Childhood asthma is often characterised by elevated exhaled nitric oxide (eNO), decreased lung function, increased airway reactivity and atopy; however, our understanding of when these phenotypic airway characteristics develop remains unclear. This study evaluated whether eNO, lung function, airway reactivity and immune characteristics during infancy are risk factors of asthma at age 5 years.
Infants with eczema, enrolled prior to wheezy illness (n=116), had eNO, spirometry, airway reactivity and allergen sensitisation assessed at entry to the study and repeated at age 5 years (n=90).
Increasing eNO at entry was associated with an increased risk of asthma (p=0.037) and increasing airway reactivity (p=0.015) at age 5 years. Children with asthma at 5 years of age had a greater increase in eNO between infancy and age 5 years compared with those without asthma (p=0.002). Egg sensitisation at entry was also associated with an increased risk of asthma (p=0.020), increasing eNO (p=0.002) and lower forced expiratory flows (p=0.029) as a 5 year-old.
Our findings suggest that, among infants at high risk for developing asthma, eNO early in life may provide important insights into the subsequent risk of asthma and its airway characteristics.
Angiogenesis is a critical determinant of alveolarisation, which increases alveolar surface area and pulmonary capillary blood volume in infants; however, our understanding of this process is very limited. The purpose of our study was to measure the pulmonary membrane diffusion capacity (DM) and pulmonary capillary blood volume (VC) components of the diffusing capacity of the lung for carbon monoxide (DLCO) in healthy infants and toddlers, and evaluate whether these components were associated with pro-angiogenic circulating haematopoietic stem/progenitor cells (pCHSPCs) early in life.21 healthy subjects (11 males), 3-25 months of age, were evaluated. DLCO was measured under normoxic and hyperoxic conditions, and DM and VC were calculated. From 1 mL venous blood, pCHSPCs were quantified by multiparametric flow cytometry.DM and VC increased with increasing body length; however, membrane resistance as a fraction of total resistance to pulmonary diffusion remained constant with somatic size. In addition, DLCO and VC, but not DM, increased with an increasing percentage of pCHSPCs.The parallel increase in the membrane and vascular components of pulmonary diffusion is consistent with alveolarisation during this period of rapid lung growth. In addition, the relationship between pCHSPCs and VC suggest that pro-angiogenic cells may contribute to this vascular process. @ERSpublications Vascular components of pulmonary diffusion are associated with circulating pro-angiogenic cells in infants and toddlers
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