Cigarette smoking and self-assessed upper airway health.

Habitual smoking represents a chronic insult to the airway. However, the effects of smoking on upper airway health remains poorly described. Our objective was to examine the relationship between cigarette smoking and self-assessed upper airway health and evaluate dose-response relationships between exposure and complaints in a sample of 2,523 patients. Eligible subjects were adults referred to ENT specialist for evaluation of chronic nasal or sleep-related complaints. Thirteen specific symptoms and conditions, mainly related to the upper airway, were graded based on visual analog scales (VAS). Smokers, representing 33% of the sample, were more likely to report severe upper airway complaints compared to non-smokers (odds ratio 1.31-2.08) and exhibited significantly higher visual analog scale scores than non-smokers for 9 out of 13 outcome variables (p < 0.001-0.007). Further, significant associations were found between cigarette consumption and severity of complaints (p < 0.001-0.01), heavy smokers generally being more likely to exhibit high VAS scores than light smokers. In several cases smoking status and self-reported asthma/allergy had similar impact on subjective outcomes. Cigarette smoking was clearly associated with impaired upper airway health and seemed to be an important determinant in subjects seeking medical attention due to chronic nasal or sleep-related complaints. Both threshold and dose-response like relationships were evident between cigarette consumption and the outcome measures.

[Nose and lungs--two of a kind]. / Nese og lunger--to sider av samme sak.

BACKGROUND: Diseases in the upper and lower airways often occur concomitantly, and evidence indicates a close relationship between them. Optimal treatment of airway disease requires knowledge about this relationship; the article presents an updated overview of the field. MATERIAL AND METHODS: This paper is based on extensive clinical experience with airway disease, own research and literature studies. RESULTS: It is well documented that patients suffering from asthma have rhinitis more often than those without. Likewise, those suffering from nose and sinus disease, e.g. allergic rhinitis, sinusitis and nasal polyposis, have an increased incidence of asthma. Treatment of disorders in one airway compartment often has a positive impact on the airways in general. INTERPRETATION: Disorders in the upper and lower airways should be considered as the same disease to a larger extent than they are today. Patients with disease in one airway compartment should be considered for pathology elsewhere in the airways. Therapeutically, the airways should be regarded as one entity.

Nasal congestion index: A measure for nasal obstruction.

OBJECTIVES: The relationship between congestion of the nasal mucosa and subjective nasal obstruction remains poorly defined. Applying the novel Nasal Congestion Index (NCI), we compared subjective nasal obstruction with objective measures for reversible congestion of the nasal mucosa. STUDY DESIGN: A total of 2,523 consecutive patients were included in this cross-sectional study. Eligible subjects were adults referred to the ENT department, Sørlandet Hospital, Kristiansand, Norway, for evaluation of chronic nasal or sleep-related complaints. METHODS: Subjects underwent acoustic rhinometry (AR) and peak nasal inspiratory flow (PNIF) at baseline and after decongestion of the nasal mucosa. Based on these registrations, an NCI was calculated for minimal cross-sectional area (MCA), nasal cavity volume (NCV), and PNIF, and employed for quantification of reversible mucosal congestion. Subjective nasal obstruction was measured by nasal obstruction visual analogue scales (NO-VAS). Statistical analyses were based on ANOVA and multiple linear and logistic regression, adjusting for age, gender, body mass index, asthma, allergy, smoking history, and type of planned intervention. RESULTS: Crude estimates indicated that the NCIs were significantly higher in subjects with severe complaints of nasal obstruction compared with subjects with lesser symptoms (P < .001). These associations were confirmed by linear and logistic regression analyses. NCI for MCA, NCV, and PNIF showed highly significant associations with subjective nasal obstruction (P < .001). CONCLUSIONS: We have clearly demonstrated an association between subjective nasal obstruction and reversible congestion of the nasal mucosa by employing the NCI. The measure has proven to be useful for evaluating patients with complaints of nasal obstruction.

Relation of nasal air flow to nasal cavity dimensions.

OBJECTIVE: To investigate the relationship between nasal cavity dimensions and airflow based on measures of acoustic rhinometry (AR) and peak nasal inspiratory flow (PNIF) in a very large sample of mixed rhinologic and nonrhinologic patients. DESIGN: Clinical survey conducted between 2001 and 2007. SETTING: Secondary referral ambulatory center and hospital. PATIENTS: The study population comprised 2523 consecutive adult patients, mainly white, referred to the Department of Otolaryngology-Head and Neck Surgery, Sørlandet Hospital, Kristiansand, Norway, for evaluation of sleep-related disorders (eg, snoring, sleep apnea) or chronic nasal complaints. INTERVENTION: The subjects underwent AR and PNIF at baseline and after decongestion of the nasal mucosa with xylometazoline hydrochloride. Questionnaires and height and weight measurements were obtained prior to the nasal recordings. MAIN OUTCOME MEASURE: Associations between measures of AR (volume and area) and PNIF. RESULTS: Nearly linear relationships were found between PNIF in 4 categories and nasal cavity volumes and minimal cross-sectional areas (analysis of variance, P < .001; post hoc analysis, P < .01). Adjusted associations between 5 of 6 AR measures and PNIF both at baseline and after decongestion were significant (P < .001 in 9 cases and P = .03 in 1 case). CONCLUSIONS: Our study indicates statistically significant associations between nasal cavity dimensions and PNIF. The most important structural determinant for PNIF is the minimal cross-sectional area of the nasal cavity.

Does nasal obstruction mean that the nose is obstructed?

OBJECTIVES/HYPOTHESIS: It is still a matter of controversy to what extent the sense of nasal obstruction is associated with objective measures for nasal space and airflow. Knowledge about this is important in the evaluation of nasal complaints and the planning of its treatment. In this study, we evaluated the relationship between subjective nasal obstruction and the corresponding anatomic and physiological nasal parameters using acoustic rhinometry (AR) and peak nasal inspiratory flow (PNIF). STUDY DESIGN: Two thousand five hundred twenty-three consecutive patients were included in this cross-sectional study. Eligible subjects were adults referred to the Ear, Nose, and Throat Department, Sørlandet Hospital, Kristiansand, Norway, for evaluation of chronic nasal or sleep related complaints. METHODS: Subjects underwent AR and nasal flow measurements. Subjective grading of nasal obstruction was obtained by a nasal obstruction visual analogue scale. Associations between nasal obstruction visual analogue scale scores, AR, and PNIF were assessed using multiple linear regression, adjusting for age, gender, body mass index, and asthma, allergy, and smoking history. RESULTS: The sense of nasal obstruction was associated with nasal cavity volumes in both anterior and middle segments of the nasal cavities, with minimal cross-sectional areas in middle segments and for the nasal cavity as a whole, and with PNIF. Associations with minimal cross-sectional areas in anterior segments did not reach significance. CONCLUSIONS: The present study demonstrates highly significant associations between the subjective sensation of nasal obstruction and corresponding measures for nasal cavity volume, area, and airflow. We conclude that AR and PNIF are valuable objective instruments for evaluation of subjective nasal obstruction.

Bronchial responsiveness in bakery workers: relation to airway symptoms, IgE sensitization, nasal indices of inflammation, flour dust exposure and smoking.

BACKGROUND: Bronchial hyperresponsiveness (BHR) is common in bakery workers. The relation between bronchial responsiveness measured with a tidal breathing method and smoking, airway symptoms, IgE-sensitization, nasal indices of inflammation and flour dust exposure have been studied with bronchial responsiveness expressed as a continuous outcome. MATERIAL AND METHODS: Bakery workers (n = 197) were subjected to interviews, questionnaires, allergy tests, workplace dust measurements and bronchial metacholine provocation. Eosinophil cationic protein (ECP) and alpha(2)-macroglobulin were measured in nasal lavage. Bronchial responsiveness was expressed as slope(conc), a measurement based on regressing the per cent reduction in FEV(1) at each provocation step. RESULTS: BHR expressed as slope(conc) was associated with smoking (P = 0.009), asthma symptoms at work (P = 0.001), and occupational IgE sensitization (P = 0.048). After adjusting for baseline lung function the association between BHR and IgE sensitization was no longer present. We demonstrated an association between nasal ECP and BHR (slope(conc) < 3: P = 0.012), but not to alpha(2)-macroglobulin in nasal lavage. No association was seen between BHR and current exposure level of flour dust, number of working years in a bakery or a history of dough-making. CONCLUSION: BHR is related to baseline lung function, work-related asthma symptoms, smoking and nasal eosinophil activity, but not to occupational IgE sensitization and current flour dust exposure when measured with metacholine provocation. The slope(conc) expression seems to be a useful continuous outcome in bronchial responsiveness testing.

Nasal indices of eosinophilic and exudative inflammation in bakery-workers.

AIMS: Rhinitis symptoms frequently occur in bakery-workers. Yet, little is known about the pathophysiology of this condition. The objective of the present study was to examine nasal indices of inflammation in relation to occupational dust exposure, occupational rhinitis according to defined criteria, rhinitis symptoms associated to the workplace, and occupational sensitization in bakery-workers. METHODS: Bakery-workers (n = 197) were subjected to interviews, questionnaires, workplace dust measurements, allergy tests, and nasal lavages with and without histamine. alpha(2)-Macroglobulin and eosinophil cationic protein (ECP) were measured in saline lavages as indices of plasma exudation and eosinophilic activity, respectively. Histamine lavages were employed to explore the nasal exudative responsiveness. RESULTS: alpha(2)-Macroglobulin and ECP increased significantly by increased workplace dust exposure (P< or =0.035). Furthermore, the exudative responsiveness to histamine increased significantly by such exposure (P< or =0.016). Similar patterns were seen in workers with occupational rhinitis and in subjects with rhinitis symptoms associated to the workplace, but not in workers with occupational sensitization. CONCLUSIONS: We conclude that occupational dust exposure in bakery-workers is associated with nasal eosinophilic exudative inflammation. In contrast, occupational sensitization is not a discriminating factor with regard to indices of eosinophilic, exudative inflammation in the present material.

Objective monitoring of nasal patency and nasal physiology in rhinitis.

Nasal obstruction can be monitored objectively by measurement of nasal airflow, as evaluated by nasal peak flow, or as airways resistance/conductance as evaluated by rhinomanometry. Peak flow can be measured during inspiration or expiration. Of these measurements, nasal inspiratory peak flow is the best validated technique for home monitoring in clinical trials. The equipment is portable, relatively inexpensive, and simple to use. One disadvantage, however, is that nasal inspiratory peak flow is influenced by lower airway as well as upper airway function. Rhinomanometry is a more sensitive technique that is specific for nasal measurements. The equipment, however, requires an operator, is more expensive, and is not portable. Thus, it is applicable only for clinic visit measures in clinical trials. Measurements require patient cooperation and coordination, and not all can achieve repeatable results. Thus, this objective measure is best suited to laboratory challenge studies involving smaller numbers of selected volunteers. A nonphysiological measure of nasal patency is acoustic rhinometry. This sonic echo technique measures internal nasal luminal volume and the minimum cross-sectional area. The derivation of these measures from the reflected sound waves requires complex mathematical transformation and makes several theoretical assumptions. Despite this, however, such measures correlate well with the nasal physiological measures, and the nasal volume measures have been shown to relate well to results obtained by imaging techniques such as computed tomography scanning or magnetic resonance imaging. Like rhinomanometry, acoustic rhinometry is not suitable for home monitoring and can be applied only to clinic visit measures or for laboratory nasal challenge monitoring. It has advantages in being easy to use, in requiring little patient cooperation, and in providing repeatable results. In addition to nasal obstruction, allergic rhinitis is recognized to be associated with impaired mucociliary clearance and altered nasal responsiveness. Measures exist for the monitoring of these aspects of nasal dysfunction. Although measures of mucociliary clearance are simple to perform, they have a poor record of reproducibility. Their incorporation into clinical trials is thus questionable, although positive outcomes from therapeutic intervention have been reported. Measures of nasal responsiveness are at present largely confined to research studies investigating disease mechanisms in allergic and nonallergic rhinitis. The techniques are insufficiently standardized to be applied to multicenter clinical trials but could be used in limited-center studies to gain insight into the regulatory effects of different therapeutic modalities.