The purpose of this study is to assess the effects of a physical training program with active video game in inflammatory markers, quality of life variables , clinical control and physical and functional respiratory assessment of asthmatic children from 5 to 11 years.
The aim of the present study will be to determine whether an aerobic exercise using an active video game system improves asthma control, lung inflammation and functional capacity in children with moderate or severe asthma.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
SINGLE
Enrollment
36
The training with video game will be done with heart rate monitors with intensity required to achieve 70% of maximum heart rate reached the maximum test for thirty minutes.Will be used Kinect games ( adventure- reflex ridge).
A 10 minutes warm up period was performed on a treadmill at 2 km/h prior to each session. After that, exercise training was performed during 30 minutes beginning at 70% of the maximum effort determined in the maximal exercise testing. Before and after each session, 3 measures of the peak flow were performed in the standing position (AssessTM, USA). There was progression in the training intensity throughout the study: if the patient maintained 2 consecutive exercise sessions without symptoms, exercise intensity was increased by 5% of cardiac frequency by using either treadmill speed or grade as previously described (Mendes et al.2011).
University Nove de Julho
São Paulo, São Paulo, Brazil
Exhaled Nitric Oxide (FeNO) Level
The measurement of exhaled FeNO level is performed by several commercially available devices, however the equipment NIOX ® (Aerocrine, Sweden) analyzer is the only FDA-approved and Anvisa (Food and Drug Administration) for clinical monitoring of asthma. The measure will be performed before and after the training program of exercise, or pulmonary rehabilitation, by means of portable equipment NIOX MINO ®.
Time frame: The FeNO level was performed in week 8
Treadmil Test (Bruce Protocol)
A maximal exercise testing was performed in a treadmill using Bruce protocol that has been used to provide information on exercise capacity, physiopathological characteristics during effort, the efficacy of medications and the potential risk for diseases ( Zijp et al. 2010). The test was interrupted when the child reported maximal fatigue or reached the maximum heart rate around 200bpm (Peyer et al. 2011). During the test, blood pressure and peripheral oxygen saturation were quantified and an electrocardiogram was performed. The Borg scale was used to quantify for the sensation of shortness of breath during effort and at rest (Lamb 1995). Change from baseline in the distance walked on treadmill test will be consider as outcome measure.
Time frame: 8 week distance walked on treadmill test
Body Composition
All participants were evaluated individually, always during the afternoon to avoid circadian changes. Height, weight and abdominal circumference were determined. Tetrapolar bioimpedance was measured using the Biodynamics™ model 310 (Biodynamics Corporation Seattle WA, USA) by positioning the child in the supine position and electrodes in the extremity of the right upper and lower limbs (Goran et al.1993).
Time frame: baseline and after 8 weeks
Pulmonary Function
was performed before and after the inhalation of 400μg of salbutamol (Easy One™, USA), and technical procedures were performed as recommended by ATS/ERS. Predicted normal values were those proposed by Polgar and Promadhat 1971 and a 12% and 200 mL increase in FEV1 from baseline were characterized as a positive response to the bronchodilator) in a climate-controlled room.
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Time frame: baseline and after 8 weeks