Inhaled corticosteroids and growth of airway function in asthmatic children.

Airway inflammation and remodelling play an important role in the pathophysiology of asthma. Remodelling may affect childhood lung function, and this process may be reversed by anti-inflammatory treatment. The current study assessed longitudinally whether asthma affects growth of airway function relative to airspaces, and if so whether this is redressed by inhaled corticosteroids (ICS). Every 4 months for up to 3 yrs, lung function was assessed in 54 asthmatic children (initial age 7-16 yrs), who inhaled 0.2 mg salbutamol t.i.d. and 0.2 mg budesonide t.i.d. (beta2-agonist (BA)+ICS), or placebo (PL) t.i.d. (BA+PL) in a randomised, double-blind design. Measurements were carried out before and after maximal bronchodilation. Airway growth was assessed from the change of forced expiratory volume in one second and of maximal expiratory flows (at 60% and 40% of total lung capacity (TLC) remaining in the lung) relative to TLC, as measures of more central, intermediate and more peripheral airways. Growth patterns were compared with the longitudinal findings in 376 healthy children. Airway patency after maximal bronchodilation in patients on BA+PL remained reduced compared to healthy subjects, whereas in patients on BA+ICS a marked improvement was observed to subnormal. No differences between patients and controls could be demonstrated for growth patterns of central and intermediate airway function. Compliance with BA+ICS was 75% of the prescribed dose, resulting in significant, sustained improvement of symptoms and postbronchodilator calibre of central and intermediate airways to subnormal within 2 months, but postbronchodilator small airway patency remained reduced, though improved compared to patients on BA+PL. Anti-inflammatory treatment of asthmatic children is associated with normal functional development of central and intermediate airways. The persistently reduced postbronchodilator patency of peripheral airways may reflect remodelling, or insufficient anti-inflammatory treatment.

Central airways behave more stiffly during forced expiration in patients with asthma.

Chronic inflammation and extracellular remodeling of the airway wall characterize asthma. The purpose of this study was to examine whether these features cause a change in airway mechanical properties. We examined 14 healthy and 10 young adults with long-lasting asthma, the latter treated with inhaled bronchodilators and corticosteroids. To obtain area-versus-transmural pressure (A-Ptm) curves during forced expiration (Pedersen, O. F., et al. J. Appl. Physiol. 1982;52:357-369), we used an esophageal balloon and a Pitot static probe positioned at five locations between the right lower lobe and midtrachea. Cross-sectional area (A), airway compliance (Caw = dA/dPtm), and specific airway compliance (sCaw = Caw/A) were obtained from the A-Ptm curves. Results showed that: (1) A was larger in males than in females; (2) Caw and sCaw decreased with a more downstream position; and (3) Caw and sCaw were significantly lower in the patients with asthma, with the differences between the asthmatic patients and the healthy subjects becoming smaller toward the trachea. The lower Caw and sCaw in the patients with long-lasting asthma support the concept that chronic inflammation and remodeling of the airway wall may result in stiffer dynamic elastic properties of the asthmatic airway.

Peak flow variation in childhood asthma: correlation with symptoms, airways obstruction, and hyperresponsiveness during long-term treatment with inhaled corticosteroids. Dutch CNSLD Study Group.

BACKGROUND: Guidelines for asthma management focus on treatment with inhaled corticosteroids and on home recording of peak expiratory flow (PEF). The effect of maintenance treatment with inhaled corticosteroids on PEF variation and its relation to other parameters of disease activity were examined in 102 asthmatic children aged 7-14 years. METHODS: During 20 months of treatment with inhaled salbutamol, with or without inhaled budesonide (600 micrograms daily), forced expiratory volume in one second (FEV1), the dose of histamine required to provoke a fall in FEV1 of more than 20% (PD20), the percentage of symptom free days, and PEF variation were assessed bimonthly. PEF variation was computed as the lowest PEF as a percentage of the highest PEF occurring over 14 days, the usual way of expressing PEF variation in asthma self-management plans. For each patient using inhaled corticosteroids within subject correlation coefficients (rho) were computed of PEF variation to the percentage of symptom free days, FEV1, and PD20. RESULTS: PEF variation decreased significantly during the first two months of treatment with inhaled corticosteroids and then remained stable. The same pattern was observed for symptoms and FEV1. In contrast, PD20 histamine continued to improve throughout the whole follow up period. In individual patients predominantly positive associations of PEF variation with symptoms, FEV1, and PD20 were found, but the ranges of these associations were wide. CONCLUSIONS: During treatment with inhaled corticosteroids the changes in PEF variation over time show poor concordance with changes in other parameters of asthma severity. When only PEF is monitored, clinically relevant deteriorations in symptoms, FEV1, or PD20 may be missed. This suggests that home recording of PEF alone may not be sufficient to monitor asthma severity reliably in children.

Addition of salmeterol versus doubling the dose of beclomethasone in children with asthma. The Dutch Asthma Study Group.

Studies in adults revealed that addition of salmeterol to a moderate dose of inhaled corticosteroid resulted in better symptom control and higher PEF compared with doubling the dose of inhaled corticosteroid. The aim of this three group study was to compare the effects of a moderate dose of beclomethasone, the same dose of beclomethasone with salmeterol, and a doubling dose of beclomethasone on lung function and symptoms in children with moderate asthma. A total of 177 children already treated with inhaled corticosteroids, were randomized in a double-blind parallel study either to salmeterol 50 microg twice daily (BDP400+salm), beclomethasone 200 microg twice daily (BDP800), or placebo (BDP400) in addition to beclomethasone 200 microg twice daily. No significant differences between groups were found in FEV1, PD20 methacholine, symptom scores, and exacerbation rates after 1 yr. Salmeterol resulted in slightly better PEF in the first months of treatment. FEV1, and PD20 methacholine significantly improved in all groups. After 1 yr mean changes in FEV1, percent predicted were 4.3% (95% CI 1.3; 7.2), 5.8% (95% CI 2.9; 8.7), and 4.3% (95% CI 2.1; 6.5) for BDP400+salm, BDP800, and BDP400, respectively. Changes in airway responsiveness were 0.60 (95% CI 0.05; 1.14), 1.30 (95% CI 0.73; 1. 87), and 0.80 (95% CI 0.33; 1.27) doubling doses. Growth was significantly slower in the BDP800 group. We conclude that no additional benefit was found of adding either salmeterol or more beclomethasone to a daily dose of 400 microg beclomethasone in this group of children with excellent compliance of medication.

One year treatment with salmeterol compared with beclomethasone in children with asthma. The Dutch Paediatric Asthma Study Group.

The aim of this study was to compare the effects of salmeterol and beclomethasone on lung function and symptoms in children with mild to moderate asthma. Sixty-seven children not treated with inhaled corticosteroids were randomized in a double-blind parallel study either to salmeterol 50 micrograms b.i.d. or beclomethasone 200 micrograms b.i.d. After one year, FEV1 significantly increased in the beclomethasone group, whereas in the salmeterol group there was a small reduction. Differences between groups were 14.2% predicted (p < 0.0001) and 7.0% predicted (p = 0.007) for pre- and postbronchodilator FEV1 values, respectively. PD20 methacholine decreased by 0.73 DD (p = 0.05) in the salmeterol group and increased by 2.02 DD (p < 0.0001) in the beclomethasone group. Morning and evening PEF and symptom scores improved in both groups, although more in the beclomethasone group. Asthma exacerbations, for which prednisolone was needed, were more frequent in the salmeterol group (17 versus two), as were the number of withdrawals due to exacerbations (six versus one). However, growth was significantly slower in the beclomethasone group (-0.28 SDS) compared with that in the salmeterol group (-0.03 SDS) (p = 0.001). We conclude that treatment with a moderate dose of beclomethasone is superior to salmeterol in children with mild to moderate asthma and recommend that salmeterol should not be used as monotherapy.

Peak flow variation in childhood asthma: relationship to symptoms, atopy, airways obstruction and hyperresponsiveness. Dutch CNSLD Study Group.

Although home recording of peak expiratory flow (PEF) is considered useful in managing asthma, little is known about the relationship of PEF variation to other indicators of disease activity. We examined the relationship of PEF variation, expressed in various ways, to symptoms, atopy, level of lung function, and airways hyperresponsiveness in schoolchildren with asthma. One hundred and two asthmatic children (aged 7-14 yrs) recorded symptoms and PEF (twice daily) in a diary for 2 weeks after withdrawal of all anti-inflammatory maintenance medication. PEF variation was expressed as amplitude % mean, as standard deviation and coefficient of variation of all recordings, and as low % best (lowest PEF as percentage of the highest of all values). Atopy and level of forced expiratory volume in one second (FEV1) % predicted were not significantly related to PEF variation. The provocative dose of histamine causing a 20% fall in FEV1 (PD20) and symptom scores were significantly, but weakly, related to PEF variation. The index, low % best, proved easy to calculate and effective in identifying a short-term episode of reduced PEF. We conclude that peak expiratory flow variation in children with stable, moderately severe asthma is significantly, but weakly, related to symptoms and airways hyperresponsiveness. These three phenomena, therefore, all provide different information on the actual disease state. Expressing peak expiratory flow variation as low % best is easy to perform and appears to be clinically relevant.

Wave-speed-determined flow limitation at peak flow in normal and asthmatic subjects.

The purpose of this study was to examine whether peak expiratory flow is determined by the wave-speed flow-limiting mechanism. We examined 17 healthy subjects and 11 subjects with stable asthma, the latter treated with inhaled bronchodilators and corticosteroids. We used an esophageal balloon and a Pitot-static probe positioned at five locations between the right lower lobe and midtrachea to obtain dynamic area-transmural pressure (A-Ptm) curves as described (O. F. Pedersen, B. Thiessen, and S. Lyager. J. Appl. Physiol. 52: 357-369, 1982). From these curves we obtained cross-sectional area (A) and airway compliance (Caw = dA/dPtm) at PEF, calculated flow at wave speed (Vws = A[A/(Caw*rho)0.5], where rho is density) and speed index is (SI = V/Vws). In 13 of 15 healthy and in 4 of 10 asthmatic subjects, who could produce satisfactory curves, SI at PEF was > 0.9 at one or more measured positions. Alveolar pressure continued to increase after PEF was achieved, suggesting flow limitation somewhere in the airway in all of these subjects. We conclude that wave speed is reached in central airways at PEF in most subjects, but it cannot be excluded that wave speed is also reached in more peripheral airways.

Airway responsiveness after a single dose of salmeterol and during four months of treatment in children with asthma.

BACKGROUND: Inhalation of a single dose of the long-acting beta 2-adrenoceptor agonist salmeterol protects against methacholine-induced airway obstruction and other bronchoconstricting stimuli for at least 12 hours. Hypothetically, twice daily dosing of salmeterol may result in continuous protection. OBJECTIVE: This study was designed to investigate the protective effect of a single dose of salmeterol and of continuous twice daily treatment on airway responsiveness to methacholine. METHODS: In a double- blind, parallel study, salmeterol 50 micrograms twice daily was compared with salbutamol 200 micrograms twice daily. Thirty children with mild asthma, who had little or no bronchial obstruction and were hyperresponsive to methacholine (PD20 < or = 150 micro g) were allocated to receive either salmeterol or salbutamol. Airway responsiveness was measured before study entry, 12 hours after a single dose of drug was given, and monthly during 4 months of daily treatment. Measurements were always performed at the same time of the day, 12 hours after the last dose of medication was administered. RESULTS: No significant differences in FEV 1 were found between treatments at any time point. PD20 significantly increased after the first dose of salmeterol was given (geometric mean, 100 micro g). Geometric mean PD20 values were significantly better during salmeterol treatment than during salbutamol treatment, 52 and 25 micro g, respectively (p = 0.005). CONCLUSION: The protection provided by salmeterol during maintenance treatment was less than that provided after the first dose (p <0.001). However, protection did not diminish during the 4-month treatment period and remained significant compared with baseline (p = 0.003).

Bradykinin-induced contraction of human peripheral airways mediated by both bradykinin beta 2 and thromboxane prostanoid receptors.

Bradykinin (BK) induces bronchoconstriction in asthmatic but not in normal individuals. Studies in vivo in the human suggest that BK causes cholinergic nerve activation, release of prostanoids, and local axon reflexes with release of tachykinins in the airways. To determine the mechanisms of BK-induced airway narrowing, we investigated the effects of epithelium removal, inhibition of the enzymes neutral endopeptidase (NEP) and cyclooxygenase, and blockade of neural conductance with tetrodotoxin (TTX) on BK-induced responses of human isolated peripheral airways. Responses to BK were recorded from airways with spontaneous intrinsic tone and from airways precontracted with methacholine. Furthermore, we measured the BK-induced release of the prostanoids PGE2, PGI2, and TXA2 from airways with and without epithelium in the absence and presence of indomethacin by radioimmunoassay. Finally, we examined the effect of the bradykinin beta 2 receptor antagonist Hoe 140 and the thromboxane prostanoid (TP) receptor blocking drug GR32191 on BK-induced responses. BK contracted intact and epithelium-denuded airways with spontaneous intrinsic tone, whereas precontracted airways either relaxed or contracted to BK. Removal of the epithelium increased the sensitivity to BK sevenfold without changing the direction of the response. The NEP inhibitor phosphoramidon tended to increase the sensitivity to BK (NS) and did not change the direction of the response. Both contractile and relaxation responses to BK and the release of the prostanoids PGE2, PGI2, and TXA2 by the airway tissues were largely inhibited by indomethacin, whereas TTX had no effect. PGE2, PGI2, and TXA2 were released by both intact and epithelium-denuded airways.(ABSTRACT TRUNCATED AT 250 WORDS)

Oxidative epithelial damage produces hyperresponsiveness of human peripheral airways.

The epithelium probably modulates airway smooth muscle responsiveness by producing relaxing factors, by inactivating agonists, or by acting as a physical barrier. In isolated airway strips, however, only a limited modulatory role of the epithelium has been found, and this may well be due to shortcomings of this airway model. The present study compares the modulatory role of the airway epithelium in human airway tubes and strips. In addition, since oxygen radicals may contribute to epithelial damage in asthma, oxidative damage to the airway epithelium was induced with luminally applied hydrogen peroxide (H2O2), and changes in responsiveness to the agonists histamine, methacholine, and salbutamol were measured. To examine whether intact epithelium acts as a barrier to histamine, the histamine concentration in the organ bath was measured in tubes with intact and damaged epithelium stimulated from the mucosal side. In airway strips, no differences in responsiveness were found between intact and epithelium-denuded airways for any of the three agonists. In contrast, the sensitivity of airway tubes to both histamine and methacholine was significantly lower with mucosal stimulation than with serosal stimulation (-log EC50: 4.87 and 4.92 versus 5.87 and 5.45 for histamine and methacholine, respectively, p < 0.001). No difference was found between the sensitivity to salbutamol of mucosally and serosally stimulated airways (-log EC50: 6.19 and 6.20, respectively). The modulation of the sensitivity to contractile agonists by the epithelium increased with increasing airway size, and was abolished after treatment with H2O2.(ABSTRACT TRUNCATED AT 250 WORDS)

Remission of childhood asthma after long-term treatment with an inhaled corticosteroid (budesonide): can it be achieved? Dutch CNSLD Study Group.

This study was undertaken in order to determine whether long-term treatment with inhaled corticosteroid can induce a remission in childhood asthma, and to decide when stabilization of airway responsiveness occurred. We therefore carried out, an extended follow-up of 28-36 months in one of two groups of children who participated in a long-term intervention study. This former study had shown that long-term (median follow-up 22 months) treatment with inhaled corticosteroid plus beta 2-agonist improves symptoms, airway calibre and airway responsiveness in children with asthma, compared with beta 2-agonist alone. On treatment with inhaled corticosteroid plus beta 2-agonist, airway calibre did not further improve after 4 months, whereas the provocative dose of histamine which causes a 20% fall in forced expiratory volume in one second (PD20) histamine showed gradual improvement without reaching an apparent plateau. Remission was defined as being symptom free during any 8 month period. Of the 58 children originally randomized to receive 0.2 mg salbutamol, plus 0.2 mg budesonide, t.i.d., five children withdrew: three due to lack of motivation, one for psychological reasons, and one due to a deterioration of asthma. One patient was hospitalized because of an asthma exacerbation. Airway calibre showed no improvement after 4 months up to 36 months. Mean PD20 histamine stabilized after 20 months at 2.1 doubling doses above baseline, but at a subnormal level of 80 micrograms. Symptoms improved during the first 18 months, and may have been improving further, but slowly, during the period between 18 and 36 months.(ABSTRACT TRUNCATED AT 250 WORDS)

Large lungs after childhood asthma. A case-control study.

Several studies have suggested that the TLC after childhood asthma is increased compared wtih that in healthy subjects. The aim of this study was to assess whether TLC is increased after childhood asthma and whether this is associated with an increased growth of the lung during adolescence. During a mean period of 29 months we studied 53 patients and 106 healthy control subjects who were matched for sex, age, and standing height. The patients had had asthma for a mean period of 10 yr. We found that in asthmatics TLC was increased in both sexes by about 7% predicted compared with that in the matched control subjects. The growth of TLC in ml/yr during adolescence was less in patients; this can be accounted for by a delay in pubertal development. When corrected for the delay in growth of stature, growth of TLC in ml/cm in asthmatics was similar to that found in control subjects. These findings support the hypothesis of a developmental change of enhanced lung growth during childhood asthma; they do not support a mechanism with progressive loss of elastic recoil of the lung.

Growth of airways and air spaces in teenagers is related to sex but not to symptoms.

To determine growth patterns of the lung and airways in adolescents, we analyzed maximal expiratory flow-volume curves, closing capacity, and residual volume. They were obtained every 6 mo for up to 7 yr in 430 boys and 125 girls (11-19 yr), of whom 143 boys and 36 girls were classified as symptomatic; symptoms were most often minor and limited to childhood. Development of flows vs. volumes was used to investigate growth of the airways relative to lung size. A model of isotropic growth of the airways and air spaces (J. Appl. Physiol. 65: 822-828, 1988) was modified for increasing elastic recoil pressure with growth. Growth of airways relative to volume occurred faster in teenage boys than in teenage girls and was compatible with isotropic growth in 92% of asymptomatic boys and in 44% of asymptomatic girls: dysanaptic growth in teenage girls seems to be a normal phenomenon and not a unique characteristic of symptomatic subjects. Subjects with respiratory symptoms in childhood and/or adolescence have lower flows for a given lung size and airway closure at a greater lung volume when they enter adulthood. However, no difference in patterns of lung growth was observed in association with the presence of respiratory symptoms.

Cessation of long-term treatment with inhaled corticosteroid (budesonide) in children with asthma results in deterioration. The Dutch CNSLD Study Group.

Inhaled corticosteroid has been shown to be effective in the management of asthma. However, there is a lack of studies that assess the effect of cessation after long-term treatment with inhaled corticosteroid. This question was addressed in 28 children with stable asthma, aged 11 to 18 yr of age, who had completed 28 to 36 months of treatment with inhaled corticosteroid (budesonide 200 micrograms 3 times/day) and inhaled beta-2-agonist (salbutamol 200 micrograms 3 times/day). The children were randomized in a 1:2 ratio in a double-blind study either to continue budesonide (n = 8) during a period of 6 months or to decrease the dose of budesonide (n = 20) within 2 months, followed by placebo for 4 months. Treatment with salbutamol 600 micrograms daily was continued in both groups. Eight children from the tapering-off group withdrew, mainly due to symptoms of asthma, compared with none in the continuous treatment group. Five patients in the tapering-off group experienced exacerbations for which prednisolone was given, compared with none in the continuous treatment group. After tapering-off, symptoms of asthma and additional bronchodilator use increased, and both FEV1% predicted and PD20 histamine (provocation dose of histamine causing a 20% fall in FEV1) decreased, whereas these all remained unchanged in the group that continued treatment with inhaled corticosteroid. We conclude that in this study long-term treatment with 600 micrograms budesonide daily suppressed underlying mechanisms of asthma, but did not cure the disease.

Epithelium removal and peptidase inhibition enhance relaxation of human airways to vasoactive intestinal peptide.

In this study we evaluated the role of epithelial versus subepithelial peptidases in the responses of isolated peripheral and central human airways to VIP. Human airways were obtained at thoracotomies (n = 8) and studied in organ baths. Intact or epithelium-denuded strips of central and peripheral airways were incubated with or without a cocktail of peptidase inhibitors containing phosphoramidon (2.5 micrograms/ml), leupeptin, aprotinin, captopril, soybean trypsin inhibitor (all 20 micrograms/ml), and bestatin (2.8 micrograms/ml). After precontraction with histamine (5 x 10(-6) M), cumulative concentration-response curves to VIP (10(-10) to 10(-7) M) were obtained. Both intact central and peripheral airways showed only minor relaxations to VIP irrespective of the precontraction level. Removal of the epithelium and addition of peptidase inhibitors additively increased the sensitivity (> 20-fold) and maximal response to VIP in both central and peripheral airways. We conclude that (1) VIP relaxes both central and peripheral human airways but only in the absence of epithelium and/or the presence of peptidase inhibitors, and (2) both epithelial and subepithelial peptidases are important in the inactivation of VIP in human airways.

Long-term effect of inhaled corticosteroids on growth rate in adolescents with asthma.

BACKGROUND: Growth in stature in asthmatic adolescents may be delayed compared to normals as a result of treatment with inhaled corticosteroids (CS) or because of a delay in puberty. However, growth rates in asthmatic children have never been studied when treatment with CS was randomized and when growth was compared with that of matched healthy control subjects. OBJECTIVE: To assess the long-term effect of CS treatment on growth rates in asthmatic adolescents. METHODS: Participants were 40 asthmatic teenagers (mean age 12.8 years) who received randomized treatment with 0.2 mg of albuterol (salbutamol) with either placebo three times a day (BA + PL) or 0.2 mg of budesonide three times a day (BA + CS) for a median period of 22 months in a double-blind controlled study. Growth rates were compared with those of 80 control subjects who were matched for sex, age, height, and duration of follow-up. RESULTS: Growth rates in male patients, but not in female patients, were significantly less than in control subjects (P < .05), a finding consistent with a delay of puberty due to asthma. The mean difference (95% confidence interval) in growth rates between patients treated with BA+PL and their controls was -0.70 (-1.62, 0.22) cm/y; that between patients treated with BA + CS and their controls was -0.44 (-1.25, 0.37) cm/y. The observed mean (SEM) case-control difference between treatment groups was +0.27 (0.58) cm/y in favor of BA + CS. CONCLUSION: Growth retardation observed in adolescents with asthma may be due to a delay in puberty but not to the prescription of 0.6 mg of budesonide daily.

What limits endurance in normal children?

We have compared the results of a standard progressive maximal exercise test to those of an endurance exercise test in 22 healthy school children (13 girls, 9 boys, mean age 14.8 years) in order to examine whether it is possible to extrapolate results from a maximal test to predict their endurance capacity. All children performed a standard progressive maximal exercise test (15 W increments every minute until exhaustion) and an endurance test (individually calculated loads to mimic cycling at 20 km/h against a windforce 5 of Beaufort for 30 minutes) on 2 separate days. In both tests metabolic [oxygen uptake (VO2), CO2 production, blood lactate accumulation], ventilatory [minute ventilation (VE)], and circulatory variables were measured. From the maximal test the threshold of lactate accumulation (LT) was determined. Thirteen children were capable of enduring the 30 minute exercise (Group 1), and 9 could not complete the endurance test (Group 2). These two groups were comparable with respect to age, height, and baseline lung function. Children in Group 2 had a higher mean weight (P < 0.005) than those in Group 1. Eight of the 9 children in Group 2 were girls, whereas Group 1 consisted of 5 girls and 8 boys. There was no significant difference between Group 1 and 2 in the mean values of VO2 max, maximal respiratory exchange ratio (R max), VEmax, LT, oxygen pulse, and other variables obtained during the maximal exercise tests. Lactate accumulation during the endurance test in Group 2 was larger than in Group 1 (P < 0.005).(ABSTRACT TRUNCATED AT 250 WORDS)

[Consensus asthma in children]. / Consensus astma bij kinderen.

The conclusions are presented of a consensus meeting of the Central Advisory Committee for Peer Review concerning detection and treatment of asthma in children. The aims of the management of asthmatic patients are maximal control of symptoms and optimal long-term evolution. Asthma was defined as a disease characterized by reversible bronchial obstruction and bronchial hyperreactivity (i.e. increased sensitivity of the respiratory tract to aerogenic stimuli with the symptoms of dyspnoea, cough and/or wheezing owing to increased sensitivity of the respiratory tract to allergenic and non-allergenic stimuli with as the pathological substrate a chronic inflammatory reaction. The working hypothesis was that early recognition of asthma and adequate treatment can prevent or reduce respiratory problems at later ages. For the diagnosis, the follow-up of the disease and monitoring of the treatment, a few simple lung function tests suffice: determination of the expiratory peak flow and of the forced expiratory one-second volume. If the symptoms recur or are of a permanent nature, allergological examination is indicated. Basic elements of intervention are preventive measures, including cleaning up the living environment, drug treatment, attention for the experience of the disease and information. A specific recommendation is made for drug treatment, in the form of a step-by-step approach based on a division of the severity of the disease into four categories.