Only Healthy Participants Are Included in the Study Clinical Trial
Official title:
Acute Effects of Static Stretching in Warm-up on Muscular Performance of Football Players
In this study the investigators want to address acute effects of warm-up and static
stretching on short-term muscular performance of football players. Static stretching
exercises are often used in the first part of a training session or before a football match
in order to increase sports performance and to decrease risk of injuries. Since there is a
lot of scientific evidence that demonstrates static stretching can improve short-term muscle
performance, the aim of researchers is to discover the size and the duration of negative
effects and, additionally, whether these effects can be eliminated with activation exercises.
Nineteen 14 years old football players will be included in a cross-over study design.
In the control condition the participants will perform 5 minutes of aerobic warm-up (stepping
on the stair) and then 7 series of 20-seconds static stretching of quadriceps femoris,
hamstrings, hip adductors and triceps surae.
Maximal power and jump height of the countermovement jump will be tested in between every
series. Thus, parameters of countermovement jump will be monitored at the beginning, after
warm-up, after each series of static stretching, 7.5 minutes after 7th static stretching
series and 15 minutes after 7th static stretching series.
Parameters of dynamometry (relative maximal torque [Nm/kgBM] and rate of torque developement
[Nm/s/kgBM] will be monitored at the beginning, after warm up, 7.5 minutes after last series
of static stretching and 15 minutes after last series of static stretching.
Maximal range of motion will be monitored at the beginning, after warm up, during every
series of static stretching, after last series of static stretching, 7.5 minutes after last
series of static stretching and 15 minutes after last series of static stretching.
In the second condition (experimental) all the tasks are the same, the only difference is
that the subjects must perform post-activation potentiation exercises after last series of
static stretching.
We hypothesize that muscular performance will be impaired to a statistically significant
level after 7th series of static stretching. Second hypothesis is that negative effects will
not last longer than 15 minutes and the last hypothesis is that static stretching induced
negative effects can be nullified with activation exercises.
Stretching exercises are often used in warm-up to increase footballer's performance and to
decrease risk of injury. The main aim of these exercises is to increase maximal active range
of motion. Different types of stretching exercises are being used: ballistic, dynamic,
static, eccentric flexibility training and proprioceptive neuromuscular facilitation. All of
them are usually used in football training sessions in order to increase short-term range of
motion and to decrease associated risk of injuries. Simic, Sarabon and Markovic (2013) in
their meta-analysis reported that static stretching can have negative acute effects, which is
not in line with general thinking, that static stretching in warm-up can have positive
effects on sports performance.
Post-activation potentiation is a phenomenon, which is induced by loading the muscle to
increase the recruitment of motor units. Since static stretching can have negative effects on
muscle performance (maximal strength, power) the researchers hypothesize, that the effects
can be eliminated with this type of activation exercises.
In this study the researchers want to measure acute effects of warm-up and static stretching
on maximal range of motion, maximal torque and maximal rate of torque of adductors
(dynamometer) and maximal power and height of countermovement jump (force plate) of football
players. Since there is many scientific evidence that shows that static stretching can
improve short-term muscle performance, our aim is to discover the size and the duration of
negative effects and if they can be eliminated with post-activation potentiation exercises.
In the cross-over study design 19 football players of age 14 will be included.
In the first condition (control) the participants will perform 5 minutes of aerobic warm-up
(stepping on the stair) and then 7 series of 20-seconds bilateral static stretching of
hamstrings, adductors and triceps surae (with knee extended). Quadriceps femoris will be
stretched unilaterally, each muscle 20 seconds. Summary of all stretches in one series is 80
seconds. Maximal range of motion of hip abduction and hip flexion (seat and reach test) and
dorsal flexion will be measured at the beginning, after warm up, during each series of static
stretching, after last series of static stretching, 7.5 minutes after last series of static
stretching and 15 minutes after last series of static stretching.
Maximal power [W/kg] and height [m] of the countermovement jump will be monitored with force
plate at the beginning, after warm up, after each series of static stretching, 7.5 minutes
after last series of static stretching and 15 minutes after last series of static stretching.
On dynamometer will be conducted 2 maximal explosive voluntary contractions of adductors
muscles. Relative maximal torque [Nm/kgBM] and rate of torque developement [Nm/s/kgBM] will
be measured at the beginning, after warm up, after last series of static stretching, 7.5
minutes after last series of static stretching and 15 minutes after last series of static
stretching.
In the second condition (experimental) all the tasks are the same, the only difference is
that the subjects must conduct activation exercises after last series of static stretching.
Activation exercises are consisted of 2 series of 4 exercises. The first series (slow series)
starts with 8 lifts onto toes (dorsal flexion) with knees extended, than continues with 8
deep squats and 8 hip thrust and then terminates with four 4-seconds lasting maximal
voluntary contraction of adductors with knees extended and with soft ball between the ankles.
The second series (explosive) commences with 8 maximal vertical jumps conducted just with
ankles, and then continues with 8 maximal countermovement jumps and 8 explosive hip thrusts.
It finishes with 8 maximal explosive and 2 seconds lasting voluntary contractions of hip
adductors with knees extended and with soft ball between the ankles.
The researchers hypothesize that muscular performance (maximal power and height of the
countermovement jump, maximal torque and rate of torque developement of adductors muscles)
will be impaired after 7 series of static stretching. Second hypothesis is that negative
effects will not last longer than 15 minutes and the last hypothesis is that static
stretching induced negative effects can be eliminated with sets of activation exercises.
Statistical analysis will be performed in SPSS (SPSS Statistics 22, IBM, New York). T-test,
1-way and 2-way repeated measures ANOVA will be used to confirm the differences between
average values.
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