. There were airway obstruction at isolated retropalatal region (real-time CT revealing n = 26, laryngofiberscope revealing n = 34), retropalatal and retroglottal regions simultaneously (real-time CT revealing n = 19, laryngofiberscope revealing n = 10), retropalatal and epiglottal regions simultaneously (real-time CT revealing n = 6, laryngofiberscope revealing n = 2), retropalatal and retroglottal and epiglottal regions simultaneously (real-time CT revealing n = 7, laryngofiberscope revealing n = 3) and no airway obstruction (real-time CT revealing n = 1, laryngofiberscope revealing n = 10). There was not solitary airway obstruction at retroglottal or epiglottal region. The results of real-time CT scans and laryngofiberscope examination were statistically significant different in all regions, and real-time CT scanning compared with laryngofiberscope found more obstructive sites of upper airway [retropalatal region: 98.3% (n = 58) vs 81.4% (n = 48), χ(2) = 5.82, P < 0.05; retroglottal regions: 44.1% (n = 26) vs 22.0% (n = 13), χ(2) = 9.60, P < 0.01; epiglottal regions: 22.0% (n = 13) vs 8.5% (n = 5), χ(2) = 4.90, P < 0.05]. CONCLUSION: Compared with laryngofiberscope examination,real-time dynamic CT scans in drug-induced sleep state could get more information about anatomy changes of upper airway, providing relatively objective morphological basis for diagnosis and treatment of patients with OSAHS.