ABSTRACT
OBJECTIVE: To evaluate the safety of an abbreviated methacholine challenge test (MCT) protocol in children. STUDY DESIGN: This prospective, observational study enrolled children aged 6 through 18 years referred for the MCT. The abbreviated protocol was initiated with a methacholine dose of 0.03 mg/ml and escalated in fourfold increments, unless the forced expiratory volume at 1 second (FEV1) decline exceeded 10%, at which point the next dose was only doubled. The safety of this abbreviated approach was assessed by monitoring adverse events, and specifically, decreases in FEV1 over 40%, hypoxemia, or uncontrollable cough. The number of methacholine doses and test duration were recorded and compared with estimated outcomes derived from the full-length MCT protocol. RESULTS: One hundred and twelve participants, aged 13.7 years (±3.3), successfully completed the protocol. Fifty-seven (51%) presented a positive MCT response. No significant clinical adverse events were observed. Of all participants, 2.7% exhibited an exaggerated response, in line with previously reported findings for the full-length protocol. The abbreviated approach resulted in an estimated average time-savings of 18:19 minutes per participant, thus reducing test length by 22:47 minutes for a negative MCT and by 14:34 minutes for a positive outcome. CONCLUSIONS: This abbreviated MCT protocol is safe for children and effectively shortens the duration of the MCT.
ABSTRACT
BACKGROUND AND OBJECTIVE: Down syndrome is associated with significant respiratory morbidity. The available pulmonary function testing data in school aged children and adults with Down show evidence of restrictive lung disease. We aimed to evaluated infant pulmonary function tests (iPFTs) in individuals with Down. METHODS: An observational case-control study evaluating iPFTs results from a registry of patients assessed at the Hadassah Hebrew University Medical Center between 2008 and 2018. iPFTs results in Infants with Down were compared to a spirometry control group of infants with normal expiratory airflows, using the Mann-Whitney U and Fisher's exact tests. RESULTS: iPFT data from 66 infants (20 Down and 46 control) were evaluated in the study. Most infants with Down showed abnormalities of an obstructive lung disease with mildly increased lung volumes and significantly decreased expiratory flows, mostly unresponsive to bronchodilators. Airflow limitations were most prominent at low lung volumes (median (IQR); maximal expiratory flow at functional residual capacity, VËmax FRC = 48 (26-78) %predicted in Down Vs. VËmax FRC = 100 (93-114) %predicted in controls, p < 0.001). We further observed an alteration in breathing mechanics with significantly decreased respiratory system compliance and increased airway resistance associated with decreased tidal volumes but similar minute ventilation. CONCLUSION: Our study shows that infants with have a fixed airflow obstruction phenotype. These results add comprehensive data to allow better understanding of the lung disease present early in life of infants with Down syndrome. Further studies are required to improve management of respiratory disease in individuals with Down.