Objectives To investigate the occurrence of respiratory pathogens in samples from children with and without respiratory symptoms and to identify whether age and/ or coinfections modify the impact of ...respiratory pathogens on symptoms. Study design In a prospective longitudinal study, 18 children were sampled biweekly for respiratory pathogens, irrespective of respiratory symptoms. Polymerase chain reaction was performed for 13 respiratory pathogens. Episodes were defined “asymptomatic” if no symptoms of any respiratory tract illness were present between 1 week before and 1 week after sampling. Results A total of 230 samples were collected. In 56% of the symptomatic episodes, a pathogen was detected, compared with 40% of the asymptomatic episodes ( P = .03). Rhinovirus and coronaviruses were most prevalent in both symptomatic and asymptomatic episodes. In the youngest children, 9% of the pathogen-positive episodes were asymptomatic, compared with 36% in the oldest children ( P = .01). Multiple pathogens were found in 17% of the symptomatic episodes and in 3% of the asymptomatic episodes ( P = .02). Conclusions Respiratory pathogens are frequently detected in samples from children with no respiratory symptoms. Symptomatic cases occurred more often in younger children and with detections of more than 1 respiratory pathogen.
Objective To quantify the critical age period of first episode of acute otitis media (AOM) and its consequences for AOM recurrences and AOM health care use. Study design Children enrolled in the ...Wheezing-Illnesses-STudy-LEidsche-Rijn cohort with at least 1 episode of AOM documented in their primary care health record before 2 years of age were followed until 6 years of age. Data on episodes of AOM and associated primary care consultations, antibiotic prescriptions, and specialist referrals were retrieved. Regression models assessed the presence and shape of the associations between age of first AOM and subsequent episodes of AOM and health care use. Results A total of 796 of 2026 children (39%) experienced a first AOM before 2 years of age. Each month decrease in age at first AOM in the first 2 years of life increased the risk of developing recurrent AOM (≥3 AOM episodes in 6 months or ≥ 4 in 1 year) linearly by 6% (adjusted risk ratio: 1.06; 95% CI: 1.02-1.10). For first AOM occurring before 9 months, the cumulative 6-year primary care consultation rate increased by 8% (adjusted incidence rate ratio: 1.08; 95% CI: 1.03-1.15) and the associated specialist referral increased by 16% (adjusted risk ratio: 1.16; 95% CI: 1.07-1.27) for each month decrease in age. No associations were found between age at first AOM and total AOM episodes or antibiotic prescriptions. Conclusions The association between earlier age of first AOM and recurrent AOM as well as total health care use during childhood is particularly strong before 9 months of age.
Background Asthma and excessive body weight frequently coexist, whereas the exact relationship between the 2 diseases is unknown. Objective To study whether asthma combined with excessive body weight ...has a greater effect on quality of life in children than the separate effects of asthma or excessive body weight alone. Methods In a cross-sectional design, 1758 school children (age 7-10 years) participated: 4 study groups were composed of children with asthma and with/without excessive body weight, and healthy controls with/without excessive body weight. Diagnosis of asthma was defined by either a doctor's diagnosis or by core questions of the International Study of Asthma and Allergies in Childhood questionnaire in combination with either reversible airway obstruction or bronchial hyperresponsiveness. Excessive body weight was defined by using international cutoff points for body mass index. Quality of life was evaluated by the Pediatric Asthma Quality of Life Questionnaire. Results For all domains of quality of life, children with both asthma and excessive body weight had lower scores than children with either asthma alone or excessive body weight alone. Compared with healthy controls, the score was 25% lower in children with asthma and excessive body weight, 14% lower in children with asthma and normal weight, and only 1% lower in overweight controls. Conclusion Excessive body weight is associated with an additional decrease in quality of life in children with asthma. Clinical implications Clinicians should be aware of the interaction between asthma and excessive body weight and the effect on quality of life and should give extra attention to children with both conditions.
Several studies have reported elevated levels of fractional exhaled nitric oxide (FeNO) in atopic patients, particularly in asthmatic patients, suggesting that FeNO is a marker of bronchial ...inflammation. However, the independent influence of different atopic entities (eczema, allergic rhinitis, and asthma) on FeNO has never been studied in the general population.
To study the influence of a questionnaire-based diagnosis of atopic diseases and IgE and lung function measurements on FeNO levels.
This study was part of a follow-up on otitis media of a birth cohort of 1,328 children born in Nijmegen, the Netherlands, between September 1, 1982, and August 31, 1983. Within the birth cohort, the incidence of asthma, allergic rhinitis, and eczema was determined, and off-line FeNO, spirometry, and IgE measurements were performed at the age of 21 years.
FeNO measurements were successfully performed in 361 participants. Median FeNO levels were significantly higher in those with vs without eczema (23.6 vs 18.0 ppb; P < .0001), those with vs without allergic rhinitis (20.7 vs 17.8 ppb; P = .0001), and those with vs without atopic asthma (23.3 vs 18.1 ppb; P = .02) but not in those with vs without asthma (20.8 vs 18.3 ppb; P = .24). Eczema, allergic rhinitis, smoking, sex, and atopic sensitization appeared to be independently associated with log FeNO in this population sample, whereas (atopic) asthma was not. No effect on FeNO levels was observed for lung function parameters.
Eczema, allergic rhinitis, and atopic status were all independently associated with elevated FeNO levels, whereas (atopic) asthma was not. This finding implies that future studies into the role of FeNO in asthma should consider the influence of atopic disease outside the lungs.
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