Increased nasal mucosal swelling in subjects with asthma

Total nasal airway resistance while sitting predicts airway collapse when lying down

BACKGROUND

Nasal obstruction when lying down is a common complaint in patients with chronic nasal obstruction, but rhinomanometry is typically performed in the sitting position. This study aimed to analyse whether adding rhinomanometry in a supine position is a useful examination.

METHOD

A total of 41 patients with chronic nasal obstruction underwent rhinomanometry and acoustic rhinometry, sitting and supine, before and after decongestion, as well as an over-night polygraphy.

RESULTS

Total airway resistance was measurable in a supine position in 48 per cent (14 of 29) of the patients with total airway resistance of equal to or less than 0.3 Pa/cm3/second when sitting and in none (0 of 12) of the patients with total nasal airway resistance of more than 0.3 Pa/cm3/second when sitting. After decongestion, this increased to 83 per cent and 58 per cent, respectively.

CONCLUSION

Increased nasal resistance when sitting predicts nasal breathing problems when supine. Rhinomanometry in a supine position should be performed to diagnose upper airway collapse when supine.

Janus looks both ways: How do the upper and lower airways interact?

Our understanding of the relationship between the upper and lower airways has greatly increased as a consequence of epidemiologic and pharmacologic studies. A consistent body of scientific evidence supports the concept that rhinitis, rhinosinusitis and asthma may be the expression of a common inflammatory process, which manifests at different sites of the respiratory tract, at different times. This paradigm states that allergic reactions may begin at the local mucosa, but tend to propagate along the airway. Central to the allergic diathesis is the eosinophil and its interaction with the airway epithelium. The implications of the interplay between upper and lower airway are not only academic, but also important for diagnostic and therapeutic reasons. Furthermore, there is significant overlap in symptomatology and pathophysiology for childhood sleep disordered breathing (SDB) and asthma. Recent evidence supports an association between these two conditions, but causality has not been demonstrated. Regardless, it is important to recognize the overlap and evaluate for the other condition when one is present. In children with poorly controlled asthma, the presence of SDB may significantly contribute to asthma morbidity and, as such, should be actively excluded. On the other hand, clinical evaluation for asthma should be considered in children with SDB. Future robust longitudinal research is needed to explore the association between upper and lower airway diseases using objective measures in children.

The vagal ganglia transcriptome identifies candidate therapeutics for airway hyperreactivity

Mainstay therapeutics are ineffective in some people with asthma, suggesting a need for additional agents. In the current study, we used vagal ganglia transcriptome profiling and connectivity mapping to identify compounds beneficial for alleviating airway hyperreactivity (AHR). As a comparison, we also used previously published transcriptome data from sensitized mouse lungs and human asthmatic endobronchial biopsies. All transcriptomes revealed agents beneficial for mitigating AHR; however, only the vagal ganglia transcriptome identified agents used clinically to treat asthma (flunisolide, isoetarine). We also tested one compound identified by vagal ganglia transcriptome profiling that had not previously been linked to asthma and found that it had bronchodilator effects in both mouse and pig airways. These data suggest that transcriptome profiling of the vagal ganglia might be a novel strategy to identify potential asthma therapeutics.

Nasal endoscopic findings and nasal symptoms in patients with asthma: a clinical study from a rhinological perspective

OBJECTIVE

Allergic rhinitis (AR), non-allergic rhinitis (NAR), chronic rhinosinusitis with nasal polyps (CRSwNP), and chronic rhinosinusitis without nasal polyps (CRSsNP) occur frequently in asthmatic patients. We evaluated nasal symptoms and nasal endoscopic findings in patients with asthma and correlated them to asthma severity.

METHODS

Subjects (n=150) with asthma completed questionnaires designed to provide information related to asthma and nasal disease. Patients were divided into four groups based on asthma severity. Pulmonary function tests, skin-prick tests (SPTs) and nasal endoscopy were performed on every patient. Clinical findings were compared in asthma patients by rhinologists.

RESULTS

The total incidence of AR, NAR, CRSwNP and CRSsNP in these patients with asthma was 76%. By using Fisher's Exact Test, there was no statistical significance between asthma severity and the incidence of AR, NAR, CRSwNP and CRSsNP (P=0.311). There was a significant difference in the total nasal symptoms score among subjects with different grades of asthma (P=0.002). However, there were no significant differences in the total Lund-Kennedy endoscopic score (LKS) (P=0.736). The nasal endoscopic scores were significantly correlated at a high degree with the nasal symptoms score (P=0.000). A significant correlation was found between the nasal endoscopic score and the duration of asthma in the patients with different grades of asthma (P<0.05).

CONCLUSIONS

The relationship between rhinitis and asthma is complex. Nasal airways should become part of standard clinical assessment and follow-up in patients with asthma.

Physical exercise increases nasal patency in asthmatic and atopic preschool children

BACKGROUND

Physical exercise causes a decrease in nasal mucosal congestion and hence an increase in nasal patency. This nasal response has been studied only in adults. A correlation between nasal obstruction and asthma or allergic rhinitis has been previously found. This study evaluates the influences of atopy and asthma on nasal patency and the changes in nasal patency induced by physical exercise in preschool children.

METHODS

An 8-minute exercise challenge test was conducted in 31 children aged between 4.1 and 6.4 years: 13 children had asthma, 17 were atopic, and 13 had neither asthma nor atopy. Nasal patency was measured with acoustic rhinometry at baseline and 10 minutes after the exercise.

RESULTS

At baseline, the total acoustic values were 17-25% larger in nonasthmatic children than in asthmatic children. Accordingly, the acoustic values in nonatopic children were 16-35% larger than in atopic children. After physical exercise, there was an overall increase in mean total nasal volume from 2.973 (SD = 0.647) to 3.405 cm(3) (SD = 0.705), indicating an improvement of 15% in nasal volume (p = 0.025). The increase in nasal patency was similar in asthmatic and nonasthmatic children, as well as in atopic and nonatopic children.

CONCLUSION

A significant increase in total nasal volume after physical exercise was found in all preschool children. The minimal cross-sectional areas remained smaller in asthmatic and atopic children after exercise, indicating partly irreversible nasal mucosal congestion in these children.

Nasal flow, volumes, and minimal cross sectional areas in asthmatics

BACKGROUND

The Unified Airways hypothesis suggests an involvement of the upper airways in asthma. Critical parameters of the nasal airway can be quantified objectively with acoustic rhinometry (AR) and peak nasal inspiratory flow (PNIF).

OBJECTIVE

We aimed to investigate nasal airway patency in asthmatics compared to non-asthmatic controls. Nasal volume, cross sectional area and flow were measured using acoustic rhinometry (AR) and peak nasal inspiratory flow (PNIF) in 87 asthmatics and 93 non-asthmatic controls before and after decongestion with xylometazoline. Nasal congestion index (NCI) was calculated, and allergy status was assessed by skin prick test or specific IgE.

RESULTS

We found significantly smaller minimum cross sectional area and nasal cavity volume in asthmatics than controls, and the cross sectional area is at its minimum at 2-3 cm from the nasal orifice in both groups. AR and PNIF measurements are not different in allergic and non allergic subjects in either group. The effect of xylometazoline is not significantly different between the 2 groups with regard to AR, but there is a significant improvement in PNIF for the asthmatics when assessed by the NCI.

CONCLUSION

The present study demonstrates a significantly smaller nasal airway when assessed by minimum cross sectional area and nasal cavity volume in asthmatics than controls, and these findings apply to asthmatics and controls irrespective of allergy status.

The role of upper and lower airway patency in chronic rhinosinusitis with nasal polyps and asthma

OBJECTIVES/HYPOTHESIS

To investigate the role of airway patency and factors associated with airway patency in patients with chronic rhinosinusitis with nasal polyps (CRSwNP) and asthma.

STUDY DESIGN

Retrospective study.

METHODS

The upper and lower airway patency of 140 patients with CRSwNP and asthma (asthma group) and 42 patients with CRSwNP without asthma (nonasthma control group) was measured using acoustic rhinometry, rhinomanometry, and spirometry. Total serum immunoglobulin E and eosinophil counts were also compared. The severity of nasal diseases in these patients was assessed via the Lund-Mackay score (LMS) and Lund-Kennedy score (LKS).

RESULTS

There was no difference between the asthma and nonasthma groups in terms of total nasal resistance at 75 Pa (R(75T)), bilateral minimum cross-sectional area (MCA(R+L)), or bilateral nasal cavity volume between 0 and 7.0 cm(3) (V7(R+L)). Forced expiratory volume in 1 second (FEV(1)) and forced expiratory flow between 25% and 75% of forced vital capacity (FEF(25-75)) of the asthma group were significantly lower than those of the nonasthma group. FEV(1) and FEF(25-75) were not correlated with R(75T), MCA(R+L), V7(R+L), or severity of nasal disease. For the patients with asthma, LMS and serum eosinophil counts were independent predictors of MCA(R+L).

CONCLUSIONS

The presence of asthma may not influence upper airway patency in CRSwNP patients. In CRSwNP patients with asthma, impairment of upper airway patency was associated with changes in LMS and eosinophilia, and in these patients lower airway patency was significantly lower than that of the control group (without asthma). In CRSwNP patients with asthma, there was little or no association between upper and lower airway patency.

The burden of allergic rhinitis and asthma

Asthma and allergic rhinitis are common health problems that cause major illness and disability worldwide. The prevalence of allergic rhinitis is estimated to range from 10% to 20% in the USA and Europe. Multiple factors contribute to the wide range of reported prevalence rates. These include type of prevalence rate reported (current or cumulative), study selection criteria, age of participants, differences in survey methods, varied geographic locations and socioeconomic status, any of which are significant enough to confound direct comparison between studies. There is no standard set of diagnostic criteria for allergic rhinitis. In most studies, the criteria for diagnosis are based on the subject's reporting, solely by questionnaire and rarely confirmed by skin testing. In addition, most studies focus on hay fever, leaving perennial allergic rhinitis underestimated. Sinus imaging is generally not performed and, therefore, rhinosinusitis not differentiated. Some investigators report 'current' prevalence while others report 'cumulative' or 'lifetime' prevalence. Epidemiologic studies have consistently shown that asthma and rhinitis often coexist in the same patients. The prevalence of asthma is <2% in subjects without rhinitis while it varies from 10% to 40% in patients with rhinitis. Furthermore, the majority of patients with asthma experience rhinitis, which is a factor in the risk for asthma. Despite recognition that allergic rhinitis and asthma are global health problems, there are insufficient epidemiologic data and more data are needed with regard to their etiologic risk factors and natural history. This aim of this review is to enable the reader to discuss prevalence, risk factors and prognosis of allergic rhinitis and asthma.

Nasal steroids improve regulation of nasal patency in asthma and mild rhinitis: a randomised, cross-over trial

An important function of the healthy nose is the ability to adjust nasal patency in response to stimuli such as a change in posture between sitting and supine. We hypothesised that the regulation of nasal patency would be impaired in patients with asthma and mild rhinitis and that it could be improved by reducing nasal inflammation with a topical nasal steroid. This is a randomised, placebo-controlled, double-blind, cross-over study comprising 19 subjects with well-controlled asthma and a history of rhinitis without current treatment. The subjects were randomised to fluticasone propionate aqueous nasal spray (Beconase(®)), 200 μg daily, or placebo (FESS(®) saline nasal spray), for 6 weeks in a cross-over design with a 4-week wash-out between treatments. Nasal patency was measured with acoustic rhinometry, while sitting and supine and with peak nasal inspiratory flow (PNIF). Treatment response was also monitored with spirometry, Rhinoconjunctivitis Quality of Life Questionnaire (RQLQ), Short Form-36 (SF-36), and The Pittsburgh Sleep Quality Index. The minimal cross-sectional area remained unchanged between sitting and supine at baseline and after placebo but after fluticasone propionate there was a significant decrease. PNIF, RQLQ and SF-36 improved after fluticasone propionate, whereas sleep quality did not change. In well-controlled asthma and mild rhinitis, nasal steroid treatment normalised the neurovascular response to posture in the nasal mucosa and improved health-related quality of life. An impaired ability to regulate nasal patency could be a marker of upper airway inflammation in patients with asthma that can be measured non-invasively.

Reference values for acoustic rhinometry in children from 4 to 13 years old

BACKGROUND

Despite a growing number of studies using acoustic rhinometry (AR) in children, no reference material exists that incorporates the entire age and height interval of preschool children up to puberty for a range of rhinometric variables. The aim of this study is to provide a reference range for nasal volumes and minimum cross-sectional areas (MCAs) in healthy nondecongested children aged 4-13 years old.

METHODS

Two hundred fifty-six primary school children (mean, 7.95 years; range, 3.8-13.1 years; 123 boys/133 girls) were measured by AR. Variables were MCA (first, second, and absolute minimum) and nasal volumes from 0 to 4 cm (Vol0-4), 0 to 5 cm (Vol0-5), 1 to 4 cm (Vol1-4), and 2 to 5 cm (Vol2-5) into the nasal cavity. Height and weight were measured and atopic status was determined by skin-prick test. Age and current and past respiratory health were recorded from a questionnaire.

RESULTS

In multiple linear regression models height was the main predictor for all AR variables although weight also was a significant predictor of MCAs. There was no association between any AR variables with sex, atopy, or hay fever but children with current wheeze (within last 12 months) and asthma had decreased nasal patency.

CONCLUSION

This article presents the most extensive current reference material for AR in nondecongested prepubescent healthy children. The presented reference material will facilitate the interpretation and evaluation of future and present epidemiologic studies based on AR in children.

Nasal symptoms and signs in children suffering from asthma

OBJECTIVE

A link between the upper and lower airways has been convincingly demonstrated both in health and disease. To what extent the nose may be involved in children's asthma, has so far not been thoroughly investigated. In this study, we compared symptoms and signs from the upper airways in children with asthma and in children without to find out more about this.

METHODS

The study group included 27 asthmatic children, the control group 29 age and sex-matched healthy volunteers. The children were investigated by a senior ENT-specialist. Their parents completed questionnaires about symptoms and signs of upper airway disorders. Skin prick tests, total IgE, acoustic rhinometry, and an X-ray of the epipharynx were performed. The data from the groups were compared.

RESULTS

Nasal blockage, mouth breathing, day time sleepiness, apnoeas, itching, sneezing, and hearing impairment were more prevalent in asthmatics compared with controls (p<0.05). For nasal blockage the mean VAS-scores were 52.4 and 30.6 for asthmatics and controls, respectively. For daytime sleepiness the corresponding figures were 34.6 and 23.1. The adenoid-nasopharynx-index was larger, indicating reduced palatal airway in the former compared with the latter (p<0.05).

CONCLUSIONS

As the site of upper airway obstruction in asthmatic children appears to be the epipharynx, the adenoids may play a key-role.

Nasal symptoms, airway obstruction and disease severity in chronic obstructive pulmonary disease

BACKGROUND

Chronic obstructive pulmonary disease (COPD) is characterized by inflammation of the lung in association with airflow obstruction. There is increasing evidence of upper airway involvement in COPD and we have reported that this nasal inflammation is proportional to that in the lung. Given recognized relationships between lower airway inflammation and spirometric indices such as the Forced Expiratory Volume in one second (FEV(1)), we hypothesized that there may be a relationship between nasal obstruction and FEV(1) in COPD. We also sought to investigate relationships between nasal symptoms and nasal patency in COPD.

METHODS

We assessed the nasal and pulmonary airways, using acoustic rhinometry and spirometry respectively, in 51 patients with COPD.

RESULTS

The presence of chronic nasal symptoms in COPD was associated with reduced nasal patency (6.04 cm(2) symptoms vs. 9.55 cm(2) no symptoms, at the second minimum cross-sectional area, P = 0.049). Nasal patency in COPD was inversely proportional to pulmonary airflow obstruction, and therefore to COPD disease severity (e.g. FEV(1)% predicted vs. second minimum cross-sectional area, r = 0.36, P = 0.009).

CONCLUSIONS

The degree of nasal airway obstruction in COPD reflects the impairment to pulmonary airflow, and is greater in the presence of chronic nasal symptoms. This study provides further evidence of pan-airway involvement in COPD.

Perennial non-infectious rhinitis--an independent risk factor for sleep disturbances in Asthma

AIM OF THE STUDY

To evaluate if perennial non-infectious rhinitis is associated with sleep disturbances in asthma.

MATERIALS AND METHODS

This is a questionnaire based study in a random population sample from Denmark, Estonia, Iceland, Norway and Sweden aged 30-54yr. A total of 1127 individuals reporting asthma from an original random population sample of 16,191 were analysed regarding their quality of sleep in relation to perennial non-infectious rhinitis. Perennial non-infectious rhinitis was defined as having nasal symptoms such as nasal blockage and secretion in the absence of common cold, always. Asthma was defined as both ever having had asthma and having physician diagnosed asthma. Odds ratios (OR) for difficulties inducing sleep, difficulties maintaining sleep, early morning awakenings and daytime sleepiness were calculated in a multiple logistic regression controlling for other risk factors for sleep disturbances such as snoring, wheeze, obesity and smoking.

RESULTS

The response rate was 74%. A total of 189 (17%) of the subjects with asthma reported perennial non-infectious rhinitis. Perennial non-infectious rhinitis was associated with an increased OR for difficulties maintaining sleep (1.6 (95% confidence interval (CI) 1.1-2.3)), early morning awakenings (1.5 (95% CI 1.1-2.2)) and daytime sleepiness (1.8 (95% CI 1.2-2.9)). The result show that perennial non-infectious rhinitis is an independant risk factor for sleep disturbances in asthma.

Exhaled nitric oxide: relation to sensitization and respiratory symptoms

BACKGROUND

Conflicting data have been presented as to whether nitric oxide (NO) in exhaled air is merely reflecting atopy rather than airway inflammation.

OBJECTIVE

To investigate the relationship between exhaled NO (eNO) and nasal NO (nNO), respiratory symptoms, and atopy, in the context of a cross-sectional study of the respiratory health of bleachery workers.

METHODS

Two hundred and forty-six non-smoking bleachery and paper-mill workers answered a questionnaire and were examined by measurements of eNO and nNO and spirometry, outside the pollen season. Blood samples were collected and analysed for specific IgE against common aeroallergens (birch, timothy, cat and house dust mite). Atopy was defined as a positive Phadiatop trade mark test.

RESULTS

The atopic and the non-atopic subjects without asthma or rhinitis had similar levels of eNO. Subjects reporting asthma or rhinitis who were also sensitized to perennial allergens had higher levels of eNO, whereas those sensitized to only seasonal allergens had similar eNO levels as non-atopic subjects with asthma or rhinitis. In multiple linear regression models adjusted for nNO, eNO was associated with asthma and sensitization to perennial allergens.

CONCLUSION

The results indicate that only atopic subjects who have recently been exposed to the relevant allergen have elevated levels of eNO. Atopic subjects who are not being exposed to a relevant allergen or have never experienced symptoms of asthma or rhinitis show normal eNO. These data indicate that eNO relates to airway inflammation in atopic subjects.

The dilemma of occupational rhinitis: management options

Occupational rhinitis is a common heterogeneous group of inflammatory conditions in the nose, caused by exposure to airborne irritants and sensitizers in the occupational environment. The mechanism can be allergic, neurogenic or toxic. Data from several epidemiologic studies indicate that animal dander, organic dusts, latex and chemicals can cause occupational rhinitis, but because of methodological problems as well as weaknesses in the definition of occupational rhinitis, occupational exposure is probably an underestimated cause of rhinitis. The effect of rhinitis on the mental aspects of quality of life and substantial costs due to loss of productivity make it important to diagnose and treat occupational rhinitis. Diagnosis relies on a history of exposure, skin prick testing and, if possible, nasal provoacation. Avoidance of exposure, protective measures at the workplace and medical treatment, with agents such as second generation antihistamines and nasal corticosteroids, can make it possible to avoid progress of the disease from rhinitis to asthma. The efficacies of montelukast, a leukotrienne receptor antagonist, and omalizumab, an anti-immunoglobulin E monoclonal antibody in the treatment of occupational rhinitis are yet to be evaluated

Nasal involvement in allergic asthma

Even since the late 19th century, a relationship has been suspected between upper airway disease and the subsequent development or aggravation of asthma symptoms. To date, it has been generally accepted that pathologic conditions of the upper airways, e.g. allergic rhinitis, chronic sinusitis and nasal polyposis, may influence the lower airways. However, the mechanisms underlying this relationship were, for a long time, poorly understood. Recently, evidence has been accumulating which indicates a systemic connection as one of the responsible mechanisms in nasobronchial crosstalk. In this review, the pathophysiologic and immunologic aspects of the interaction between upper and lower airways will be discussed.

Rhinitis and asthma: evidence for respiratory system integration

The vast majority of patients with asthma have rhinitis, and rhinitis is a major independent risk factor for asthma in cross-sectional and longitudinal studies. The relationships between rhinitis and asthma can be viewed under the concept that the 2 conditions are manifestations of one syndrome, the chronic allergic respiratory syndrome, in 2 parts of the respiratory tract. At the low end of the syndrome's severity spectrum, rhinitis appears to be the sole manifestation, although pathologic abnormalities in the lower airways are already present. At the higher end, rhinitis is worse, and the lower airways disease becomes clinically evident. Once manifested, the 2 conditions track in parallel in terms of severity. This parallel relationship is influenced by many interactions between the nasal and the lower airways: some interactions stem from the fact that the nasal passages play a major homeostatic role by conditioning inhaled air, but perhaps even more important is the bidirectional interaction that results from the systemic inflammation that is produced after local allergic reactions. Successful management of the chronic allergic respiratory syndrome requires an integrated view of the airways and an understanding of their interactions.

Allergic rhinitis and asthma: the link further unraveled

Allergic asthma and rhinitis are manifestations of the atopic syndrome. Although the diseases commonly occur together, it is still unclear why some allergic patients develop only asthma and others only rhinitis. The reason for the variety in clinical expression of allergic airway disease is not known. Besides a genetic predisposition, environmental factors contribute to the development of the allergic phenotype. Local and systemic inflammatory processes also seem to be involved, however, their exact contribution to the clinical picture of airway allergy still remains to be elucidated. Although it is clear that the condition of the upper airways has an impact on lower airway physiology, the mechanisms underlying this relation are far from being resolved. To date, most data point towards a systemic link between upper and lower airways, involving bloodstream and bone marrow. In this article, the latest developments with regard to nasobronchial interaction in allergic airway disease will be reviewed. Epidemiologic, experimental and clinical data underline the importance of a global approach in allergic rhinitis and asthma.

Rhinitis increase the risk for adult-onset asthma--a Swedish population-based case-control study (MAP-study)

The aim of the study was to examine certain predictors, especially non-infectious rhinitis, and the risk for adult-onset asthma. A nested case-control study of adult-onset asthma was performed in a random sample from the general population (n = 15,813), aged 21 to 51 years. Cases for the study included subjects reporting physician-diagnosed asthma (n = 235) and controls (n = 2044) were randomly selected from the whole population sample. The case-control sample was investigated with a comprehensive respiratory questionnaire. Odds ratios were calculated stratified for sex, year of diagnosis and birth-year. Adult-onset physician-diagnosed asthma was associated with occurrence of non-infectious rhinitis before asthma onset (OR = 5.4, 95% CI 4.0-7.2), especially among smoking non-atopics (OR = 9.1, 95% CI 5.3-15.4). Smoking before asthma onset increased the risk for asthma (OR = 1.5, 95% CI 1.1-2.1). In conclusion, this population-based case-control study indicate that non-infectious rhinitis and current smoking, especially among non-atopics, are associated with increased risk for adult-onset asthma.