Bronchial responsiveness to methacholine and adenosine 5'-monophosphate in atopic and non-atopic preschool children with recurrent wheezing

Factors Associated with Positive Adenosine Challenge Test in Young Children with Suspected Asthma

Background: To investigate the predictive factors associated with positive adenosine monophosphate challenge using the auscultation method (AMP-PCW) test results. Methods: This is a prospective study of young children with suspected asthma who underwent AMP-PCW test. Patients with a positive AMP-PCW test were compared with those with a negative AMP-PCW. A multivariate logistic regression model was performed to identify the independent determinants of positive AMP-PCW. Results: A total of 159 patients completed the AMP-PCW test. The median age was 53 months. In total, 54.0% of patients had a positive AMP-PCW. The prevalence of atopic dermatitis and family history of asthma and allergy were significantly higher among the positive AMP-PCW group (P = 0.04, P = 0.02, and P = 0.007, respectively), as were the prevalences of elevated immunoglobulin E (IgE), peripheral blood eosinophils percentage (P = 0.003, P < 0.001, respectively), and number of emergency department (ED) visits/hospitalizations before AMP-PCW test (P = 0.006). A significant inverse correlation exists between peripheral blood eosinophils percentage and serum IgE levels with the AMP end-point concentrations (r = -0.302, P = 0.001, and r = -0.312, P = 0.001, respectively). In multivariate logistic regression model, peripheral blood eosinophils percentage, IgE levels, and the number of ED visits/hospitalizations before the AMP-PCW test were found as independent predictors for positive AMP-PCW test result. Conclusions: Our results suggest that bronchial responsiveness to AMP-PCW is related to proxy markers of airway inflammation (elevated eosinophils and IgE levels) and clinical exacerbation of asthma before the test. This may support the role of AMP-PCW in detecting inflammatory changes and monitoring their trend among young children with suspected asthma.

Bronchial hyper-responsiveness after preterm birth

Being born preterm often adversely affects later lung function. Airway obstruction and bronchial hyperresponsiveness (BHR) are common findings. Respiratory symptoms in asthma and in lung disease after preterm birth might appear similar, but clinical experience and studies indicate that symptoms secondary to preterm birth reflect a separate disease entity. BHR is a defining feature of asthma, but can also be found in other lung disorders and in subjects without respiratory symptoms. We review different methods to assess BHR, and findings reported from studies that have investigated BHR after preterm birth. The area appeared understudied with relatively few and heterogeneous articles identified, and lack of a pervasive understanding. BHR seemed related to low gestational age at delivery and a neonatal history of bronchopulmonary dysplasia. No studies reported associations between BHR after preterm birth and the markers of eosinophilic inflammatory airway responses typically found in asthma. This should be borne in mind when treating preterm born individuals with BHR and airway symptoms.

Airway hyper-responsiveness to mannitol provides a good evaluation of atopy in childhood asthma

AIM

The relationship between airway hyper-responsiveness (AHR) and atopy has been previously investigated, but there are still some issues to be clarified. The aim of this study was to assess the link between AHR and mannitol and atopy in asthmatic children.

METHODS

We evaluated 44 children with asthma, aged 6-16 years of age, using skin prick tests (SPTs), serum total and specific immunoglobulin E (IgE) levels and the mannitol challenge test (MCT).

RESULTS

We found a good correlation between AHR to mannitol and specific IgE against Dermatophagoides pteronissinus (r = -0.66, p < 0.001) and a weak correlation with specific IgE against dog dander (r = -0.33, p = 0.01) and Aspergillus fumigatus (r = -0.23, p = 0.02). Furthermore, we found a weak correlation between AHR to mannitol and serum total IgE (r = -0.30; p = 0.03), the sum of specific IgE to aeroallergens (r = -0.37, p = 0.01) and the number of positive SPTs (r = -0.31, p = 0.02).

CONCLUSION

Measuring AHR with MCT might provide an accurate evaluation of the degree of atopy in children. The patients with a higher degree of atopy were significantly more reactive to mannitol. In clinical practice, these results indicate that children with asthma who are more atopic may require more intensive treatment strategies to reduce AHR.

Bronchial Hyperresponsiveness to Methacholine and AMP in Children With Atopic Asthma

Purpose

Bronchial hyperresponsiveness (BHR) is typically measured by bronchial challenge tests that employ direct stimulation by methacholine or indirect stimulation by adenosine 5'-monophosphate (AMP). Some studies have shown that the AMP challenge test provides a better reflection of airway inflammation, but few studies have examined the relationship between the AMP and methacholine challenge tests in children with asthma. We investigated the relationship between AMP and methacholine testing in children and adolescents with atopic asthma.

Methods

The medical records of 130 children with atopic asthma (mean age, 10.63 years) were reviewed retrospectively. Methacholine and AMP test results, spirometry, skin prick test results, and blood tests for inflammatory markers (total IgE, eosinophils [total count, percent of white blood cells]) were analyzed.

Results

The concentration of AMP that induces a 20% decline in forced expiratory volume in 1 second [FEV1] (PC20) of methacholine correlated with the PC20 of AMP (r²=0.189, P<0.001). No significant differences were observed in the levels of inflammatory markers (total eosinophil count, eosinophil percentage, and total IgE) between groups that were positive and negative for BHR to methacholine. However, significant differences in inflammatory markers were observed in groups that were positive and negative for BHR to AMP (log total eosinophil count, P=0.023; log total IgE, P=0.020, eosinophil percentage, P<0.001). In contrast, body mass index (BMI) was significantly different in the methacholine positive and negative groups (P=0.027), but not in the AMP positive and negative groups (P=0.62). The PC20 of methacholine correlated with FEV1, FEV1/forced vital capacity (FVC), and maximum mid-expiratory flow (MMEF) (P=0.001, 0.011, 0.001, respectively), and the PC20 of AMP correlated with FEV1, FEV1/FVC, and MMEF (P=0.008, 0.046, 0.001, respectively).

Conclusions

Our results suggest that the AMP and methacholine challenge test results correlated well with respect to determining BHR. The BHR to AMP more likely implicated airway inflammation in children with atopic asthma. In contrast, the BHR to methacholine was related to BMI.

Serum immunoglobulin levels as a predictive factor for a better outcome of non-atopic childhood asthma

Childhood asthma is a heterogeneous condition with different phenotypes. Hereby, we aimed to study impact of serum immunoglobulin levels on clinical phenotypes and outcome of asthma. Seventy-eight children (M: 26, F: 52) aged less than 10 yrs (mean = 8.56 ± 3.23 yrs) and diagnosed as mild-moderate persistent asthma, followed up for at least 1 yr were included into the study. Asthmatic children were divided into two groups based on serum immunoglobulin levels at admission and were evaluated with respect to demographic data, allergic sensitization, symptom scores, medication usage, pulmonary functions, and non-specific bronchial hyper-reactivity. The age at onset of symptoms (40.88 ± 32.02 vs. 23.04 ± 26.97 months) was significantly younger in children with hypogammaglobulinemia (n = 28) compared to normogammaglobulinemia group (n = 50) (p = 0.016). Mean follow-up duration was 3.8 ± 2.1 yrs. Atopic sensitization rate was higher in those with normal immunoglobulin levels (81.2% vs. 17.9%), (p < 0.0001). Normal serum immunoglobulin levels were associated with atopic asthma (OR, 4.5; 95% confidence interval (CI): 2.0-10.1). For the prediction of atopic asthma, having normal immunoglobulin levels yielded predictive values of: sensitivity = 88.6%, specificity = 71.8%, positive predictive value = 81.1%, negative predictive value = 82.1%. Furthermore, percentages of atopic dermatitis and allergic conjunctivitis, elevated serum total IgE levels, eosinophilia, and bronchial hyper-reactivity were more common in normogammaglobulinemia with asthma group (p = 0.040, p = 0.003, p = 0.024, p = 0.030, p = 0.040, respectively). Although marked reductions in asthma scores and inhaled corticosteroid usage were observed in both groups over time, the rate of decline was significantly higher and earlier in hypogammaglobulinemia group (p = 0.0001, p = 0.004, respectively). In conclusion, asthmatic children with hypogammaglobulinemia presented at an earlier age, with lower rates of atopy, and earlier clinical improvement accompanied with earlier discontinuation of inhaled corticosteroids than children with normal immunoglobulin levels. Our data demonstrated that in children currently named as early-onset non-atopic asthma, hypogammaglobulinemia might be accompanying, providing evidence for a different phenotype of childhood asthma.

Bronchial hyperresponsiveness to methacholine and adenosine 5'-monophosphate, and the presence and degree of atopy in young children with asthma

BACKGROUND

Bronchial hyperresponsiveness (BHR) is a characteristic feature of asthma, and is usually measured by bronchial challenges using direct or indirect stimuli. The relationship between atopy and BHR remains to be clarified, particularly in a population selected for asthma. Furthermore, data for young children are limited, although asthma frequently occurs in early childhood.

OBJECTIVE

The aim of this study was to investigate methacholine (direct stimulus) and adenosine 5'-monophosphate (AMP) (indirect stimulus) responsiveness according to the presence and degree of atopy in young children with asthma.

METHODS

A retrospective analysis of data from 122 preschool children (median age [range]: 5.3 years [4.0-6.8]) presenting with the diagnosis of asthma was performed. These children were characterized by skin-prick tests (SPTs) and bronchial challenges with methacholine and AMP, using a modified auscultation method. The end-point concentration, resulting in audible wheezing and/or oxygen desaturation, was determined for each challenge. Atopy was defined by at least one positive reaction to SPTs, and its degree was assessed using serum total IgE levels, number of positive SPTs, and atopic scores (sum of graded weal size).

RESULTS

Atopic patients (n=97) had a significantly lower AMP end-point concentration than non-atopic patients (n=25), whereas the methacholine end-point concentration was not different between the two groups. Among the atopic patients, there was no association between the methacholine end-point concentration and any of the atopy parameters. By contrast, a significant association was found between the AMP end-point concentration and the degree of atopy reflected in serum total IgE and atopic scores (χ² test for trend, P=0.001, 0.003, respectively).

CONCLUSION AND CLINICAL RELEVANCE

Young children with atopic asthma had a significantly greater AMP responsiveness than those with non-atopic asthma, whereas methacholine responsiveness was not significantly different between the two groups. The degree of atopy appeared to be an important factor in AMP responsiveness, but not in methacholine responsiveness, and thus might be a marker of airway inflammation in asthma.

Bronchial hyperreactivity to methacholine in atopic versus nonatopic asthmatic schoolchildren and preschoolers

BACKGROUND

Atopy and bronchial hyperreactivity are factors related to severe and unremitting asthma of childhood; however, the prevalence of these factors could be different according to age of the child.

OBJECTIVE

To determine if methacholine bronchial hyperreactivity (BHR) differs between atopic and nonatopic preschoolers and schoolchildren with mild-moderate asthma.

METHODS

Data obtained from 340 children with diagnosis of asthma or recurrent wheezing, matched by atopic conditions (positive or negative skin prick test) and age, and who underwent a methacholine bronchial challenge test (by spirometry in schoolchildren and by transcutaneous oxygen pressure [TcP(O₂)] in preschoolers) were reviewed.

RESULTS

Among 136 schoolchildren (9.07 ± 2.5 years), the prevalence of positive BHR was significantly higher among atopics than nonatopics (75% versus 48.5%, p = .001, respectively), even after controlling for gender and nutritional status (adjusted odds ratio [aOR] = 3.2129, 95% confidence interval [CI]: 1.5-6.8; p = .002). In addition, atopic schoolchildren had lower PC(20) and required a lower threshold dose of methacholine to induce a reaction (0.53 versus 0.82 mg/ml, p = .055 and .5 versus 1 mg/ml, p = .02, respectively) than nonatopics. Nevertheless, basal and predicted forced expiratory volume in one second (FEV₁) were similar between groups. In contrast, among 204 preschoolers (4.74 ± 1.1 years), there were no differences in the prevalence of positive BHR between atopics and nonatopics (74.5% versus 72.5%, p = .75, respectively). Furthermore, basal TcP(O₂), a higher fall of TcP(O₂) and lower threshold doses of methacholine required for induction as measured by TcP(O₂) were similar between the atopic and nonatopic preschoolers.

CONCLUSIONS

Atopic asthmatic schoolchildren have greater hyperresponsiveness to methacholine than nonatopics (only among those with normal nutritional status). However, atopic and nonatopic asthmatic preschoolers have similar hyperresponsiveness to methacholine. Therefore, factors different from atopy may be responsible for wheeze in younger children.

Diagnostic and therapeutic value of airway challenges in asthma

Airway challenges are of value in the assessment of asthma. Direct challenges (histamine and methacholine) are highly sensitive for clinically current symptomatic asthma and particularly useful to exclude current asthma when they are negative. Indirect challenges (exercise, eucapnic voluntary hyperventilation, adenosine monophosphate, hypertonic saline, mannitol) are more specific but very insensitive for clinical asthma. They are of particular value to confirm asthma and to differentiate asthma from other airway diseases, such as chronic airflow limitation. The indirect stimuli are the challenges of choice for evaluating exercise-induced bronchoconstriction.

Application of a shortened inhaled adenosine-5'-monophosphate challenge in young children using the forced oscillation technique

BACKGROUND

Adenosine-5'-monophosphate (AMP) is an indirect challenge agent thought to reflect allergic airway inflammation. The forced oscillation technique (FOT) is ideal for use in young children and is suitable for inhaled challenge studies in patients who are in this age group. We assessed the agreement between a shortened and a standard AMP challenge and the repeatability of the shortened AMP challenge using FOT as a primary outcome variable.

METHODS

Eighteen children completed a shortened and a standard AMP challenge, and 20 children completed repeated shortened AMP challenges. The children inhaled nebulized AMP tidally for 2 min, following which the presence of wheeze and pulse oximetric saturation (Spo(2)) was recorded prior to FOT measurement. Testing continued until the maximum dose was reached or until wheeze, a decrease in Spo(2) to < 90%, or an increase in respiratory resistance at 8 Hz of 2.0 hPa/s/L or 30% was noted. Concordance was assessed as a binary response, and agreement in provocation concentrations (PCs) causing a response was assessed with intraclass correlations.

RESULTS

There was a high degree of concordance between the shortened and standard AMP protocols (94%) and repeated shortened AMP protocols (100%). The mean log(10) PCs displayed a high degree of agreement for both AMP protocols, with intraclass correlation coefficients of 0.94 (95% confidence interval, 0.85 to 0.98) and 0.94 (95% confidence interval, 0.82 to 0.98), respectively.

CONCLUSIONS

We demonstrated that a shortened AMP challenge that can be applied to young children is comparable to the standard AMP challenge and is highly repeatable. Further studies in young children to assess the clinical role of a shortened AMP challenge using FOT are required.

Methacholine and adenosine 5'-monophosphate challenges in preschool children with cough-variant and classic asthma

Bronchial challenge with different stimuli provides different information and may be used as an adjunct to understand the pathophysiology of cough variant asthma (CVA) in young children in whom the mechanism of disease is still unresolved. This study was designed to investigate the hypothesis that airway hyperresponsiveness (AHR) to methacholine and adenosine 5'-monophosphate (AMP) is similar in preschool children with CVA and classic asthma. We examined airway response to methacholine and AMP in well-defined 3-6-year-old children with CVA (n = 18), classic persistent asthma (n = 31), and healthy controls (n = 10) by transcutaneous oxygen monitorization. The number of AMP responsive children was significantly lower in the group with CVA (38.9%) than classic persistent asthma (67.7%) (P = 0.049). Mean provocative concentration of AMP causing a 15% fall in transcutaneous oxygen tension (PC15PtcO2 AMP) in children with CVA and classic persistent asthma were 234.58 and 36.35 mg/ml, respectively (P = 0.001). None of the healthy children in the control group responded to AMP. The severity of methacholine responsiveness was found similar in CVA and classic persistent asthma groups (P = 0.738). Although both asthma groups showed a similar pattern in methacholine responsiveness, preschool children with CVA were found to differ from children with classic persistent asthma with regard to response profiles to AMP challenge which may point to different pathophysiologic mechanisms of CVA in the young age group.