Type 2 cytokines in the pathogenesis of sustained airway dysfunction and airway remodeling in mice

The mechanisms underlying airway hyperresponsiveness remain unclear, although airway inflammation and remodeling likely play important roles. We have observed sustained airway hyperreactivity and airway remodeling occurring in mice after chronic allergen exposure and persisting beyond resolution of allergen-induced inflammation. The aim of this study was to delineate mechanisms involved in allergen-induced airway hyperreactivity and airway remodeling and to examine evidence for a causal association between airway remodeling and sustained airway hyperreactivity. Wild-type (WT) and interleukin (IL)-4-, IL-5-, and IL-13-deficient (-/-) mice were sensitized and studied 4 weeks after chronic allergen exposure. By measuring airway responsiveness and airway morphometry, we demonstrated that WT mice developed sustained airway hyperreactivity and aspects of airway remodeling after chronic allergen exposure. Both IL-4(-/-) and IL-13(-/-) mice were protected from developing sustained airway hyperreactivity and aspects of airway remodeling. In contrast, IL-5(-/-) mice developed sustained airway hyperreactivity and aspects of airway remodeling similar to that seen in WT mice. Our results confirm that IL-4 and IL-13, but not IL-5, are critical for the development of sustained airway hyperreactivity and airway remodeling after allergen exposure.     

Relaxin plays an important role in the regulation of airway structure and function

Relaxin is a reproductive hormone with pleiotropic actions. In addition to airway fibrosis, relaxin deficiency results in airway structural changes (epithelial thickening) and increased lung recoil, suggesting that relaxin may impact other aspects of airway/lung structure and function beyond its ability to regulate collagen turnover. Furthermore, these structural changes associated with relaxin deficiency show marked similarity to the structural changes seen in asthma. The current study investigated the broader role of relaxin in regulating airway structure and function and examined the relationship between airway inflammation, structural changes, and airway hyperresponsiveness (AHR) using an ovalbumin (OVA)-induced model of allergic airways disease (AAD). The model of AAD was applied to 12-month-old relaxin-deficient (Rln(-/-)) mice with established airway fibrosis and age-matched wild-type (Rln(+/+)) controls. OVA-treated Rln(+/+) mice (induced inflammation) developed increased epithelial thickening (P < 0.05) and AHR (P < 0.05) but not airway fibrosis, compared with saline-treated Rln(+/+) controls. Saline-treated Rln(-/-) mice had significantly increased lung collagen deposition (existing fibrosis) and epithelial thickening and remarkably were found to have increased AHR that was equivalent to that in OVA-treated Rln(+/+) mice (all P < 0.05 vs. saline-treated Rln(+/+) controls). OVA-treated Rln(-/-) mice (existing fibrosis and induced inflammation) had increased airway/lung fibrosis (P < 0.05) but equivalent airway inflammation and AHR compared with OVA-treated Rln(+/+) animals. These findings demonstrate for the first time a role for relaxin in the regulation of airway responses using Rln(-/-) mice and suggest that airway fibrosis and/or epithelial thickening can result in increased AHR equivalent to that induced by airway inflammation in AAD.     

The effects of breath-holds and Muller manoeuvres on upper airway carbon dioxide concentration in humans

BACKGROUND: Obstructive sleep apnoea is caused by collapse of the upper airway. The presence of CO(2) in the upper airway lumen evokes a number of reflexes which favour upper airway re-opening, and we have proposed previously that CO(2) would build up in the upper airway following airway collapse and that this would contribute to reflex airway re-opening. However, it is not known if CO(2) can transfer from the alveoli to the anatomical dead space of the upper airway during apnoea. OBJECTIVES: To determine if alveolar CO(2) can enter the upper airway during breath-holds and Muller manoeuvres. MATERIAL AND METHODS: With local ethics committee approval, 6 male volunteers (aged 22-48 years), following a quiet inspiration, carried out breath-holds and Muller manoeuvres until breaking point. CO(2) was measured continuously in samples obtained from the hypopharynx using an infrared analyser with a sample rate of 50 ml/min. Muller manoeuvres (forced inspirations against a closed upper airway) mimic the respiratory efforts which occur during obstructive apnoeas. RESULTS: In all cases, CO(2) increased progressively during apnoeas. There was a much larger increase in Muller manoeuvres (3.78 +/- 0.51%, mean +/- SEM at breaking point) compared to breath-holds. DISCUSSION: These results show that upper airway CO(2) concentration rises substantially during apnoeas and suggest that transfer of CO(2) from the lungs to the upper airway may evoke a number of reflex effects which could affect breathing and upper airway re-opening during obstructive apnoeas.     

不同内型哮喘小鼠模型中的小气道功能研究及其机制初探

目的 探讨不同内型哮喘小鼠模型中,小气道功能是否存在异常及其相关机制.方法 卵清蛋白(OVA)致敏、激发建立T2型哮喘模型,OVA联合臭氧暴露(OVA+ozone)建立非T2型哮喘模型.模拟强迫振荡系统检测小鼠小气道功能,激发试验检测气道反应性.酶联免疫吸附试验法检测支气管肺泡灌洗液(BALF)中的细胞因子;苏木精-伊...     

Role of endoplasmic reticulum stress in cystic fibrosis-related airway inflammatory responses

Chronic airway infection and inflammation are hallmarks of cystic fibrosis (CF) pulmonary disease. The altered airway environment resulting from infection and inflammation can affect the innate defense of the airway epithelia. Luminal bacterial and inflammatory stimuli trigger an adaptation in human airway epithelia, characterized by a hyperinflammatory response to inflammatory mediators, which is mediated by an expansion of the endoplasmic reticulum (ER) and its Ca(2+) stores. Recent studies demonstrated that a form of ER stress, the unfolded protein response (UPR), is activated in airway epithelia by bacterial infection-induced airway inflammation. UPR-dependent signaling is responsible for the ER Ca(2+) store expansion-mediated amplification of airway inflammatory responses. These studies highlight the functional importance of the UPR in airway inflammation and suggest that targeting the UPR may be a therapeutic strategy for airway diseases typified by chronic inflammation. This article reviews the contribution of airway epithelia to airway inflammatory responses, discusses how expansion of the ER Ca(2+) stores in inflamed airway epithelia contributes to airway inflammation, describes the functional role of the UPR in these processes, and discusses how UPR activation might be relevant for CF airways inflammatory disease.     

Relationship of airway wall thickness to airway sensitivity and airway reactivity in asthma

Airway wall thickening has been assumed to cause airway hyperresponsiveness, but a protective effect against airway narrowing has also been suggested. We investigated the relationship between airway wall thickness as assessed by helical computed tomography and two components of airway responsiveness, airway sensitivity and reactivity, in patients with stable asthma with (n = 23) and without (n = 22) inhaled steroid treatment. A cross-section of the apical bronchus of the right upper lobe was obtained. Airway wall area corrected by body surface area was measured as an index of wall thickness. Airway sensitivity and reactivity were measured by continuous inhalation of methacholine, on the basis of the methacholine respiratory resistance dose-response curve. The eosinophil count in sputum was determined in 16 patients [steroid (+) group] and 14 patients [steroid (-) group]. In both groups of patients, airway sensitivity was not related to airway reactivity. Airway sensitivity was related to eosinophil count [r = 0.57 in the steroid (+) group and r = 0.49 in the steroid (-) group], but not to airway wall thickness. In contrast, airway reactivity negatively correlated with airway wall thickness [r = -0.56 in the steroid (+) group and r = -0.55 in the steroid (-) group] but not with eosinophil count. Our results suggest that airway wall thickening attenuates airway reactivity in patients with asthma. These findings may have important implications in pathophysiology and in the treatment of airway remodeling.     

Allergen-induced peribronchial fibrosis and mucus production mediated by IkappaB kinase beta-dependent genes in airway epithelium

In response to inflammation or injury, airway epithelial cells express inducible genes that may contribute to allergen-induced airway remodeling. To determine the contribution of epithelial cell NF-kappaB activation to the remodeling response, we generated CC10-Cre(tg)/Ikkbeta(delta/delta) mice in which NF-kappaB signaling through IkappaB kinase beta (IKKbeta) is selectively ablated in the airway epithelium by conditional Cre-recombinase expression from the Clara cell (CC10) promoter. Repetitive ovalbumin challenge of mice deficient in airway epithelial IKKbeta prevented nuclear translocation of the RelA NF-kappaB subunit only in airway epithelial cells, resulting in significantly lower peribronchial fibrosis in CC10-Cre(tg)/Ikkbeta(delta/delta) mice compared with littermate controls as assessed by peribronchial trichrome staining and total lung collagen content. Levels of airway mucus, airway eosinophils, and peribronchial CD4+ cells in ovalbumin-challenged mice were also reduced significantly upon airway epithelial Ikkbeta ablation. The diminished inflammatory response was associated with reduced expression of NF-kappaB-regulated chemokines, including eotaxin-1 and thymus- and activation-regulated chemokine, which attract eosinophils and Th2 cells, respectively, into the airway. The number of peribronchial cells expressing TGF-beta1, as well as TGF-beta1 amounts in bronchoalveolar lavage, were also significantly reduced in mice deficient in airway epithelium IKKbeta. Overall, these studies show an important role for NF-kappaB regulated genes in airway epithelium in allergen-induced airway remodeling, including peribronchial fibrosis and mucus production.     

转化生长因子β在支气管哮喘气道平滑肌重塑中的作用

支气管哮喘(简称哮喘)是一种气道慢性炎症,持续的气道炎症导致气道重塑、不完全可逆的气流受限和进行性的肺功能受损.平滑肌细胞的增殖(包括增生和肥大)是哮喘气道重塑的特征性改变,是哮喘气道反应性和严重程度相关的重要因素之一.转化生长因子β(TGF-β)能够诱导分化、炎症、增生以及凋亡等多种细胞反应,促进平滑肌细胞的增生、肥大和迁移,在气道重塑中发挥重要作用.减少TGF-β的产生以及控制TGF-β的效应有利于对慢性哮喘气道重塑的干预治疗.     

Effect of airway opening manoeuvres on thoraco-abdominal asynchrony in anaesthetized children.

Thoraco-abdominal asynchrony is frequently encountered during inhalation anaesthesia in children with adenotonsillar hypertrophy causing an upper airway obstruction. The study goal was to evaluate the impact of different airway opening manoeuvres on thoraco-abdominal asynchrony as a measure of airway obstruction. Thirty anaesthetized children (aged 2-8 yrs; sevoflurane 3% in 50% oxygen/nitrous oxide) were studied prior to elective adenotonsillectomy using respiratory inductance plethysmography to record ribeage and abdominal wave forms as a basis for calculation of the phase angle. Five airway situations were compared: 1) baseline (unsupported mandible); 2) chin lift; 3) chin lift combined with continuous positive airway pressure of 10 cmH2O; 4) jaw thrust; and 5) jaw thrust combined with continuous positive airway pressure of 10 cmH2O. Three children had complete upper airway obstruction at baseline and were excluded from the study. With chin lift, thoraco-abdominal asynchrony improved in three patients, worsened in three patients and was unchanged in 21 patients. Additional continuous positive airway pressure during chin lift did not markedly reduce thoraco-abdominal asynchrony (phase angle 89 +/- 43 , p = 0.33). Jaw thrust resulted in a significant decrease of the phase angle (from 106 +/- 53 at baseline to 65 +/- 49 , p < 0.01); when combined with continuous positive airway pressure, no further effect on thoraco-abdominal asynchrony was found (72 +/- 44). In anaesthetized children with adenotonsillar hypertrophy, airway opening manoeuvres have distinct effects on thoraco-abdominal asynchrony. Delivery of continuous positive airway pressure and jaw thrust can be the first airway opening manoeuvres to improve breathing patterns. Chin lift without additional continuous positive airway pressure should be used with caution in these patients because it may convert partial into almost complete airway obstruction.     

Effects of respiratory syncytial virus persistence on airway responsiveness and inflammation in guinea-pigs.

Recurrent wheezing and asthma often develop after acute respiratory syncytial virus (RSV) bronchiolitis, but the mechanisms of these sequelae are poorly understood. Using a guinea-pig model of human RSV lung infection, the effects of long-term viral persistence on three hallmarks of asthma: nonspecific airway responsiveness, airway inflammation and airway remodelling were examined. Guinea-pigs were studied 100 days after intranasal instillation of either human RSV or uninfected vehicle, using: 1) acetylcholine challenge to test for airway hyperresponsiveness (AHR); 2) lung histology to quantify the numbers of airway eosinophils and metachromatic cells (mast cells/basophils); 3) airway morphometry of the areas of the airway subepithelial connective tissue, smooth muscle and adventitia, to test for airway remodelling; and 4) immunohistochemistry to identify lung cells containing RSV antigens. The RSV-inoculated group had significantly elevated AHR and airway eosinophils compared to uninfected control animals (p<0.05). There were no significant differences between the two groups in terms of numbers of airway metachromatic cells, or the areas of subepithelial connective tissue, smooth muscle or adventitia. Viral proteins were identified by immunohistochemistry within several types of lung cells. In conclusion, long-term persistence of respiratory syncytial virus in the guinea-pig lung is associated with airway hyperresponsiveness and airway eosinophilia, and these changes may be pertinent to the pathogenesis of postbronchiolitis wheezing and asthma in children.     

气道上皮屏障功能异常在支气管哮喘发病中的作用

支气管哮喘(哮喘)的主要表现为咳嗽、咳痰、胸闷和喘息,这些症状的病理生理学基础是气道高反应性和气道慢性嗜酸粒细胞炎症。气道上皮细胞是呼吸道的第一道防线,环境因素和炎症作用的影响引起气道上皮反复损伤、修复和再生导致气道黏膜上皮的组织学改变和功能异常。气道上皮的屏障功能与气道上皮细胞因子胸腺基质淋巴细胞生成素,白细胞介素25和白细胞介素33密切相关,哮喘患者气道上皮屏障的损害增强了气道上皮黏膜对异物的通透性,引起气道上皮细胞、树突状细胞和先天性固有淋巴样细胞(ILC2s)的激活。气道上皮细胞的功能异常以及树突状细胞、Th2细胞和ILC2s的激活形成一个免疫病理单元,引起过敏性气道炎症,在哮喘的发病中发挥重要作用。     

Transient airway cooling modulates dry-air-induced and hypertonic aerosol-induced bronchoconstriction.

Airflow-induced bronchoconstriction (AIB) may be initiated in asthmatic patients by inhaling dry air during eucapnic hyperventilation or exercise. Hypertonic aerosol-induced bronchoconstriction (HIB) also occurs in these patients, but it differs from AIB by exhibiting a faster time course. Although AIB and HIB probably increase airway fluid osmolality, only AIB is associated with airway cooling. In light of the similarities between our canine model and human AIB, we examined peripheral airway responses to dry air and hypertonic aerosol challenge. Specifically, we studied the magnitude and time course of these responses in an in situ, isolated, perfused lobe in which airway temperature was independently controlled. At body temperature, HIB peaked immediately after challenge, whereas transient airway cooling during aerosol challenge delayed HIB. In contrast, airway cooling attenuated AIB but did not alter its time course. Hypocapnia- and histamine-induced responses were not affected by airway cooling, suggesting that smooth muscle function was not impaired. To the extent that the mechanisms producing AIB in dogs and in humans are similar, our results suggest that (1) changes in airway fluid osmolality initiate AIB, (2) AIB = HIB + Cooling, and (3) exercise-induced asthma results from an imbalance between an excitatory pathway stimulated by airway drying and an inhibitory pathway initiated by airway cooling.     

Tobacco Smoke is an Adjuvant for Maintained Airway Sensitization in Guinea Pigs

Tobacco smoke (TS) exposure exacerbates asthma and may induce airway hyperresponsiveness in asymptomatic individuals. We hypothesized that TS exposure is an adjuvant to airway responsiveness. Ovalbumin (OA) sensitized guinea pigs were TS or air exposed. At 30 exposure days OA airway responsiveness was demonstrable in OA-treated animals exposed to either TS or air. After 130 exposure days only TS-exposed guinea pigs demonstrated OA airway responsiveness. Capsaicin airway responsiveness developed in non-sensitized and OA-sensitized guinea pigs exposed to TS. Therefore TS-exposure acts as an adjuvant to antigenic and neurogenic airway responsiveness. Combined antigen and adjuvant avoidance may attenuate or reverse airway responsiveness.     

Tobacco Smoke is an Adjuvant for Maintained Airway Sensitization in Guinea Pigs

Tobacco smoke (TS) exposure exacerbates asthma and may induce airway hyperresponsiveness in asymptomatic individuals. We hypothesized that TS exposure is an adjuvant to airway responsiveness. Ovalbumin (OA) sensitized guinea pigs were TS or air exposed. At 30 exposure days OA airway responsiveness was demonstrable in OA-treated animals exposed to either TS or air. After 130 exposure days only TS-exposed guinea pigs demonstrated OA airway responsiveness. Capsaicin airway responsiveness developed in non-sensitized and OA-sensitized guinea pigs exposed to TS. Therefore TS-exposure acts as an adjuvant to antigenic and neurogenic airway responsiveness. Combined antigen and adjuvant avoidance may attenuate or reverse airway responsiveness.     

Early pulmonary inflammation and lung damage in children with cystic fibrosis

Individuals with cystic fibrosis (CF) suffer progressive airway inflammation, infection and lung damage. Airway inflammation and infection are present from early in life, often before children are symptomatic. CF gene mutations cause changes in the CF transmembrane regulator protein that result in an aberrant airway microenvironment including airway surface liquid (ASL) dehydration, reduced ASL acidity, altered airway mucin and a dysregulated inflammatory response. This review discusses how an altered microenvironment drives CF lung disease before overt airway infection, the response of the CF airway to early infection, and methods to prevent inflammation and early lung disease.     

Sensitivity of a simplified forced oscillation technique for detection of upper airway obstruction

The sensitivity of a simplified variant of forced oscillation technique (FOT) was studied for assessment of dynamic upper airway obstruction during nasal continuous positive airway pressure (nCPAP) therapy for obstructive sleep apnoea (OSA). The airway impedance P[FOT] was measured by FOT and the oesophageal pressure (P(oes)) was recorded during stable stage II sleep in 11 patients with OSA. The CPAP level was initially set high enough to completely abolish upper airway obstruction. To induce gradually increasing upper airway re-obstruction, the CPAP pressure was then lowered stepwise. Thirty six such manoeuvres were analysed, blind, to define the first inspiration at which upper airway re-obstruction was detectable by analysis of P[FOT](t(FOT)) and by P(oes)(t(oes)), respectively. On seven occasions t(FOT) and t(oes) occurred together, in the remaining 29 cases t(FOT) preceded t(oes) with a mean latency of 6.0+/-7.7 (0-32) breath cycles. In no case did t(oes) preceed t(FOT). FOT is a highly sensitive tool for the assessment of incipient upper airway obstruction during nCPAP therapy.     

Use of a sibilant phoneme registration protocol to prevent upper airway collapse in patients with TMD

Patients with temporomandibular dysfunction (TMD) require antero-posterior (AP) correction of mandibular position inter alia. Determination of the limit of the AP correction using a sibilant phoneme registration (SPR) protocol is essential in not increasing muscular tonus. The aim of this study is to investigate the effect of a SPR protocol on the upper airway. Using acoustic pharyngometry data, mean airways of 46 adults undergoing treatment for TMD were reconstructed in 3-D and analyzed using finite element analysis and principal components analysis. When the mean baseline functional residual capacity (FRC) airway was compared to the mean collapsed residual volume (RV) airway, a 25% reduction in the 3-D upper airway was demonstrable (p < 0.01). When the mean baseline FRC airway was compared to the mean airway with SPR (FRC–SPR), a 12% increase was found at the oropharyngeal junction of the 3-D airway, but this finding failed to reach statistical difference. Similarly, when the mean FRC–SPR airway was compared to the mean RV–SPR airway, the amount of collapse was reduced to 16% but again no statistical difference was found. In contrast, when the mean RV airway was compared to the mean RV–SPR airway, a 15–18% increase was found (p < 0.05). It is concluded that the use of a SPR protocol may be useful in improving upper airway RV in patients, during treatment for TMD.     

Tachykinins mediate the acute increase in airway responsiveness caused by toluene diisocyanate in guinea pigs

Exposing guinea pigs to toluene diisocyanate (TDI) causes an acute increase in airway responsiveness to inhaled acetylcholine. The mechanism of this increase in airway responsiveness is unknown. Capsaicin-sensitive afferent nerves and the tachykinins they release upon activation are important in controlling bronchomotor tone in guinea pigs. To determine whether tachykinins are important in TDI-induced airway hyperresponsiveness, we studied the effects of tachykinin depletion, using capsaicin, and competitive tachykinin antagonism, using (D-Arg1, D-Pro2, D-Trp7.9, Leu11) substance P, on TDI-induced airway hyperresponsiveness. In 9 of 9 untreated animals, TDI exposure caused a large and significant increase in airway responsiveness to acetylcholine. The mean concentration of acetylcholine required to decrease specific airway conductance by 50% below baseline (the PD50) was 1.51% before TDI exposure and 0.17% after TDI exposure (p less than 0.0005). Capsaicin treatment had no effect on the PD50 but prevented the TDI-induced increase in airway responsiveness in 10 of 12 animals. (The PD50 was 1.03% before TDI and 1.27% after TDI exposure.) Treatment with the tachykinin antagonist (D-Arg1, D-Pro2, D-Trp7.9, Leu11) substance P also abolished the TDI-induced increase in airway responsiveness in all 5 animals treated. Although TDI exposure also causes airway edema, the effect of capsaicin treatment on TDI-induced airway hyperresponsiveness did not result from prevention of airway edema. TDI exposure caused a marked increase in tracheal extravasation of intravenously administered Evans blue dye that was not prevented by capsaicin treatment.(ABSTRACT TRUNCATED AT 250 WORDS)     

Airway hyperresponsiveness and airway inflammation in elite swimmers

Introduction: The prevalence of respiratory symptoms and airway hyperresponsiveness (AHR) is high in elite athletes; swimmers have one of the highest prevalences. No consensus exists on what airway challenge to use when identifying AHR in elite athletes. Further, knowledge is sparse about when during their active sport career AHR develops and if there is an acute effect on the airway inflammation of a swimming training session. Objectives: We aimed to (i) evaluate the airway response to a methacholine challenge, a eucapnic voluntary hyperpnoea (EVH) test, a field‐based exercise test (FBT) and a laboratory‐based exercise test (LBT) in adult elite swimmers; (ii) investigate airway responsiveness and airway inflammation in adolescent elite swimmers; and (iii) evaluate the acute effect of a training session in an indoor swimming pool on airway inflammation in adolescent elite swimmers. Materials and Methods: Two groups were studied. (i) In adult elite swimmers (n = 16), we examined airway response in four airway provocation tests: methacholine challenge, EVH test, FBT and LBT. (ii) In adolescent elite swimmers (n = 33), we examined airway responsiveness to EVH and methacholine, and airway inflammation and compared the findings with those in asthmatic adolescents (n = 32) and unselected adolescents (n = 35). Further, we examined the acute effect of swimming on airway inflammation in a subpopulation of the adolescent swimmers (n = 21). Airway inflammation was evaluated using sputum induction, measurements of exhaled nitric oxide (FeNO) and exhaled breath condensate (EBC). Results: Of 16 adult swimmers, eight (50%) had AHR; five of the eight (63%) were identified with the EVH test, four (50%) with the FBT, four (50%) with the LBT and none with the methacholine challenge [provocative dose of methacholine causing a 20% fall in FEV1 (PD₂₀) ≤ 2 µmol]. There were no differences in the prevalence of AHR to either EVH or methacholine (PD₂₀ ≤ 8 µmol) among the adolescent swimmers, the asthmatic adolescents and the unselected adolescents. When looking at airway responsiveness as a continuous variable, the swimmers were more responsive to EVH than were the unselected subjects, and less responsive to methacholine than were the asthmatic adolescents. There were no differences in FeNO, EBC pH or in the cellular composition of the sputum among the three groups. Lung function, FeNO, EBC pH, EBC lactate and differential cell counts in sputum were not acutely affected by the swimming session. Conclusion: We found that the EVH test is the most sensitive test for identifying AHR in elite athletes when using the diagnostic criteria set forward by the International Olympic Committe. Whereas a high prevalence of AHR in adult swimmers was found, the prevalence of AHR in the adolescent swimmers did not differ from that in unselected adolescents nor did the adolescent swimmers have signs of airway inflammation. There was no acute effect of a swimming training session in an indoor chlorinated pool on lung function or airway composition in adolescent swimmers. We believe that elite swimming results in airway changes with AHR and airway inflammation.     

Chronic intermittent asphyxia impairs rat upper airway muscle responses to acute hypoxia and asphyxia

BACKGROUND: Obstructive sleep apnea (OSA) is a major clinical disorder that is characterized by multiple episodes of upper airway obstruction due to the failure of the upper airway dilator muscles to maintain upper airway patency. This results in chronic intermittent asphyxia (CIA) due to repetitive apneas, but very little is known about the effects of CIA on upper airway muscle function. OBJECTIVE: To test the hypothesis that CIA affects upper airway muscle activity and electromyogram (EMG) responses to acute hypoxia and asphyxia. DESIGN: Record upper airway EMG responses to acute hypoxia and asphyxia in control and CIA-treated rats. SETTING: Department of Physiology, Royal College of Surgeons in Ireland, Dublin, Ireland. MEASUREMENTS: Sternohyoid (SH) muscle and diaphragm (DIA) muscle EMG activities were recorded in both groups during normoxia, hypoxia (7.5% O(2) in N(2)), and asphyxia (7.5% O(2) and 3% CO(2)) under pentobarbitone anesthesia. RESULTS: Baseline SH EMG activity was significantly elevated in the CIA-treated rats compared to the controls, whereas DIA EMG activity was similar in the two groups. In addition, CIA significantly reduced SH EMG but not DIA EMG responses to acute hypoxia and asphyxia. CONCLUSIONS: The elevated upper airway muscle activity associated with OSA in humans during wakefulness is due at least in part to CIA. We propose that a reduction in the response of upper airway dilator muscles to acute asphyxia following upper airway obstruction is likely to cause further asphyxic insult, leading to a vicious feed-forward cycle exacerbating the condition. Our results suggest that CIA contributes to the pathophysiology of sleep-disordered breathing.