Due to a large disease heterogeneity, the proper management of childhood asthma may be a challenging task. Despite the screening of lung function is a fundamental tool, spirometry alone may not allow a reliable prediction of the disease prognosis, such as treatment response and asthma exacerbations. Recently, it has been shown that the detection of volatile organic compounds (VOCs) in exhaled breath (Breathomics) is able to predict asthma exacerbations and to discriminate children with persistently controlled asthma from those with uncontrolled asthma. These studies have been realized through gas chromatography / mass spectroscopy techniques, which also provide information on specific compounds useful for pathophysiologic research; however, they are expensive and time consuming. An alternative approach, scarcely adopted so far, is based on cross-reactive nonspecific sensor arrays (e-noses), which may provide valuable information on disease status through pattern recognition algorithms or discriminant analyses of the global sensor response pattern (breath-fingerprint). In particular, the Pneumopipe® (European patent 12425057.2, Rome, Italy) is a recent and innovative device allowing direct absorption of VOCs on a cartridge after an individual has normally breathed in it for 3 min. It is a very simple and cheap procedure, suitable for non-collaborative populations. Moreover, cartridges may be preferable over sampling bags in terms of preservation and transportability. This modern breath sampling system provides repeatable measurements, and negligible overlap has been observed with information provided by spirometry. The main objective of the present study is to assess whether baseline (pre-treatment) spirometry and e-nose measurements may predict asthma prognosis in persistent asthmatic children, in terms of response to the prescribed treatment with inhaled steroid (ICS), and to provide simple rules for discriminating treatment responders and non-responders. The secondary aim is to assess e-nose ability to predict asthma exacerbations, disease control and adherence.
Study Type
OBSERVATIONAL
Enrollment
150
Collection of VOCs on a cartridge after that the child has normally breathed in it for 3 min, both at the baseline and at the last visit.
* Spirometry, both at the baseline and at the last visit. * 24-hour urine collection, both at the baseline and at the last visit.
Treatment decision at the last visit
ICS dose step-down (type-1 mismatching, i.e. unexpectedly good prognosis), same ICS dose (perfect matching, i.e. expected prognosis) or ICS dose step-up (type-2 mismatching, i.e. unexpectedly bad prognosis).
Time frame: 90 days
Asthma exacerbations
Occurrence of asthma exacerbations in the time interval between the baseline and the last visit.
Time frame: 90 days
CACT-ACT
Childhood Asthma Control Test (C-ACT, for children aged 6-11) or Asthma Control Test (ACT, for children aged 12-16). The total score ranges from 0 (poor asthma control) to 27 (optimal asthma control).
Time frame: 90 days
Treatment adherence
Change in urinary cortisol levels (last vs baseline visit);
Time frame: Day 0; 90 days
Treatment adherence
9-item Medication Adherence Rating Scale (MARS-9). The total score ranges from 5 to 45. Higher scores indicate higher self-reported adherence.
Time frame: 90 days
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