A questionnaire survey of asthma in children with co-morbid allergic rhinitis]

BACKGROUND: Bronchial asthma is often complicated with allergic rhinitis (AR). OBJECTIVE: To investigate the relationship between the upper and lower airway diseases in children with asthma, we performed a questionnaire survey at 6 centers in Kinki area in Japan. METHODS: A questionnaire was filled out by parents of 333 asthmatic children (0-16 years, median age 7). It included questions concerning nasal symptoms, onset ages of rhinitis and asthma, correlation between nasal symptoms and asthma symptoms, and family history of allergic diseases. RESULTS: One hundred and fifty five (46.5%) subjects answered to have any nasal diseases; 20 with sinusitis, 46 with seasonal AR, and 119 (35.7%) with perennial AR. To further clarify the relationship of asthma and concomitant AR, we focused on patients with perennial AR and compared the clinical characteristics with patients with no nasal diseases. Percentage of non-atopic asthma was significantly lower in patients with comorbid AR than those without. Severity of asthma tended to be milder and family history of perennial AR was more often in the former than the latter group. Interestingly, asthmatic children with comorbid AR were more likely to have cold air-induced asthma exacerbations. In the subjects with comorbid AR, concomitant exacerbation of the upper and lower airways occurred in 38.7%. The median age of onset of asthma and nasal symptoms was 2 and 4 years, respectively. In 43.9% of them, upper airway symptoms started either before or simultaneously with asthma. CONCLUSION: The attention should be paid to the nasal symptoms in children with asthma, especially they have atopic asthma and positive family history of perennial allergic rhinitis. It is important that an appropriate diagnosis and treatment of nasal symptoms to better control asthma in children.     

Mucosal and systemic inflammatory changes in allergic rhinitis and asthma: a comparison between upper and lower airways

BACKGROUND: Local airway inflammation and airway remodelling are considered important in the clinical expression of allergic asthma. OBJECTIVE: The aim of this study was to compare airway inflammation and remodelling in nasal and bronchial mucosa of subjects with allergic rhinitis with or without asthma. METHODS: Four experimental groups were formed: allergic asthma and rhinitis (n = 19); allergic rhinitis, no asthma (n = 18); atopic subjects, no asthma, no rhinitis (n = 8) and non-allergic healthy control subjects (n = 16). Blood samples, nasal and bronchial biopsy specimens were collected during stable disease. Immunohistochemistry was performed for eosinophils (MBP), mast cells (CD117) and vascular endothelium (CD31). Epithelial loss, reticular basement membrane (RBM) thickness and subepithelial vascularity was assessed with a computer-assisted image analysis system. RESULTS: In nasal and bronchial mucosa, numbers of eosinophils were significantly higher in rhinitis patients with and without asthma than in asymptomatic atopics (P < 0.05) and controls (P < or = 0.01). In bronchial mucosa, the RBM was significantly thickened in rhinitis patients with and without asthma compared to asymptomatic atopics (P < 0.05) and controls (P < 0.01), while in nasal mucosa no differences were seen. Patients with asthma and rhinitis had increased numbers of blood eosinophils (P = 0.05) and skin test reactivity (P = 0.01) compared to patients with rhinitis only. No significant differences could be found between the investigated groups with respect to serum IL-5 and eotaxin levels, the number of mucosal mast cells and the degree of epithelial loss and subepithelial vascularity. Epithelial desquamation was significantly increased in the bronchial mucosa compared to nasal mucosa, not only in asthmatics (P < 0.001), but also in atopics without asthma and rhinitis (P = 0.02). CONCLUSIONS: This study shows that allergic inflammation, increased basement membrane thickness and epithelial desquamation are present in the lower airways of atopic subjects, even before the onset of clinical symptoms. Despite the presence of inflammatory cells, no structural changes could be assessed in nasal mucosa of allergic patients.     

Differences in mediator release between allergic rhinitis and asthma

To determine why patients with allergic rhinitis alone differ in their airway response to inhaled allergen compared to patients with allergic asthma, bronchial lavage was performed in 10 subjects with allergic asthma and in five subjects with allergic rhinitis, before and after inhalation challenge with antigen to produce an immediate asthmatic reaction. Before antigen challenge, the subjects with asthma had higher absolute neutrophil counts in the lavage fluid. After antigen challenge, the subjects with asthma released significant amounts of bronchoconstrictive mediators, such as histamine and thromboxane B2 into the lavage fluid, whereas subjects with rhinitis alone did not. There was also a significant increase in prostaglandin E2 in the subjects with asthma after antigen challenge. Nonimmunologic bronchoconstriction with methacholine inhalation challenge in six other subjects with asthma did not demonstrate an increase in any of the lavage fluid mediator levels that were measured. A positive correlation was found between methacholine provocative concentration causing a 20% drop in FEV1 and the concentration of prostaglandin E2 in the lavage fluid before challenge. The significance of this observation has yet to be determined. The results suggest that subjects with allergic asthma differ from subjects with rhinitis alone in their capacity to release more mediators into the airways on antigen challenge. It is not known whether this increase in mediators is due to increase in the number of mast cells in the airways or due to increase in mediator releasability from the mast cells of subjects with asthma.     

Polymorphisms of histamine-metabolizing enzymes and clinical manifestations of asthma and allergic rhinitis

BACKGROUND: Polymorphisms of enzymes involved in histamine biodisposition may affect clinical symptoms in diseases related to histamine, such as asthma or allergic rhinitis (AR). OBJECTIVE: This study aims to analyse two common polymorphisms in genes coding for histamine-metabolizing enzymes in patients with allergic diseases. METHODS: Five-hundred and sixty-five individuals participated in the study, including 270 unrelated patients with asthma and/or AR recruited from a single centre and 295 healthy volunteers. Participants were analysed for the presence of Thr105Ile and His645Asp amino acid substitutions at histamine N-methyltransferase (HNMT) and diamine oxidase (amiloride binding protein 1) enzymes, respectively, by amplification-restriction procedures. RESULTS: The variant HNMT allele frequencies were slightly higher among patients with asthma [16.0%, 95% confidence interval (CI) 12.0-20.0] and among patients with rhinitis (13.2, 95% CI 10.3-16.1) as compared with healthy subjects (11.5 95% CI 8.9-14.1). The variant ABP1 allele frequencies were similar among patients with asthma (30.8%, 95% CI 25.7-35.9), rhinitis (28.7, 95% CI 24.8-32.6) and healthy subjects (26.8 95% CI 23.2-30.3). Individuals carrying mutated ABP1 alleles presented allergy symptoms with significantly lower IgE levels as compared with individuals without mutated genes, with a significant gene-dose effect (P<0.001). In addition, the percentage of individuals presenting symptoms without eosinophilia was significantly higher among homozygous carriers of ABP1 variant alleles (P<0.020) as compared with the rest of the atopic patients. CONCLUSION: There is a lack of association between the allelic variants studied and the risk of developing allergic asthma and rhinitis. However, patients carrying the His645Asp polymorphism of ABP1 are more prone to developing symptoms with lower IgE levels.     

Effect of nasal triamcinolone acetonide on lower airway inflammatory markers in patients with allergic rhinitis

BACKGROUND: Allergic rhinitis (AR) and asthma are commonly associated, and similar underlying inflammatory processes link both diseases. AR, even in the absence of asthma, is associated with increased levels of exhaled nitric oxide (ENO) and hydrogen peroxide (H(2)O(2)) in exhaled breath condensate, 2 noninvasive markers of lower airway inflammation. OBJECTIVE: We sought to evaluate the effect of treatment with the nasal steroid triamcinolone acetonide on ENO and exhaled H(2)O(2) in subjects with AR. METHODS: We allocated 23 subjects in a randomized, double-blind, parallel-controlled fashion to 4-week treatment with triamcinolone acetonide (220 microg/d) or matching placebo. RESULTS: ENO levels were greater in the subgroup with concomitant asthma (16/23 subjects) and decreased significantly with triamcinolone acetonide treatment in this subgroup of patients in comparison with patients receiving placebo. Breath condensate levels of H(2)O(2) were higher in patients with AR without asthma than in those with asthma but decreased significantly with triamcinolone acetonide treatment in both subgroups. No changes were observed in bronchial hyperresponsiveness, nasal and asthma symptoms, or peak expiratory flow with active treatment or placebo. CONCLUSION: We conclude that treatment of AR with triamcinolone acetonide results in decrease of 2 noninvasive markers of lower airway inflammation, ENO and H(2)O(2), supporting that upper and lower airway inflammation should be seen as a continuum in subjects with AR with and without asthma. ENO might be a more specific marker of the lower airway inflammation present in asthma.     

The effect of allergic rhinitis on adenosine concentration in exhaled breath condensate

BACKGROUND: Patients with allergic rhinitis (AR) frequently develop asthma. This initiating inflammation in the lower airways may result in increased levels of inflammatory mediators such as adenosine in the exhaled breath. OBJECTIVE: We compared adenosine levels in exhaled breath condensate (EBC) and both exhaled and nasal nitric oxide (NO) levels of AR patients and healthy control subjects. We also tested whether inhalation through inflamed nasal cavity during EBC sampling influences adenosine concentrations in exhaled air. METHODS: Exhaled and nasal NO levels were measured and EBC samples (at oral inhalation) were collected from 27 patients and 15 healthy controls. EBC collection was repeated after 15 min with subjects inhaling through their nose. Adenosine was measured by HPLC and NO was determined by chemiluminescence. RESULTS: The concentration of EBC adenosine was higher in patients with AR than in healthy controls (12.4+/-1.3 nM vs. 6.5+/-0.7 nM, P=0.0019) and this was accompanied by an increase in the concentration of exhaled NO (10.2+/-1.3 ppb vs. 5.3+/-0.5 ppb; P=0.0099, respectively). No difference in nasal NO was detected. EBC adenosine concentration showed a significant positive correlation with the level of exhaled NO. In contrast to healthy control subjects, patients with rhinitis had higher levels of exhaled adenosine when inhaling via the nose instead of the mouth (17.7+/-2.8 nM, P=0.007). CONCLUSION: When compared with healthy subjects, patients with AR exhibit an increased concentration of exhaled adenosine and a related increase in exhaled NO concentration. EBC adenosine is further increased when rhinitis patients inhale through their nose than via their mouth. Our data suggest that non-asthmatic patients with rhinitis may have subclinical inflammation in their lower airways.     

Increased carbon monoxide levels in the nasal airways of subjects with a history of seasonal allergic rhinitis and in patients with upper respiratory tract infection

BACKGROUND: Carbon monoxide (CO) has emerged as an endogenously produced gaseous mediator known to be involved in bronchial smooth muscle regulation. Increased amounts of CO have been found in exhaled air during asthma and lower airway inflammation. Recently CO has been shown to be produced in the nasal airways, but there are no reports of altered CO levels in nasal airways during inflammation. OBJECTIVE: This study was designed to investigate if CO levels increase in the human nasal airways during inflammatory conditions, such as allergy and upper airway respiratory tract infection (URTI). METHODS: CO was sampled separately from the upper and lower airways of 13 healthy control subjects, six patients with a history of allergic rhinitis and six patients with URTI. RESULTS: Nasal CO levels were increased in subjects with allergic rhinitis, compared to healthy controls (2.07 +/- 0.15 ppm, n = 6 and 1.62 +/- 0.08 ppm, n = 13, respectively, P < 0.01). CO levels were also increased in patients with URTI, compared to the same controls (1.92 +/- 0.09 ppm, n = 6, P < 0.05). Normal levels of CO were found in air from the lower airways among subjects with allergic rhinitis, whereas corresponding levels in the URTI patients were increased. CONCLUSION: The present data demonstrates that upper airway CO levels increase in parallel with different inflammatory stimuli, such as allergy and infection, suggesting a role for CO as marker or mediator of nasal inflammation.     

Bradykinin increases the in vivo expression of the CXC chemokine receptors CXCR1 and CXCR2 in patients with allergic rhinitis

BACKGROUND: Increased levels of bradykinin and IL-8 have been detected within the airways of individuals with active symptoms of allergic rhinitis and asthma. OBJECTIVE: We sought to investigate the in vivo effect of bradykinin on the expression of the IL-8 receptors CXCR1 and CXCR2 in nasal cells. METHODS: Nasal samples were obtained from patients with active allergic rhinitis; patients with mild, quiescent allergic rhinitis; and healthy control subjects. CXCR1 and CXCR2 mRNA expression in the nasal cells was measured by means of quantitative real-time RT-PCR in baseline samples from all subjects, as well as in samples obtained after in vivo bradykinin challenge in healthy control subjects and patients with mild allergic rhinitis. CXCR1 and CXCR2 cell-surface expression was also assessed by means of flow cytometry in nasal epithelial cells at baseline and after ex vivo bradykinin challenge. RESULTS: No difference was seen in CXCR1 or CXCR2 mRNA expression between healthy control subjects and patients with quiescent allergic rhinitis at baseline; however, patients with active allergic rhinitis had increased baseline expression of both CXCR1 and CXCR2 mRNA. In vivo nasal bradykinin challenge significantly increased CXCR1 and CXCR2 mRNA expression in patients with quiescent allergic rhinitis but had no effect in healthy control subjects. Low levels of CXCR1 but not CXCR2 cell-surface expression was detected in nasal epithelial cells at baseline, and ex vivo bradykinin challenge induced CXCR2 cell-surface expression in nasal epithelial cells from patients with mild allergic rhinitis. CONCLUSION: This study demonstrates the in vivo regulation of chemokine receptors by means of bradykinin in human airway tissue in patients with allergic rhinitis.     

Changes in airway inflammation following nasal allergic challenge in patients with seasonal rhinitis

BACKGROUND: Seasonal allergic rhinitis could predispose to the development of chronic bronchial inflammation as observed in asthma. However, direct links between nasal inflammation, bronchial inflammation and airway responsiveness in patients with seasonal allergic rhinitis and without asthma are not fully understood. The aim of this study was to analyse the changes induced by allergic nasal challenge outside the pollen season in airway responsiveness and bronchial inflammation of patients with seasonal allergic rhinitis. METHODS: Nine patients were evaluated after either grass pollens or placebo nasal challenge in a randomized cross-over double-blinded trial. Nasal parameters were recorded hourly and airway responsiveness was assessed by methacholine challenge. Cytological examinations and cytokine measurements were performed in nasal lavage and induced sputum. Eosinophil activation was investigated by eosinophil-cationic protein expression and secretion. RESULTS: Airway responsiveness was increased after allergic nasal challenge. Total eosinophils and eosinophils expressing eosinophil-cationic protein were increased in induced sputum after allergic nasal challenge. Both eosinophil number and eosinophil-cationic protein concentration in induced sputum were correlated to methacholine responsiveness. CONCLUSIONS: These results suggest that eosinophils participate to the bronchial inflammation in patients with seasonal allergic rhinitis following allergic nasal challenge outside the pollen season and might explain changes in airway responsiveness.     

Nasal eosinophilic inflammation contributes to bronchial hyperresponsiveness in patients with allergic rhinitis

There are increasing evidences that allergic rhinitis (AR) may influence the clinical course of asthma. We conducted methacholine challenge test and nasal eosinophils on nasal smear to patients with allergic rhinitis in order to investigate the mechanism of connecting upper and lower airway inflammation in 35 patients with AR during exacerbation. The methacholine concentration causing a 20% fall in FEV1 (PC20) was used as thresholds of bronchial hyperresponsiveness (BHR). Thresholds of 25 mg/dL or less were assumed to indicate BHR. All patients had normal pulmonary function. Significant differences in BHR were detected in the comparison of patients with cough or postnasal drip and without cough or postnasal drip. There were significant differences of PC20 between patients with cough or postnasal drip and those without cough or postnasal drip (3.41+/-3.59 mg/mL vs 10.2+/-1.2 mg/mL, p=0.001). The levels of total IgE were higher in patients with seasonal AR than in patients with perennial AR with exacerbation (472.5+/-132.5 IU/L vs. 389.0+/-70.9 IU/L, p<0.05). Nasal eosinophils were closely related to log PC20 (r=-0.65, p<0.01). These findings demonstrated that nasal eosinophilic inflammation might contribute to BHR in patients with AR.     

Nasal nitric oxide: longitudinal reproducibility and the effects of a nasal allergen challenge in patients with allergic rhinitis

BACKGROUND: Exhaled nitric oxide (eNO) is a validated noninvasive marker of airway inflammation in asthma. In patients with allergic rhinitis (AR), increased levels of nasal nitric oxide (nNO) have also been measured. However, the applicability of nNO as a marker of upper airway inflammation awaits validation. AIM: To test the longitudinal reproducibility of standardized nNO measurements in patients with AR and the effects of nasal allergen challenge. METHODS: Twenty patients with clinically stable, untreated AR participated in a combined study design. First, reproducibility of nNO was tested over 1, 7, and 14-21 days. Subsequently, the effect of nasal allergen challenge on nNO was studied in a placebo-controlled, parallel design. Nasal NO was measured with a chemoluminescence analyzer. Ten subjects randomly underwent a standardized nasal allergen challenge; 10 subjects received placebo. Response to nasal challenge was monitored by composite symptom scores. RESULTS: There was a good reproducibility of nNO up to 7 days [coefficient of variation (CV) over 1 (16.45%) and 7 days (21.5%)], decreasing over time [CV (14-21 days): 38.3%]. As compared with placebo, allergen challenge caused a significant increase in symptom scores (P < 0.001), accompanied by a decrease in nNO at 20 min postchallenge (P = 0.001). Furthermore, there was a gradual increase in nNO at 7 h, reaching significance at 24-h postallergen (P = 0.04). CONCLUSIONS: Similar to eNO in asthma, nNO is a noninvasive marker, potentially suitable to monitor upper airway inflammation following allergen-induced late response. Present data show a good reproducibility of nNO measurements, decreasing over time, probably because of subclinical seasonal influences.     

Epithelial shedding is associated with nasal reactions to cold, dry air

BACKGROUND: Cold, dry air (CDA) can cause symptoms of rhinitis and obstructive airway responses. The pathophysiology of these reactions is not understood. One hypothesis is that the respiratory mucosa of individuals with CDA sensitivity cannot compensate for the loss of water that occurs on exposure to the stimulus, leading to epithelial damage. OBJECTIVE: To test for an association between nasal reactions to CDA and the number of epithelial cells recovered in nasal fluids. METHODS: Ten CDA-sensitive subjects received nasal provocations with CDA and warm, moist air; 10 CDA-insensitive subjects received CDA; and 10 subjects with allergic rhinitis received allergen and diluent challenges. Nasal lavage cytology was performed at baseline and after the challenge. Symptoms were recorded and histamine, [3H]-N-alpha-tosyl-L-arginine methyl ester-esterase activity, tryptase, and albumin were assayed in nasal lavages. RESULTS: A 6-fold increase in nasal lavage epithelial cells was found in the CDA-sensitive group after CDA (P < .01), but not after warm, moist air. No changes were observed in the CDA-insensitive group, or after allergen or diluent in allergic rhinitis. CONCLUSION: Epithelial cell shedding accompanies clinical responses to CDA in the human nose. This supports the hypothesis that the airway mucosa of CDA-sensitive individuals cannot compensate for the water loss that occurs under extreme conditions leading to epithelial damage. CLINICAL IMPLICATIONS: A defect in mucosal water homeostasis may need to be considered in individuals who get excessive nasal symptoms when exposed to cold and dry, windy environment.     

Serum eosinophil granule proteins predict asthma risk in allergic rhinitis

Background: Allergic rhinitis is a common disease, in which some patients will deteriorate or develop asthma. It is important to characterize these patients, thereby offering the possibility for prevention. This study evaluated eosinophil parameters as potential indicators of deteriorating allergic airway disease. Methods: The subjects of the study included all patients who suffered seasonal allergic rhinitis and had participated in a study 6 years earlier, in which blood eosinophils, serum eosinophil cationic protein (ECP) serum eosinophil peroxidase (EPO), nasal lavage ECP and nasal lavage EPO levels were measured. Patients in the present study were interviewed on occurrence of rhinitis symptoms during the last season, rhinitis outside season, asthma‐like symptoms and asthma diagnosis, and were skin‐prick tested for common aeroallergens. Eosinophil parameters from the study 6 years earlier were then tested for the ability to predict occurrence of new allergies, worsening of rhinitis and occurrence of asthma. Results: Forty‐four patients participated in the study. In four patients seasonal rhinitis symptoms had deteriorated, 10 had experienced perennial rhinitis symptoms, 14 reported asthma‐like symptoms and seven had been diagnosed with asthma. Thirteen had developed additional sensitization. Patients developing asthma‐like symptoms compared with patients with no such symptoms had significantly higher serum ECP (16.7 μg/l vs 8.2 μg/l; P ≤ 0.01) and serum EPO (17.9 μg/l vs 8.8 μg/l; P ≤ 0.05). Results were similar, considering patients diagnosed with asthma. Blood eosinophils and nasal lavage parameters were not related to development of asthma and asthma‐like symptoms. No eosinophil parameter was related to deterioration of rhinitis or additional sensitization. Conclusion: Serum ECP and EPO in patients with seasonal rhinitis demonstrated a high predictive ability for later development of asthma.     

Exudative hyperresponsiveness of the airway microcirculation in seasonal allergic rhinitis

Background Mucosal exudation of plasma is a non-injurious, physiological response of the airway microcirculation to different inflammatory processes. The exudative response is similar in the nose and bronchi and exudation occurs in both allergic asthma and rhinitis. The educative response is a specific end-organ function of the mucosal microcirculation that may be altered in airway diseases. Objective This study examines the hypothesis of altered responsiveness of the superficial airway microcirculation to vascular permeability-increasing challenges in sustained allergic inflammation. Methods Fourteen patients with birch-pollen induced allergic rhinitis were studied for 7 weeks during a Swedish birch-pollen season. Nasal symptoms (itching, sneezing. blockage, and discharge) were recorded and the occurrence of pollen was determined. The plasma exudation response was examined by topical histamine challenges at the end (May) and well out of (December) the season. Challenge and lavage were carried out concomitantly using a‘nasal pool’ -device. The unilateral nasal cavity was filled for consecutive 10 minute periods with saline and two concentrations of histamine (80μg/ mL and 400μg/mL). The lavage fluid levels of different-sized plasma proteins (albumin-66 000 D. fibrinogen-340000 D, and α₂-macroglobulin-725000D) were determined. Results The pollen season was mild resulting in only minor nasal symptoms. Histamine produced exudation of all plasma proteins across the microvascular epithelial barriers with particularly strong correlation between the levels of albumin and α₂-macroglobulin (r =0.98; P< 0.001). The exudative response to histamine was concentration-dependent (P<0.05) and, furthermore, it was significantly greater late into the season compared with outside the pollen season (albumin: P < 0.05. tibrinogen: P<0.05. α₂-macroglobulin: P<0.01). Conclusion We conclude that histamine produced concentration-dependent nasal airway exudation of bulk plasma in subjects with seasonal rhinitis and that this response is abnormally great during the pollen season. Whether angiogenesis or increased responsiveness of the mierovascular endothelium may explain this phenomenon now remains unknown. We suggest that a mierovascular exudative hyperresponsiveness may characterize allergic airway disease.     

Substance P induced histamine release from nasal mucosa of subjects with and without allergic rhinitis

OBJECTIVE AND DESIGN: There is evidence that substance P (SP) is involved in events related to allergic and nonallergic rhinitis. Furthermore, some effects of SP seem to be greater in subjects suffering from allergic rhinitis than in nonallergic subjects. To investigate if these effects may be partly mediated by histamine release (HR) we studied the influence of SP on HR from nasal mucosa of subjects with and without allergic rhinitis using an in vitro organ culture system. SUBJECTS: Nasal mucosa of the inferior turbinate was obtained from ten patients suffering from allergic rhinitis and eighteen non-allergic subjects receiving surgical therapy for nasal obstruction. METHODS: Tissue samples of nasal mucosa were stimulated with 10(-5) M SP or with 10(-5) M Ca-ionophore A23187 for 120 minutes, and the histamine content was determined in the culture supernatant. RESULTS: Both SP and Ca-ionophore A23187, caused a significantly higher HR from the samples of the non-allergic group (p < 0.01) compared to baseline controls (spontaneous release). The same effect was seen in the allergic group (p < 0.01 and p = 0.036). Comparing the increase in HR from allergic and non-allergic mucosa, in allergics the HR stimulated by SP was significantly higher (p = 0.031), whereas Ca-ionophore A23187 did not show this effect. CONCLUSION: These findings suggest a role of SP in inducing release of histamine from human nasal mucosa, thereby influencing physiologic and pathophysiologic nasal conditions, especially in allergic inflammatory processes.     

The role of leukotriene D4 in allergic rhinitis

We investigated the clinical significance of leukotriene D4 (LTD4) in nasal symptoms of allergy and compared this with antigen and histamine. Nasal provocations were carried out in patients with allergic rhinitis using serially increasing doses of LTD4, histamine, or antigen. The nasal responses induced were evaluated by counting the number of sneezes, the quantity of nasal secretion, and of nasal airway resistance. When the effects of topical provoking agents were compared at the threshold concentration, LTD4 produced no sneezing--unlike antigen and histamine--increased nasal secretion to a lesser degree than antigen and histamine (P less than .001), and increased nasal airway resistance similar to histamine but less than antigen (P less than .1) and longer than histamine, and similar to antigen in duration. LTD4 was approximately 5,000 times stronger than histamine in threshold concentration for nasal response. In conclusion, LTD4 plays an important role in nasal allergy presumably through long lasting and strong nasal blockage effects.     

Overview of comorbid associations of allergic rhinitis

Allergic rhinitis affects approximately 20% of the U.S. population. An association between allergic rhinitis and conditions including asthma, sinusitis, otitis media, nasal polyposis, respiratory infections, and even orthodontic malocclusions has been observed. Clinical research has identified shared pathogenic mechanisms, epidemiologic correlations, and findings from allergy testing to indicate that these conditions represent long-term physical consequences in allergic individuals. The positive response of patients afflicted with these conditions to antiallergic treatment further enhances the association between allergic rhinitis and other airway diseases. The use of nasal corticosteroids in patients with rhinitis and asthma reduces not only rhinitis symptoms but also asthma symptoms and airway reactivity to methacholine challenge. Similarly, antihistamines, with or without decongestants, result in improvement of objective measurements of pulmonary function. In the treatment of acute sinusitis, the combination of an intranasal corticosteroid and an antibiotic provides greater benefit than an antibiotic alone. Treatment strategies for allergic rhinitis should be directed at controlling the symptoms of allergic rhinitis and reducing the development of physical complications in susceptible persons. Three techniques for the treatment of allergic rhinitis are used, including avoidance of offending allergens, selection of appropriate pharmaceuticals, and allergy immunotherapy. Appropriate treatment may spare some patients of related airway diseases and may also reduce the overall cost of care. The broadened scope of allergic rhinitis and increased prevalence of IgE-mediated diseases have heightened awareness regarding the profound consequences of allergic rhinitis and the importance of effective treatment. (J Allergy Clin Immunol 1997;99:S773-80.)     

Comparison of deltaFVC between patients with allergic rhinitis with airway hypersensitivity and patients with mild asthma.

BACKGROUND: In asthmatic individuals, airway sensitivity and maximal airway response are increased. Airway sensitivity is usually evaluated by measuring the provocation concentration of inhaled methacholine or histamine that causes a decrease in forced expiratory volume in 1 second of 20% (PC20). The percentage decrease in forced vital capacity at the PC20 (deltaFVC) has been proposed as a surrogate marker for maximal airway response. Individuals with allergic rhinitis and no clinical evidence of asthma frequently exhibit airway hypersensitivity. OBJECTIVE: To compare the deltaFVC between patients with allergic rhinitis and mild asthmatic patients with a similar degree of airway hypersensitivity. METHODS: A retrospective analysis of methacholine challenge test data from 72 children with allergic rhinitis and airway hypersensitivity (methacholine PC20 < 16 mg/mL) (rhinitis group) and from 72 children with mild atopic asthma matched to the rhinitis group regarding the methacholine PC20 (asthma group). The deltaFVC was calculated on the concentration-response curve to methacholine. RESULTS: The mean +/- SD deltaFVC was significantly lower in the rhinitis group (15.0% +/- 3.6%) vs the asthma group (17.4% +/- 5.3%) (P = .002). There was no significant correlation between the deltaFVC and PC20 in the rhinitis (r = -0.101; P = .41) and asthma (r = -0.023; P = .85) groups when 2 patients with PC20 less than 1 mg/mL were excluded from each group. CONCLUSIONS: Patients with allergic rhinitis and airway hypersensitivity had a significantly lower deltaFVC than methacholine PC20-matched mild asthmatic patients, suggesting that the level of maximal airway response in patients with allergic rhinitis is lower than that in mild asthmatic patients with a similar degree of airway hypersensitivity.     

Allergic rhinitis and asthma comorbidity in a survey of young adults in Italy

BACKGROUND: Several studies have provided evidence of a strong association between asthma and allergic or nonallergic rhinitis, leading to the hypothesis that allergic rhinitis (AR) and asthma represent a continuum of the same disease. AIM: The aims of our study were: (i) to measure the comorbidity of AR and asthma and asthma-like symptoms and (ii) to assess whether asthma, AR, and their coexistence share a common pattern of individual risk factors. METHODS: The subjects are participants from the Italian multicentre, cross-sectional survey on respiratory symptoms in the young adult general population (Italian Study of Asthma in Young Adults, ISAYA). The relationship between individual risk factors and asthma, AR and their coexistence, was studied by means of a multinomial logistic regression. RESULTS: About 60% of asthmatics reported AR. On the other hand, subjects with AR presented an eightfold risk of having asthma compared to subjects without AR. Age was negatively associated with asthma [OR = 0.89, 95% confidence interval (CI): 0.82-0.96], AR (OR = 0.92, 95% CI: 0.86-0.98), and asthma associated with AR (OR = 0.83, 95% CI: 0.79-0.88). The risk of AR without asthma was significantly higher in the upper social classes (OR = 1.23, 95% CI: 1.08-1.39). Active current smoking exposure was positively associated with asthma alone (OR = 1.24, 95% CI: 1.09-1.41) and negatively associated with AR with (OR = 0.69, 95% CI: 0.54-0.88) or without (OR = 0.76, 95% CI: 0.69-0.84) asthma. CONCLUSIONS: Asthma and AR coexist in a substantial percentage of patients; bronchial asthma and AR, when associated, seem to share the same risk factors as AR alone while asthma without AR seems to be a different condition, at least with respect to some relevant risk factors.     

Upper and lower airway pathology in young children with allergic- and non-allergic rhinitis

Allergic- and non-allergic rhinitis are very common diseases in childhood in industrialized countries. Although these conditions are widely trivialized by both parents and physicians they induce a major impact on quality of life for the affected children and a substantial drainage of health care resources. Unfortunately, diagnostic specificity is hampered by nonspecific symptom history and lack of reliable diagnostic tests which may explain why the pathology behind such diagnoses is poorly understood. Improved understanding of the pathophysiology of allergic- and non-allergic rhinitis in young children may contribute to the discovery of new mechanisms involved in pathogenesis and help direct future research to develop correctly timed preventive measures as well as adequate monitoring and treatment of children with rhinitis. Asthma is a common comorbidity in subjects with allergic rhinitis and epidemiological surveys have suggested a close connection between upper and lower airway diseases expressed as the "united airways concept". Furthermore, an association between upper and lower airway diseases also seems to exist in non-atopic individuals. Nevertheless, the nature of this association is poorly understood and there is a paucity of data objectivizing this association in young children. The aim of this thesis was to describe pathology in the upper and lower airways in young children from the COPSAC birth cohort with investigator-diagnosed allergic- and non-allergic rhinitis. Nasal congestion is a key symptom in both allergic- and non-allergic rhinitis, and eosinophilic inflammation is a hallmark of the allergic diseases. In paper I, we studied nasal eosinophilia and nasal airway patency assessed by acoustic rhinometry in children with allergic rhinitis, non-allergic rhinitis and healthy controls. Allergic rhinitis was significantly associated with nasal eosinophilia and irreversible nasal airway obstruction suggesting chronic inflammation and structural remodeling of the nasal mucosa in children already at age 6 years. Non-allergic rhinitis exhibited no change in the nasal airway patency, but some nasal eosinophilia albeit less than children with allergic rhinitis. These findings suggest different pathology in allergic- and non-allergic rhinitis which may have important clinical implications for early pharmacological treatment of rhinitis in young children. In paper II, we utilized the nasal airway patency end-points derived from paper I to examine whether upper and lower airway patency are associated. Upper airway patency was assessed by acoustic rhinometry before and after intranasal α-agonist and lower airway patency by spirometry before and after inhaled β2-agonist. Upper and lower airway patencies were strongly associated and independent of body size, rhinitis and asthma. The association was consistent for both baseline values and for decongested nasal airway patency and post-β2 FEV1. Blood and nasal eosinophilia were also associated with nasal airway obstruction. This suggests generalized diminished airway dimensions as a novel susceptibility factor for concurrent symptoms of asthma and rhinitis in early childhood and supports the notion of a common pathophysiology in asthma and rhinitis. The clinical interpretation of these findings is that all children presenting either rhinitis or asthma should be considered inflamed in the entire respiratory tract. In paper III, we aimed to describe asthma and intermediary asthma end-points associated with allergic- and non-allergic rhinitis in preschool-aged children. At age 7 years, we evaluated prevalence of asthma, eczema, food sensitization, and filaggrin mutations; levels of total IgE, FeNO, and blood-eosinophils; lung function and bronchial responsiveness to cold dry air. We found that asthma was similarly associated with allergic- and non-allergic rhinitis suggesting a link between upper and lower airway diseases beyond an allergy associated inflammation. Only children with allergic rhinitis had increased bronchial responsiveness and elevated FeNO suggesting different endotypes of asthma symptoms in young children with allergic- and non-allergic rhinitis. We also found bronchial hyperresponsiveness and raised values of FeNO in children with allergic rhinitis without asthma suggesting sub-clinical bronchial inflammation and supporting the allergic disease process to involve both upper and lower airways. In conclusion, these observations objectively show marked differences in nasal pathology in young children with allergic- and non-allergic rhinitis and lend support to a close connection between upper and lower airway diseases partly from an allergy driven process, but equally from non-allergic mechanisms.