A Calibration Device to Compare Body Plethysmographs Among Pediatric Lung Function Laboratories

Multi-center studies in specific airway resistance have shown significant inter laboratory variability. Comparison of plethysmographic equipment using a lung model easily transportable from one site to another should be of help to international normative studies. A resistor made of parallel capillary tubes – insuring adequate linearity within 1 L/sec – was connected to a glass bottle. Thermal time constants were measured while the bottle was empty and while stuffed with steel wool. In the latter, isothermal condition was estimated to occur only at very low frequency (around 0.01 Hz) and gas compression was polytropic up to 0.6 Hz. With the empty analog, adiabatic gas compression was estimated to occur at frequencies ≥0.2 Hz, and more accurate volume estimation was obtained. The empty analog volume and specific resistance measured in a body plethysmograph on different days indicated within 5% accuracy as well as intersession repeatability. It is concluded that a physical analog built out of simple material provides accurate measurements of specific resistance. The apparatus should be of help to compare plethysmographic equipments from different laboratories

Bronchial or Laryngeal Obstruction Induced by Exercise?

A child suspected of exercise-induced laryngeal obstruction and asthma is examined by laryngoscopy and respiratory resistance (Rrs) after exercise challenge. Immediately at exercise cessation, the visualized adduction of the larynx in inspiration is reflected in a paroxystic increase in Rrs. While normal breathing has apparently resumed later on during recovery from exercise, the pattern of Rrs in inspiration is observed to reoccur following a deep breath or swallowing. The procedure may thus help diagnosing the site of exercise-induced obstruction when laryngoscopy is not available and identify re-inducers of laryngeal dysfunction

More Relaxation by Deep Breath on Methacholine- Than on Exercise-Induced bronchoconstriction during the Routine Testing of Asthmatic Children

Deep inspiration (DI) dilates normal airway precontracted with methacholine. The fact that this effect is diminished or absent in asthma could be explained by the presence of bronchial inflammation. The hypothesis was tested that DI induces more relaxation in methacholine induced bronchoconstriction—solely determined by the smooth muscle contraction—than in exercise induced bronchoconstriction, which is contributed to by both smooth muscle contraction and airway wall inflammation. The respiratory conductance (Grs) response to DI was monitored in asthmatic children presenting a moderately positive airway response to challenge by methacholine (n = 36) or exercise (n = 37), and expressed as the post- to pre-DI Grs ratio (GrsDI). Both groups showed similar change in FEV1 after challenge and performed a DI of similar amplitude. GrsDI however was significantly larger in methacholine than in exercise induced bronchoconstriction (p < 0.02). The bronchodilatory effect of DI is thus less during exercise- than methacholine-induced bronchoconstriction. The observation is consistent with airway wall inflammation—that characterizes exercise induced bronchoconstriction—rendering the airways less responsive to DI. More generally, it is surmised that less relief of bronchoconstriction by DI is to be expected during indirect than direct airway challenge. The current suggestion that airway smooth muscle constriction and airway wall inflammation may result in opposing effects on the bronchomotor action of DI opens important perspective to the routine testing of asthmatic children. New crossover research protocols comparing the mechanical consequences of the DI maneuver are warranted during direct and indirect bronchial challenges

Childhood asthma outcomes during the COVID-19 pandemic: Findings from the PeARL multinational cohort

Background The interplay between COVID-19 pandemic and asthma in children is still unclear. We evaluated the impact of COVID-19 pandemic on childhood asthma outcomes.Methods The PeARL multinational cohort included 1,054 children with asthma and 505 non-asthmatic children aged between 4 and 18 years from 25 pediatric departments, from 15 countries globally. We compared the frequency of acute respiratory and febrile presentations during the first wave of the COVID-19 pandemic between groups and with data available from the previous year. In children with asthma, we also compared current and historical disease control.Results During the pandemic, children with asthma experienced fewer upper respiratory tract infections, episodes of pyrexia, emergency visits, hospital admissions, asthma attacks, and hospitalizations due to asthma, in comparison with the preceding year. Sixty-six percent of asthmatic children had improved asthma control while in 33% the improvement exceeded the minimal clinically important difference. Pre-bronchodilatation FEV1 and peak expiratory flow rate were improved during the pandemic. When compared to non-asthmatic controls, children with asthma were not at increased risk of LRTIs, episodes of pyrexia, emergency visits, or hospitalizations during the pandemic. However, an increased risk of URTIs emerged.Conclusion Childhood asthma outcomes, including control, were improved during the first wave of the COVID-19 pandemic, probably because of reduced exposure to asthma triggers and increased treatment adherence. The decreased frequency of acute episodes does not support the notion that childhood asthma may be a risk factor for COVID-19. Furthermore, the potential for improving childhood asthma outcomes through environmental control becomes apparent.</p

Réponse bronchomotrice aux variations de volume pulmonaire : description mécanismes, mise en place d'un modèle expérimental et applications à l'exploration fonctionnelle de l'enfant asthmatique

Non disponible / Not available .Le tonus bronchomoteur varie de façon significative lorque le système thoraco-pulmonaire est distendu par une inspiration profonde. Les caractéristiques de la variation induite varient avec la nature et le degré de l'obstruction bronchique.Ce travail comporte trois études cliniques permettant de caractériser chez l'enfant les variations du TBM après IR lors d'une obstruction bronchique spontanée et lors de deux obstructions induites par la méthacholine et par l'exercice. La théorie mécanique de l'hystérésis relatif des voies aériennes et du parenchyme prédomine les hypothèses physiopathologiques actuelles.La seconde partie du travail est consacrée à la présentation d'un modele de rat rendu allergique et dont la mécanique ventilatoire est mesurée par la tecnique des oscillations forcée

Réponse bronchomotrice aux variations de volume pulmonaire (description mécanismes, mise en place d'un modèle expérimental et applications à l'exploration fonctionnelle de l'enfant asthmatique)

Le tonus bronchomoteur varie de façon significative lorque le système thoraco-pulmonaire est distendu par une inspiration profonde. Les caractéristiques de la variation induite varient avec la nature et le degré de l'obstruction bronchique.Ce travail comporte trois études cliniques permettant de caractériser chez l'enfant les variations du TBM après IR lors d'une obstruction bronchique spontanée et lors de deux obstructions induites par la méthacholine et par l'exercice. La théorie mécanique de l'hystérésis relatif des voies aériennes et du parenchyme prédomine les hypothèses physiopathologiques actuelles.La seconde partie du travail est consacrée à la présentation d'un modele de rat rendu allergique et dont la mécanique ventilatoire est mesurée par la tecnique des oscillations forcéesNANCY1-SCD Medecine (545472101) / SudocSudocFranceF

RESISTANCE THORACO-PULMONAIRE PAR OSCILLATIONS FORCEES CHEZ L'ENFANT ASTHMATIQUE (INTERET DE LA MODELISATION AU COURS DU CYCLE RESPIRATOIRE)

NANCY1-SCD Medecine (545472101) / SudocPARIS-BIUM (751062103) / SudocSudocFranceF

Expiratory Flow – Vital Capacity: Airway – Lung Dysanapsis in 7 Year Olds Born Very Preterm?

An index normalizing airway dimension for lung size derived from spirometry was found inversely correlated to lung size in school children born very preterm, indicating larger alveolar volumes draining into comparatively smaller airways. In contrast in children born full term the index was independent of lung size

Modulation of protective reflex cough by acute immune driven inflammation of lower airways in anesthetized rabbits.

Chronic irritating cough in patients with allergic disorders may reflect behavioral or reflex response that is inappropriately matched to the stimulus present in the respiratory tract. Such dysregulated response is likely caused by sensory nerve damage driven by allergic mediators leading to cough hypersensitivity. Some indirect findings suggest that even acid-sensitive, capsaicin-insensitive A-δ fibers called "cough receptors" that are likely responsible for protective reflex cough may be modulated through immune driven inflammation. The aim of this study was to find out whether protective reflex cough is altered during acute allergic airway inflammation in rabbits sensitized to ovalbumin. In order to evaluate the effect of such inflammation exclusively on protective reflex cough, C-fiber mediated cough was silenced using general anesthesia. Cough provocation using citric acid inhalation and mechanical stimulation of trachea was realized in 16 ovalbumin (OVA) sensitized, anesthetized and tracheotomised rabbits 24h after OVA (OVA group, n = 9) or saline challenge (control group, n = 7). Number of coughs provoked by citric acid inhalation did not differ between OVA and control group (12,2 ±6,1 vs. 17,9 ± 6,9; p = 0.5). Allergic airway inflammation induced significant modulation of cough threshold (CT) to mechanical stimulus. Mechanically induced cough reflex in OVA group was either up-regulated (subgroup named "responders" CT: 50 msec (50-50); n = 5 p = 0.003) or down-regulated (subgroup named "non responders", CT: 1200 msec (1200-1200); n = 4 p = 0.001) when compared to control group (CT: 150 msec (75-525)). These results advocate that allergen may induce longer lasting changes of reflex cough pathway, leading to its up- or down-regulation. These findings may be of interest as they suggest that effective therapies for chronic cough in allergic patients should target sensitized component of both, reflex and behavioral cough