Dynamic assessment of oropharynx with ultrasonography as a screening tool for obstructive sleep apnea

Ultrasonography is an easily available and portable tool to assess the dynamic changes in the upper airway and surrounding soft tissue. This study aimed to evaluate the utility of oropharynx ultrasonography as a screening tool for obstructive sleep apnea (OSA). The study sequentially enrolled overweight individuals (body mass index >25 kg/m²) and subjected them to OSA screening tools (Berlin questionnaire, Epworth Sleepiness Scale and STOP-Bang scores), ultrasonography of the oropharynx followed by overnight polysomnography. A total of 30 healthy individuals were also recruited as controls. Detailed dynamic and static ultrasonography measurements of the oropharynx and surrounding tissue were done. The diagnostic ability of various ultrasonography parameters to detect OSA was determined using receiver operating characteristic curve analysis. A total of 63 subjects were enrolled, with 33 in the OSA group and 30 in non-OSA overweight group. All baseline characteristics were similar in the two groups. Except for the dynamic measurements of oropharynx (Retropalatal% change-inspiration, retropalatal% change-Muller manoeuvre, retroglossal% change-inspiration, and retroglossal% change-Muller manoeuvre) all other parameters were similar in the OSA and non-OSA overweight subjects. The area under the receiver operating characteristic curve was highest for retropalatal% change-inspiration: 0.989, followed by retropalatal% change-Muller manoeuvre: 0.988. Both were also significant predictors of OSA with odds ratios of 0.338 (p = 0.003; 95% confidence interval [CI] 0.164–0.696) and 0.346 (p = 0.018; 95% CI 0.143–0.837), respectively. Ultrasonography provides a near complete picture of the dynamic changes and collapsibility of the oropharynx and can be an effective tool in screening for OSA.     

Evaluation of pharyngeal shape and size using anatomical optical coherence tomography in individuals with and without obstructive sleep apnoea

This study compared shape, size and length of the pharyngeal airway in individuals with and without obstructive sleep apnoea (OSA) using a novel endoscopic imaging technique, anatomical optical coherence tomography (aOCT). The study population comprised a preliminary study group of 20 OSA patients and a subsequent controlled study group of 10 OSA patients and 10 body mass index (BMI)-, gender- and age-matched control subjects without OSA. All subjects were scanned using aOCT while awake, supine and breathing quietly. Measurements of airway cross-sectional area (CSA) and anteroposterior (A-P) and lateral diameters were obtained from the hypo-, oro- and velopharyngeal regions. A-P : lateral diameter ratios were calculated to provide an index of regional airway shape. In all subjects, pharyngeal CSA was lowest in the velopharynx. Patients with OSA had a smaller velopharyngeal CSA than controls (maximum CSA 91 +/- 40 versus 153 +/- 84 mm(2); P < 0.05) but comparable oro- (318 +/- 80 versus 279 +/- 129 mm(2); P = 0.48) and hypopharyngeal CSA (250 +/- 105 versus 303 +/- 112 mm(2); P = 0.36). In each pharyngeal region, the long axis of the airway was oriented in the lateral diameter. Airway shape was not different between the groups. Pharyngeal airway length was similar in both groups, although the OSA group had longer uvulae than the control group (16.8 +/- 6.2 versus 11.2 +/- 5.2 mm; P < 0.05). This study has shown that individuals with OSA have a smaller velopharyngeal CSA than BMI-, gender- and age-matched control volunteers, but comparable shape: a laterally oriented ellipse. These findings suggest that it is an abnormality in size rather than shape that is the more important anatomical predictor of OSA.     

Noninvasive determination of brain tissue oxygenation during sleep in obstructive sleep apnea: a near-infrared spectroscopic approach

STUDY OBJECTIVES: Recurrent apneas and hypoxemia during sleep in obstructive sleep apnea (OSA) are associated with profound changes in cerebral blood flow to the extent that cerebral autoregulation may be insufficient to protect the brain. Since the brain is sensitive to hypoxia, the cerebrovascular morbidity seen in OSA could be due to chronic, cumulative effects of intermittent hypoxia. Near-infrared spectroscopy (NIRS) has the potential to noninvasively monitor brain tissue oxygen saturation (SO2), and changes in concentration of oxyhemoglobin [O2Hb], deoxyhemoglobin [HHb] and total hemoglobin [tHb] with real-time resolution. We hypothesized that brain tissue oxygenation would be worse during sleep in OSA relative to controls and sought to determine the practical use of NIRS in the sleep laboratory. DESIGN: We evaluated changes in brain tissue oxygenation using NIRS during overnight polysomnography. SETTING: Studies were conducted at University of Illinois, Chicago and Carle Hospital, Urbana, Illinois. PATIENTS: Nineteen subjects with OSA and 14 healthy controls underwent continuous NIRS monitoring during polysomnography. MEASUREMENTS AND RESULTS: We observed significantly lower indexes of brain tissue oxygenation (SO2: 57.1 +/- 4.9 vs. 61.5 +/- 6.1), [O2Hb]: 22.8 +/- 7.7 vs. 31.5 +/- 9.1, and [tHb]: 38.6 +/- 11.2 vs. 48.6 +/- 11.4 micromol/L) in OSA than controls (all P < 0.05). However, multivariate analysis showed that the differences might be due to age disparity between the two groups. CONCLUSIONS: NIRS is an effective tool to evaluate brain tissue oxygenation in OSA. It provides valuable data in OSA assessment and has the potential to bridge current knowledge gap in OSA.     

Brief airway occlusion produces prolonged reflex inhibition of inspiratory muscles in obstructive sleep apnea

STUDY OBJECTIVES: The human inspiratory muscles respond to a brief occlusion of the upper airway during inspiration with a profound short-latency reflex inhibition. This inhibition contrasts with the excitatory stretch reflex of limb muscles and may protect the airway from aspiration. It was postulated that this reflex would be altered in subjects with obstructive sleep apnea (OSA) who have repetitive upper airway occlusion. DESIGN: Subjects underwent overnight polysomnography, as well as muscle reflex studies. For the reflex studies (performed during wakefulness), occlusions lasting 250 milliseconds were delivered during inspiration. Surface electromyogram was recorded over the scalenes, parasternal intercostals, and chest wall (overlying diaphragm). SETTING: Research and sleep laboratories. PARTICIPANTS: Nineteen subjects with untreated OSA (9 moderate and 10 severe) and 9 healthy control subjects. MEASUREMENTS AND RESULTS: In the subjects with severe OSA, the duration of the inhibition was prolonged by at least 25% compared with control subjects. The peak of the inhibitory response for scalenes occurred significantly later for subjects with severe OSA than for control subjects (by 76 +/- 5 ms vs 60 +/- 3 ms [mean +/- SEM], respectively). Onset latencies of the later excitatory response were delayed for scalenes, parasternal intercostals, and chest wall recordings (eg, scalenes: 105 +/- 9 ms for subjects with severe OSA vs 83 +/- 5 ms for control subjects). CONCLUSIONS: The latency of peak inhibition and duration of inhibition were positively correlated with the respiratory disturbance index for all muscle groups. These changes may reflect adaptation in central respiratory paths due to repetitive loading during sleep.     

Neural alterations and depressive symptoms in obstructive sleep apnea patients

STUDY OBJECTIVES: Depressive symptoms are common in obstructive sleep apnea (OSA) patients, and brain injury occurs with both OSA and depression independently. The objective was to determine whether brain alterations in OSA bear relationships to depressive symptoms. DESIGN: Cross-sectional study. SETTING: University-based medical center. PARTICIPANTS: 40 treatment-naive OSA subjects and 61 control subjects without diagnosed psychopathology. INTERVENTIONS: None. MEASUREMENTS AND RESULTS: Whole-brain maps of T2 relaxation time, a measure sensitive to injury, were calculated from magnetic resonance images, transformed to common space, and smoothed. Control and OSA groups were classified by Beck Depression Inventory (BDI)-II scores (> or =12 symptomatic, <10 asymptomatic for depressive symptoms). The OSA group separated into 13 symptomatic (mean +/- SD: BDI-II 21 +/- 8; age 47.6 +/- 11; apnea hypopnea index [AHI] 28.3 +/- 17), and 27 asymptomatic (4 +/- 3; 47.5 +/- 8; 31.5 +/- 16) subjects. The control group included 56 asymptomatic (BDI-II 2.5 +/- 2.6; age 47.3 +/- 9) subjects. Asymptomatic OSA subjects exhibited higher AHI. T2 maps were compared between groups (ANCOVA), with age and gender as covariates. Injury appeared in symptomatic vs asymptomatic OSA subjects in the mid- and anterior cingulate, anterior insular, medial pre-frontal, parietal, and left ventrolateral temporal cortices, left caudate nucleus, and internal capsule. Relative to asymptomatic controls, symptomatic OSA patients showed damage in the bilateral hippocampus and caudate nuclei, anterior corpus callosum, right anterior thalamus, and medial pons. CONCLUSIONS: Neural injury differed between OSA patients with and without depressive symptoms. Depressive symptoms may exacerbate injury accompanying OSA, or introduce additional damage in affective, cognitive, respiratory, and autonomic control regions.     

Mechanisms of sleep-disordered breathing: causes and consequences

Obstructive sleep apnea (OSA) is very common in the general population and is characterized by ineffective inspiratory efforts against a collapsed upper airway during sleep. Collapse occurs mainly at the level of the velopharynx and oropharynx due to a combination of predisposing anatomy and the withdrawal of pharyngeal dilator activity during sleep. Central sleep apnea (CSA) is a manifestation of chemoreflex control instability, leading to periods of inadequate respiratory drive sufficient to trigger breathing, usually alternating with periods of hyperventilation. While both forms of apnea are the result of differing pathophysiology, it has become increasingly clear that OSA and CSA often coexist in the same patient, the existence of one can predispose to the other, and that the two are not as distinct as previously thought. Both OSA and CSA exert a number of acute deleterious effects including intermittent hypoxia, arousals from sleep, and swings in negative intrathoracic pressure, which in turn lead to chronic physiologic consequences such as autonomic dysregulation, endothelial dysfunction, and cardiac remodeling. These underlying pathophysiological mechanisms provide a framework for understanding why OSA and CSA may predispose to cardiovascular diseases like ischemic heart disease and stroke.     

Effect of Body Posture on Pharyngeal Shape and Size in Adults With and Without Obstructive Sleep Apnea

Study Objectives:

In patients with obstructive sleep apnea (OSA), the severity and frequency of respiratory events is increased in the supine body posture compared with the lateral recumbent posture. The mechanism responsible is not clear but may relate to the effect of posture on upper airway shape and size. This study compared the effect of body posture on upper airway shape and size in individuals with OSA with control subjects matched for age, BMI, and gender.

Participants:

11 males with OSA and 11 age- and BMI-matched male control subjects.

Results:

Anatomical optical coherence tomography was used to scan the upper airway of all subjects while awake and breathing quietly, initially when supine, and then in the lateral recumbent posture. A standard head, neck, and tongue position was maintained during scanning. Airway cross-sectional area (CSA) and anteroposterior (A-P) and lateral diameters were obtained in the oropharyngeal and velopharyngeal regions in both postures. A-P to lateral diameter ratios provided an index of regional airway shape. In equivalent postures, the ratio of A-P to lateral diameter in the velopharynx was similar in OSA and control subjects. In both groups, this ratio was significantly less for the supine than for the lateral recumbent posture. CSA was smaller in OSA subjects than in controls but was unaffected by posture.

Conclusions:

The upper airway changes from a more transversely oriented elliptical shape when supine to a more circular shape when in the lateral recumbent posture but without altering CSA. Increased circularity decreases propensity to tube collapse and may account for the postural dependency of OSA.

Citation:

Walsh JH; Leigh MS; Paduch A; Maddison KJ; Armstrong JJ; Sampson DD; Hillman DR; Eastwood PR. Effect of body posture on pharyngeal shape and size in adults with and without obstructive sleep apnea. SLEEP 2008;31(11):1543–1549.     

The effect of acute intermittent hypercapnic hypoxia treatment on IL-6, TNF-alpha, and CRP levels in piglets

STUDY OBJECTIVES: Obstructive sleep apnea (OSA) is characterized by repeated episodes of upper-airway obstruction during sleep leading to significant hypercapnic hypoxic conditions. These conditions are associated with increased levels of proinflammatory cytokines (including interleukin [IL]-6, tumor necrosis factor [TNF]-alpha, and C-reactive protein [CRP]) and subsequent increased cardiovascular risk. It is unclear whether hypercapnic hypoxia itself causes inflammatory perturbations. DESIGN: We evaluated circulating IL-6, TNF- a and CRP in a piglet model of infant OSA, following exposure to acute intermittent hypercapnic hypoxia (IHH). Study groups comprised of treatment (n = 8) and control (n = 8) groups. Treatment was two 90-minute sessions of IHH with arterial blood sampled before and after each IHH session. MEASUREMENTS AND RESULTS: IL-6, TNF-alpha and CRP levels were measured before and after IHH treatment sessions. Results showed an increase in IL-6 following the first session of IHH that was neither sustained, nor repeated, during a subsequent exposure. Using mixed-modelling, TNF-alpha changed between time points and groups. There were no changes in CRP over the duration of the study. CONCLUSION: These results suggest that acute hypoxia causes a transient increase in IL-6 levels and has implications for the pathogenesis of increased cardiovascular disease in OSA, especially in childhood.     

Nasal continuous positive airway pressure changes blood pressure "non-dippers" to "dippers" in patients with obstructive sleep apnea

To evaluate the circadian pattern of blood pressure (BP) and the effects of nasal continuous positive airway pressure (CPAP) on patients with obstructive sleep apnea (OSA), we examined 24-hour BP in 38 male OSA patients with and without nasal CPAP. We measured the BP at 30-min intervals during daytime (800 to 2200) and nighttime (2200 to 800) hours. A "dipper" was defined as a patient who showed an average reduction of at least 10 mm Hg systolic and 5 mm Hg diastolic between daytime and nighttime values. The subjects were predominantly "non-dipper" (22 of 38 patients, 58%). Daytime hypertension (>160/95 mm Hg) was present in 11 of 38 patients (4 "dippers" and 7 "non-dippers"). After nasal CPAP treatment for 3 days, the average BP decreased significantly during the day and night in all subjects (p<0.05). Fifteen of 22 subjects who were "non-dippers" before treatment reversed to become "dippers." And daytime hypertension was detected in only 5 of these patients during nasal CPAP treatment (4 "dippers" and 1 "non-dipper"). These results showed that the "non-dipper" status was common in patients with OSA, and that nasal CPAP restored the normal circadian "dipper" pattern. We suggest that nasal CPAP may contribute to an improved prognosis in patients with OSA because of a reduction in cardiovascular risk factors in "non-dipper" with severe OSA.     

Inspiratory loading elicits aberrant fMRI signal changes in obstructive sleep apnea

We hypothesized that neural processes mediating deficient sensory and autonomic regulatory mechanisms in obstructive sleep apnea (OSA) would be revealed by responses to inspiratory loading in brain regions regulating sensory and motor control. Functional magnetic resonance imaging (fMRI) signals and physiologic changes were assessed during baseline and inspiratory loading in 7 OSA patients and 11 controls, all male and medication-free. Heart rate increases to inspiratory loading began earlier and load pressures were achieved later in OSA patients. Comparable fMRI changes emerged in multiple brain regions in both groups, including limbic, cerebellar, midbrain, and primary motor cortex. However, in OSA subjects, altered signals appeared in primary sensory thalamus and sensory cortex, supplementary motor cortex, cerebellar cortex and deep nuclei, cingulate, medial temporal, and insular cortices, right hippocampus, and midbrain. Signal delays occurred in basal ganglia. We conclude that areas mediating sensory and autonomic processes, and motor timing, are affected in OSA; many of these areas overlap regions of previously demonstrated gray matter loss.     

Auto-titrating versus standard continuous positive airway pressure for the treatment of obstructive sleep apnea: results of a meta-analysis

STUDY OBJECTIVE: To compare the effectiveness of auto-titrating continuous positive airway pressure (APAP) versus conventional continuous positive airway pressure (CPAP) in reducing the apnea-hypopnea index (AHI), reducing the mean airway pressure, improving subjective sleepiness, and improving treatment adherence in patients with obstructive sleep apnea (OSA). DESIGN: Meta-analysis and metaregression of published randomized trials comparing APAP to CPAP. SETTING: N/A. PARTICIPANTS: N/A. INTERVENTIONS: N/A. RESULTS: We identified 9 randomized trials studying a total of 282 patients. Compared to CPAP, there was no significant advantage of APAP in reducing AHI or sleepiness (pooled APAP-CPAP posttreatment AHI and Epworth Sleepiness Scale score = -0.20 events per hour, 95% confidence interval:[-0.74,0.35], and -0.56 [-1.4,0.3] respectively). The use of APAP reduced the mean applied pressure across the night by 2.2 cm water [1.9,2.5] compared to CPAP. Adherence with therapy was not substantially improved with APAP; pooled estimate of improvement was 0.20 hours per night ([-0.16,0.57], P = .28) using a random-effects model. CONCLUSIONS: Compared to standard CPAP, APAP is associated with a reduction in mean pressure. However, APAP and standard CPAP were similar in adherence and their ability to eliminate respiratory events and to improve subjective sleepiness. Given that APAP is more costly than standard CPAP, APAP should not be considered first-line chronic therapy in all patients with OSA. However, APAP may be useful in other situations (eg, home titrations, detection of mouth leak) or in certain subgroups of patients with OSA. Identifying circumstances in which APAP is a definite improvement over CPAP in terms of costs or effects should be the focus of future studies.     

Genioglossus fatigue in obstructive sleep apnea

Obstructive sleep apnea (OSA) is a prevalent disorder that may cause cardiovascular disease and fatal traffic accidents but the pathophysiology remains incompletely understood. Increased fatigability of the genioglossus (the principal upper airway dilator muscle) might be important in OSA pathophysiology but the existing literature is uncertain. We hypothesized that the genioglossus in OSA subjects would fatigue more than in controls. In 9 OSA subjects and 9 controls during wakefulness we measured maximum voluntary tongue protrusion force (Tpmax). Using surface electromyography arrays we measured the rate of decline in muscle fiber conduction velocity (MFCV) during an isometric fatiguing contraction at 30% Tpmax. The rate of decline in MFCV provides an objective means of quantifying localized muscle fatigue. Linear regression analysis of individual subject data demonstrated a significantly greater decrease in MFCV in OSA subjects compared to control subjects (29.2 ± 20.8% [mean ± SD] versus 11.2 ± 20.8%; p=0.04). These data support increased fatigability of the genioglossus muscle in OSA subjects which may be important in the pathophysiology of OSA.     

Obstructive sleep apnea as a risk factor for silent cerebral infarction

Previous studies have suggested that obstructive sleep apnea (OSA) may be a risk factor for stroke. In this study, we assessed that OSA is an independent risk factor of silent cerebral infarction (SCI) in the general population, and in a non‐obese population. This study recruited a total of 746 participants (252 men and 494 women) aged 50–79 years as part of the Korean Genome and Epidemiology Study (KoGES); they underwent polysomnography, brain magnetic resonance imaging and health screening examinations. SCI was assessed by subtypes and brain regions, and lacunar infarction represented lesions <15 mm in size in the penetrating arteries. Moderate–severe OSA was determined by apnea–hypopnea index ≥15. The results indicated that 12.06% had moderate–severe OSA, 7.64% of participants had SCI and 4.96% had lacunar infarction. Moderate–severe OSA was associated positively with SCI [odds ratio (OR): 2.44, 95% confidence interval (CI): 1.03–5.80] and lacunar infarction (OR: 3.48, 95% CI: 1.31–9.23) in the age ≥65‐year group compared with those with non‐OSA. Additionally, in the basal ganglia, OSA was associated with an increase in the odds for SCI and lacunar infarction in all age groups, and especially in the ≥65‐year age group. In the non‐obese participants, OSA was also associated positively with SCI in the ≥65‐year age group, lacunar infarction in all age groups, and especially in the ≥65‐year age group. There was also a positive association with the basal ganglia. Moderate–severe OSA was associated positively with SCI and lacunar infarction in elderly participants. Treatment of OSA may reduce new first‐time cerebrovascular events and recurrences.     

Sleep apnea in acute cerebrovascular diseases: final report on 128 patients

Although obstructive sleep apnea (OSA) appears to be a cardiovascular risk factor, its frequency in patients with transient ischemic attack (TIA) and stroke remains poorly known. We prospectively studied 128 patients (mean +/- SD age = 59 +/- 15 years) with stroke (n = 75) or TIA (n = 53). Assessment included body mass index (BMI); history of snoring and daytime sleepiness; cardiovascular risk factors and diseases; and severity of stroke (Scandinavian Stroke Scale = SSS). Polysomnography (PSG) was obtained in 80 subjects (group 1), a mean of 9 days (range, 1-71 days) after TIA or stroke. In 48 subjects (group 2), PSG was not available, refused, or inadequate. Groups 1 and 2 were similar with the exception of gender distribution. Clinical and PSG data were compared to those of 25 healthy controls matched for age, gender, and BMI. An apnea-hypopnea index (AHI) > 10 was found in 62.5% of subjects and 12.5% of controls. Between patients and controls there was a significant difference in AHI (mean [range]: 28 (0-140) vs 5 (0-24), p < 0.001), maximal apnea duration (mean + SD: 37 +/- 23 vs 23 +/- 13 seconds, p = 0.009), and minimal oxygen saturation (mean + SD: 82 +/- 10% vs 90 +/- 5%, p < 0.001). Conversely, frequency and severity of OSA were similar in stroke and TIA subjects. Multiple regression analysis identified age, BMI, diabetes, and SSS as independent predictors of AHI. Sleep apnea has a high frequency in patients with TIA and stroke, particularly in older patients with high BMI, diabetes, and severe stroke. These results may have implications for prevention, acute treatment, and rehabilitation of patients with acute cerebrovascular diseases.     

Alcohol alters sensory processing to respiratory stimuli in healthy men and women during wakefulness

Study Objectives:

Alcohol can cause sleep-disordered breathing in healthy men, increase O₂ desaturation in men who snore, and worsen obstructive sleep apnea (OSA) severity in men with OSA. These findings are less consistent among women, and the underlying mechanisms are incompletely understood. Respiratory-load sensory processing, which underpins upper-airway and respiratory responses to increased breathing load, is potentially impaired by alcohol. Using respiratory-related evoked potentials (RREPs) during wakefulness, this study aimed to test the hypothesis that alcohol impairs respiratory-load sensory processing and to explore potential sex differences.

Design:

Within-subjects cross-over design in men versus women.

Setting:

Sleep physiology laboratory.

Participants:

Twenty healthy individuals (9 women) aged 18 to 38 years.

Interventions:

Within each subject, RREP waveform components were generated by ∼60 brief early-inspiratory negative-pressure pulses (−13 cm H₂O mask pressure, 200 ms) before and after acute alcohol administration (1.5 mL/kg body weight). Choanal and epiglottic pressures were recorded to monitor stimulus magnitude and upper-airway resistance.

Measurements and Results:

The latency of several RREP waveform components increased after the administration of alcohol (ΔN1 = 11 ± 5 ms, ΔN2 = 6 ± 3 ms, ΔP3 = 26 ± 10 ms), and P2 amplitude decreased (3.4 ± 1.5 μV vs 1.2 ± 0.8 μV). There were no changes in P1 latency or amplitude. During relaxed breathing, nasal resistance increased after alcohol ingestion (1.38 ± 0.16 vs 1.86 ± 0.18 cm H₂O·l^-1·s^-1), but pharyngeal and supraglottic resistances remained unchanged. RREP waveform components and upper-airway resistance measures were not different in men versus women before or after alcohol ingestion.

Conclusions:

These data demonstrate that alcohol alters sensory processing of respiratory neural information, but not early neural transmission (P1), to a similar extent in healthy men and women. Altered sensory processing to respiratory stimuli, as well as nasal congestion, may be important mechanisms contributing to alcohol-related sleep disordered breathing.

Citation:

Eckert DJ; Elgar NJ; McEvoy RD; Catcheside PG. Alcohol alters sensory processing to respiratory stimuli in healthy men and women during wakefulness. SLEEP 2010;33(10):1389-1395.     

Upper Airway Sensory Function in Children with Obstructive Sleep Apnea Syndrome

Study Objectives:

Children with the obstructive sleep apnea syndrome (OSAS) have impaired responses to hypercapnia, subatmospheric pressure, and inspiratory resistive loading during sleep. This may be due, in part, to an impairment in the afferent limb of the upper airway sensory pathway. Therefore, we hypothesized that children with OSAS had diminished upper airway sensation compared to controls.

Design:

Case-control

Setting:

Academic hospital

Participants:

Subjects with OSAS aged 6–16 years, and age- and BMI-matched controls.

Interventions:

Two-point discrimination (TPD) was measured during wakefulness with modified calipers in the anterior tongue, right interior cheek, and hard palate.

Results:

Thirteen children with OSAS and 9 controls were tested. The age (mean ± SD) for OSAS and controls was 11 ± 4 vs. 13 ± 2 years (NS); OSAS BMI Z score 2.4 ± 0.5, controls 2.2 ± 0.5 (NS); OSAS apnea hypopnea index 31 ± 48, controls 0.4 ± 0.5 events/hour (P < 0.001). Children with OSAS had impaired TPD in the anterior tongue (median [range]) = 9 [3–14] mm, controls 3 [1–7], P = 0.002) and hard palate (OSAS 6 [3–9] mm, controls 3 [1–4], P < 0.001). TPD in the cheek was similar between the groups (P = 0.12).

Conclusion:

TPD in the anterior tongue and hard palate was impaired in children with OSAS during wakefulness. We speculate that this impairment might be due to a primary sensory function abnormality or secondary to nerve damage and/or hypoxemia caused by OSAS. Further studies after treatment of OSAS are needed.

Citation:

Tapia IE; Bandla P; Traylor J; Karamessinis L; Huang J; Marcus CL. Upper airway sensory function in children with obstructive sleep apnea syndrome. SLEEP 2010;33(7):968–972.     

Laryngeal reflex responses are not modulated during human voice and respiratory tasks

The laryngeal adductor response (LAR) is a protective reflex that prevents aspiration and can be elicited either by electrical stimulation of afferents in the superior laryngeal nerve (SLN) or by deflection of mechanoreceptors in the laryngeal mucosa. We hypothesized that because this reflex is life-sustaining, laryngeal muscle responses to sensory stimuli would not be suppressed during volitional laryngeal tasks when compared to quiet respiration. Unilateral electrical superior laryngeal nerve stimulation was used to elicit early (R1) and late (R2) responses in the ipsilateral thyroarytenoid muscle in 10 healthy subjects. The baseline levels of muscle activity before stimulation, R1 and R2 response occurrence and the integrals of responses were measured during each task: quiet inspiration, prolonged vowels, humming, forced inhalation and effort closure. We tested whether R1 response integrals during tasks were equal to either: (1) baseline muscle activity during the task added to the response integral at rest; (2) the response integral at rest minus the baseline muscle activity during the task; or (3) the response integral at rest. R1 response occurrence was not altered by task from rest while fewer R2 responses occurred only during effort closure and humming compared to rest. Because the R1 response integrals did not change from rest, task increases in motor neuron firing did not alter the LAR. These findings demonstrate that laryngeal motor neuron responses to sensory inputs are not gated during volitional tasks confirming the robust life-sustaining protective mechanisms provided by this airway reflex.     

Consequences of Comorbid Sleep Apnea in the Metabolic Syndrome—Implications for Cardiovascular Risk

Study Objectives:

Metabolic syndrome (MetSyn) increases overall cardiovascular risk. MetSyn is also strongly associated with obstructive sleep apnea (OSA), and these 2 conditions share similar comorbidities. Whether OSA increases cardiovascular risk in patients with the MetSyn has not been investigated. We examined how the presence of OSA in patients with MetSyn affected hemodynamic and autonomic variables associated with poor cardiovascular outcome.

Design:

Prospective clinical study.

Participants:

We studied 36 patients with MetSyn (ATP-III) divided into 2 groups matched for age and sex: (1) MetSyn+OSA (n = 18) and (2) MetSyn-OSA (n = 18).

Measurements:

OSA was defined by an apnea-hypopnea index (AHI) > 15 events/hour by polysomnography. We recorded muscle sympathetic nerve activity (MSNA - microneurography), heart rate (HR), and blood pressure (BP - Finapres). Baroreflex sensitivity (BRS) was analyzed by spontaneous BP and HR fluctuations.

Results:

MSNA (34 ± 2 vs 28 ± 1 bursts/min, P = 0.02) and mean BP (111 ± 3 vs. 99 ± 2 mm Hg, P = 0.003) were higher in patients with MetSyn+OSA versus patients with MetSyn-OSA. Patients with MetSyn+OSA had lower spontaneous BRS for increases (7.6 ± 0.6 vs 12.2 ± 1.2 msec/mm Hg, P = 0.003) and decreases (7.2 ± 0.6 vs 11.9 ± 1.6 msec/mm Hg, P = 0.01) in BP. MSNA was correlated with AHI (r = 0.48; P = 0.009) and minimum nocturnal oxygen saturation (r = −0.38, P = 0.04).

Conclusion:

Patients with MetSyn and comorbid OSA have higher BP, higher sympathetic drive, and diminished BRS, compared with patients with MetSyn without OSA. These adverse cardiovascular and autonomic consequences of OSA may be associated with poorer outcomes in these patients. Moreover, increased BP and sympathetic drive in patients with MetSyn+OSA may be linked, in part, to impairment of baroreflex gain.

Citation:

Trombetta IC; Somers VK; Maki-Nunes C; Drager LF; Toschi-Dias E; Alves MJNN; Fraga RF; Rondon MUPB; Bechara MG; Lorenzi-Filho G; Negrão CE. Consequences of comorbid sleep apnea in the metabolic syndrome—implications for cardiovascular risk. SLEEP 2010;33(9):1193-1199.     

Two year reduction in sleep apnea symptoms and associated diabetes incidence after weight loss in severe obesity

STUDY OBJECTIVES: To evaluate the effect of bariatric surgery on sleep apnea symptoms and obesity-associated morbidity in patients with severe obesity. DESIGN: Prospective study. SETTING: University hospitals and community centers in Sweden. Intervention: We investigated the influence of weight loss surgery (n=1729) on sleep apnea symptoms and obesity-related morbidity using a conservatively treated group (n=1748) as a control. MEASUREMENTS AND RESULTS: Baseline BMI in surgical group (42.2+/-4.4 kg/m(2)) and control group (40.1+/-4.6 kg/m(2)) changed -9.7+/-5 kg/m(2) and 0+/-3 kg/m(2), respectively, at 2-year follow-up. In the surgery group, there was a marked improvement in all obstructive sleep apnea (OSA) symptoms compared with the control group (P <0.001). Persistence of snoring (21.6 vs 65.5%, adjusted OR 0.14, 95% CI 0.10-0.19) and apnea (27.9 vs 71.3%, adjusted OR 0.16, 95% I 0.10-0.23) were much less in the surgery group compared with controls. Compared with subjects with no observed apnea at follow-up (n=2453), subjects who continued to have or developed observed apnea (n=404) had a higher incidence of diabetes (adjusted OR 2.03, 95% CI 1.19-3.47) and hypertriglyceridemia (adjusted OR 1.86, 95% CI 1.07-3.25) but not hypertension (adjusted OR 1.09, 95% CI 0.65-1.83) or hypercholesterolemia (adjusted OR 0.91, 95% CI 0.53-1.58). CONCLUSION: Bariatric surgery results in a marked improvement in sleep apnea symptoms at 2 years. Despite adjustment for weight change and baseline central obesity, subjects reporting loss of OSA symptoms had a lower 2-year incidence of diabetes and hypertriglyceridemia. Improvement in OSA in patients losing weight may provide health benefits in addition to weight loss alone.     

The determinants of the apnea threshold during NREM sleep in normal subjects

STUDY OBJECTIVE: To determine whether (1) postmenopausal women have a higher apnea threshold than premenopausal women and men and (2) hormone replacement therapy would decrease the apnea threshold in postmenopausal women. DESIGN: Protocol #1: Analysis of a prospectively collected database of 55 subjects who had undergone an apnea-threshold protocol. Protocol #2: Intervention study: apnea threshold compared in 6 postmenopausal women before and after 30 days of replacement therapy with progestin and estrogen. SETTING: Research sleep laboratory. PARTICIPANTS: Healthy volunteers aged 18 to 65 years without evidence of sleep-disordered breathing. INTERVENTIONS: Hypocapnia was induced via nasal mechanical ventilation for 3 minutes during stable non-rapid eye movement sleep. Cessation of mechanical ventilation resulted in hypocapnic central apnea or hypopnea, depending upon the magnitude of the hypocapnia. The change in endtidal CO2 at the apnea threshold was defined as the change in end-tidal CO2 associated with the apnea closest to the last hypopnea. MEASUREMENTS AND RESULTS: The change in the end-tidal CO2 at the apnea threshold was highest in the premenopausal women (4.6+/-0.6 mm Hg), with no difference between the postmenopausal women (3.1+/-0.5 mm Hg) and men (3.4+/-0.7 mm Hg). Determinants of the change in endtidal CO2 at the apnea threshold included sex and menopause status. Hormone replacement therapy increased the change in end-tidal CO2 at the apnea threshold from 2.9+/-0.4 mm Hg to 4.8+/-0.4 mm Hg (P<.001). CONCLUSIONS: These data support the hypothesis that estrogens and progestins positively influence the apnea threshold and control of breathing during non-rapid eye movement sleep.