The training of the respiratory muscles seems to be fundamental in people who require a high physical demand. There is abundant scientific evidence that relates the respiratory variables and the limitation to exercise. The published studies are athletics and cycling, however it is scarce in football. Objective. To assess the effects of inspiratory muscle training on lung function and sports performance in soccer players.
Objective. To assess the effects of inspiratory muscle training (IMT) on lung function, inspiratory muscle strength and athletic performance in soccer players. Method. Participants will be randomized into two groups: experimental and sham . The two groups will perform a protocol of 8 weeks of training (6 days / week) with the PowerBreathe device. The EG will use progressive resistance loads up to 80% of the MIP, while the SG will use the device with a minimum load (20% PImax) during the 8 weeks. All participants will have the following tests before and after the intervention and 3 months after the end of the program: spirometry (FVC, FEV1), PImax, biophotogrammetry, and fit 30/15 test. For the statistical analysis, a 2-factor variance analysis will be performed for repeated measures and Pearson's correlations. The statistical significance will be set with a value of p \<0.05. The effect size will be calculated using the partial eta-square.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
22
The inspiratory muscle training program will be of the "strength and endurance" type, using the POWERbreathe® device and composed of: daily sessions (3 sets of 15 repetitions -inspiration), 6 days a week for 8 weeks. Participants will begin training breathing with a resistance of 20% of their PImax during the first week. After the first week, the resistance will increase between 5% and 10% in each session until reaching 80% of the PImax, which will be maintained during the first month. Upon completion, the PImax value will be re-evaluated and the player will train 80% of this new value during the second month. At the end of the second month, the PImax is evaluated and the player will train the third month with a resistance of 80% of this new value.
Catholic University San Antonio of Murcia
Murcia, Spain
Mayayo Sports Center
Murcia, Spain
RESPIRATORY CAPACITY
The variable PImax. will be measured through spirometry whose value will be expressed in cm / H2O
Time frame: 1 week
Biofotogrametry
Biofotogrametry is a tool used to measure the thoracic expansion, the respiratory pattern and its cadence; by recording a video of the breathing pattern that observes the pre- and post-breathing of the subjects. The unit of measurement in which the results are expressed for the variable thoracic extension will be in cm, and for the respiratory pattern and its percentage cadence (%).
Time frame: 1 week
Sports performance
The performance variable will be evaluated using the "fit" 30/15 test, a tool used in athletes to determine the maximum intermittent aerobic speed (VO2max); the results of this test allow later to plan the specific training protocol of the sports team.
Time frame: 1 week
Lactate in blood
The amount of blood lactate will be measured after inspiratory muscle training with a lactate meter, its results will be expressed in the unit of measure mg / dL.
Time frame: 1 week
Static equilibrium
Static equilibrium was obtained through an analysis of stabilometric variables on an equilibrium platform. The players had to stand on the platform with bipodal support (45º) for 90 seconds with eyes open and 90 seconds with eyes closed. During the measurement with their eyes open, the players had to keep their gaze on a fixed point that coincided with the height of their eyes and was about 2.5 meters from the platform. A FreeStep platform (Rome, Italy) was used
Time frame: 1 week
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