Isokinetic Knee Muscle Strength Profile in Brazilian Male Soccer,
Futsal and Beach Soccer Players
Claudio de Lira
1
, Naryana Mascarin
2
, Valentine Vargas
2
, Rodrigo Vancini
3
and Marília Andrade
3
1
Faculty of Physical Education and Dance, Federal University of Goiás, Goiânia, Brazil
2
Department of Physiology, Federal University of São Paulo, São Paulo, Brazil
3
Center of Physical Education and Sports, Federal University of Espírito Santo, Vitória, Brazil
Keywords: Isokinetic, Performance, Muscle Strength, Soccer, Injury.
Abstract: The main objective of this study was to investigate isokinetic knee muscle strength, hamstring to quadriceps
strength ratio, and bilateral strength deficit in professional futsal, soccer and beach soccer players. We
hypothesized that athletes of different soccer modalities have a specific isokinetic profile due to
physiological, playing surface and biomechanical demands and specificities.
1 INTRODUCTION
Soccer is the most popular sport in the world, with
an estimated 265 million active players (Fifa, 2007).
Performance depends upon a myriad of factors such
as technical, biomechanical, tactical, physiological
and musculoskeletal health condition. Considering
soccer, beach soccer and futsal, the technical and
skills principles behind the games remain the same,
however there are some differences between them,
such as in number of players, number of
substitutions, size of the court and duration of the
match. Thus, athletes of different soccer modalities
can present specific muscle adaptations.
To assess muscular strength profile, isokinetic
testing has been used by clinicians and physical
therapist (Aagaard et al., 1995). Several studies have
been carried out to establish strength profiles in
soccer players (Fousekis et al., 2010). However,
only one study has investigated this situation in
futsal (Reis et al, 2013) while none have been
conducted in beach soccer.
The main objective of this study was to
investigate isokinetic knee muscle strength,
hamstring to quadriceps (H/Q) strength ratio, and
bilateral strength deficit in professional futsal, soccer
and beach soccer players. We hypothesized that
athletes of different soccer modalities have a specific
isokinetic profile due to physiological, playing
surface and biomechanical demands and
specificities.
2 METHODS
This study included 112 professional athletes who
had been playing for at least five years, training
regularly for five sessions per week and had no
history of major lower limb injury or chronic
disease. The sample of volunteers comprised soccer
(n=70) players (19.3±4.8 years, 177.8±7.3 cm and
73.9±8.2 kg), futsal (n=30) (21.3±6.1 years,
175.8±5.3 cm and 72.3±8.8 kg) and beach soccer
(n=12) (29.7±4.4 years, 177.1±6.1 cm and 74.7±6.5
kg). All experimental procedures were approved by
the University Human Research Ethics Committee
(Federal University of São Paulo) and conformed to
the principles outlined in the Declaration of
Helsinki.
To isokinetic assessment, the participants
assumed a seated position on the isokinetic
dynamometer (Biodex Medical Systems Inc.,
Shirley, NY, USA) with their hips flexed at
approximately 85 degrees, and standard stabilization
strapping was placed around the trunk, waist and the
distal femur of the limb being tested in order to
minimize additional movement and ensure the same
conditions for all participants. The parameters
evaluated (for concentric contractions at an angular
speed of 60 degrees/second in dominant and non
dominant limb) were isokinetic absolute hamstring
and quadriceps muscles peak torque (in Nm), H/Q
concentric peak torque ratio in %, and bilateral
strength deficit in %. Peak torque values were
16
Lira, C., Mascarin, N., Vargas, V., Vancini, R. and Andrade, M.
Isokinetic Knee Muscle Strength Profile in Brazilian Male Soccer, Futsal and Beach Soccer Players.
In Extended Abstracts (icSPORTS 2016), pages 16-18
Copyright
c
2016 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
normalized by body mass (Nm/kg) to enable
comparison with values of other studies, eliminating
the effects of subject heterogeneity as was named in
current study of relative peak torque. The H/Q
strength ratio was calculated by dividing the
maximum torque values of the hamstring by the
maximum torque values of the quadriceps at the
same angular speed and multiplying by 100
(Aagaard et al., 1995). Those athletes that presented
H/Q peak torque ratio below than 60% were
classified with knee imbalance. Bilateral lower limb
muscular strength deficit was calculated by:
[(dominant limb peak torque – non dominant limb
peak torque) / dominant limb peak torque]*100.
Those athletes that presented bilateral strength
deficit higher than 15% were classified as
asymmetric.
All variables presented normal distributions
according to the Kolmogorov-Smirnov test. Data
were expressed as mean and standard deviation. To
evaluate the anthropometric differences among the
three groups, one-way analysis of variance
(ANOVA) was used. To evaluate the influence of
soccer modality and side on isokinetic variables, a
2x3 design side (D versus ND) and sport (soccer
versus futsal versus beach soccer) ANOVA was
used. Newman-Keuls post-hoc procedures were used
to identify specific differences when significant
interactions were present on the ANOVA test. In the
absence of interactions, only main effects were
analyzed. Statistical significance was set at an alpha
of 0.05. All statistical analyses were performed
using the Statistica (version 7.0, Statsoft Inc., Tulsa,
OK, USA) software package.
3 RESULTS
Regarding to the dominant limb, absolute quadriceps
concentric muscle peak torque values of futsal
players (223.9±33.4 Nm) were lower than those of
soccer (250.9±43.0 Nm, p=0.02) and beach soccer
(253.1±32.4 Nm, p=0.03) players, while there were
no significant group differences in flexor muscle
performance (128.6±27.6 Nm vs. 133.1±25.7 Nm
vs. 140.5±11.2 Nm for futsal, soccer and beach
soccer, respectively). Considering the peak torque
values relative to body mass, the same differences
can be seen. Futsal players quadriceps values
(3.1±0.3 Nm/kg) were lower than those of soccer
(3.4±0.4 Nm/kg, p=0.01) and beach soccer (3.4±0.4
Nm/kg, p=0.04) players, while there were no
significant group differences in hamstring muscle
strength (1.8±0.3 Nm/kg vs. 1.8±0.3 Nm/kg vs.
1.9±0.2 Nm/kg for futsal, soccer and beach soccer,
respectively).
Regarding non dominant limbs, absolute and
relative quadriceps concentric peak torque values
were significantly lower in futsal (224.0±35.8 Nm
and 3.1±0.3 Nm/kg, respectively) than in beach
soccer players (256.8±39.8 Nm [p=0.03] and
3.4±0.4 Nm/kg [p=0.04], respectively). There were
also no significant intergroup differences in
hamstring muscle performance for absolute
(124.1±20.1 Nm vs. 127.6±25.0 Nm vs. 136.2±11.4
Nm for futsal, soccer and beach soccer, respectively)
and relative peak torque values (1.7±0.2 Nm/kg vs.
1.7±0.3 Nm/kg vs. 1.8±0.1 Nm/kg for futsal, soccer
and beach soccer, respectively).
Regarding H/Q strength ratios for dominant
(57.6±10.1 % vs. 53.5±8.8 % vs. 56.3±8.4 % for
futsal, soccer and beach soccer, respectively) and
non dominant limbs (55.7±6.8 % vs. 53.2±7.2 % vs.
53.9±7.1 % for futsal, soccer and beach soccer,
respectively), there were no significant differences
between groups for this measure.
Finally, regarding bilateral strength deficit, no
group presented significant difference, neither for
quadriceps nor for hamstring muscles. Futsal players
had deficits of -0.32±9.6% and 1.7±14.5% for
extensors and flexors muscles, respectively. Soccer
players had bilateral deficits of 3.3±11.2% and
4.2±11.5% for extensor and flexor muscles,
respectively. Beach soccer players had bilateral
deficits of -1.7±12.3% and 2.4±11.4% for extensor
and flexor muscles, respectively. Despite means
values were always lower than 15%, some athletes
presented higher bilateral strength deficit.
4 DISCUSSION
Lower strength values for quadriceps muscles in
futsal players could be expected because the match
is played in a restricted space in which the kicks and
passes are performed over shorter distances than in
soccer. Cheung et al. (2012) compared the isokinetic
strength of field (soccer) and court sports players
(basketball and volleyball) and found higher strength
values for soccer players. Comparing the current
results with those of Cheung et al. (2012), we found
higher peak torque relative to body mass values for
the extensor muscles in soccer [present study:
3.4±0.4 Nm/kg versus Cheung et al. (2012):
1.89±0.25 Nm/kg] and court soccer players [present
study: 3.1±0.3 Nm/kg versus Cheung et al. (2012):
1.68±0.24 Nm/kg]. These results are expected since
the soccer volunteers in the present study were
Isokinetic Knee Muscle Strength Profile in Brazilian Male Soccer, Futsal and Beach Soccer Players
17
professionals while those studied by Cheung et al.
(2012) were drawn from College teams. On the other
hand, our results were similar to those reported in
the study by Ardern et al. (2015) and Ruas et al.
(2015) comparing the peak torque of extensors and
flexors muscles of soccer players.
There were no significant differences in H/Q
ratio among the three groups studied. However, the
three groups presented lower mean values lower
than 60%, which has been traditionally associated
with a higher incidence of knee injuries (Ruas et al.,
2015). An individual data analysis revealed lower
values (≤60%) for dominant limbs in 80% of soccer,
67% of futsal, and 67% of beach soccer players,
which indicate muscle strength imbalance and a
predisposing factor for injury (Ruas et al., 2015).
Therefore, the results highlight the need for
hamstrings strength training program.
In addition to H/Q ratio, muscular bilateral
asymmetry also has been considered a risk factors
for lower limb injuries (Ruas et al., 2015), and it also
may affect sport performance (Young et al., 2002).
In the present study, athletes had low mean values
(<10%) for bilateral deficit. Menzel et al. (2013)
also found low mean values for bilateral peak torque
deficit (9.14±8.65%). Despite the low mean values
of bilateral deficit found in volunteers of the present
study (<10%), individual values ranged from -37%
to 34%. Therefore, the fact that elite soccer, futsal,
and beach soccer players presented symmetrical
strength for the lower limbs does not preclude the
need to conduct individual evaluations for injury
control and prevention.
In sum, H/Q ratio did not differ significantly
among soccer, futsal and beach soccer players, while
extensors muscles were stronger in soccer and beach
soccer players. In the three soccer modalities, mean
values for H/Q ratio were lower than the
recommended literature values. Thus, strength
prevention programs for hamstring muscles can be
useful to improve H/Q ratio. In addition, beach
soccer is a relatively new sport for which no national
professional leagues exist in many countries. Thus,
future studies investigating other characteristics of
beach soccer players, such as physiological response
to exercise, are warranted.
ACKNOWLEDGEMENTS
We would like to thank all the athletes who
volunteered their time to participate in this study and
the Olympic Center of Training and Research, São
Paulo, Brazil. This work was supported by the
Financiadora de Estudos e Projetos/Brazilian
Science and Technology Ministry (FINEP-MCT-
Brazil), the Brazilian Sports Ministry and Fundação
de Amparo à Pesquisa do Estado de Goiás (FAPEG,
Brazil).
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