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JOURNAL
OF
SPORTS SCIENCE &
MEDICINE
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Research
article
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SUITABILITY OF FIFA'S "THE 11" TRAINING PROGRAMME FOR YOUNG FOOTBALL PLAYERS - IMPACT ON PHYSICAL PERFORMANCE |
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Andrew E Kilding1  ,
Helen Tunstall2 and Dejan Kuzmic1 |
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1School of Sport and Recreation, AUT University, Auckland, NZ, 2New Zealand Football, Lion Foundation House, North Harbour Stadium, Albany, North Shore, Auckland, New Zealand |
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© Journal of Sports Science and Medicine (2008) 7, 320 - 326 Search Google Scholar for Citing Articles |
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| ABSTRACT | ||||||||||||
| There is a paucity of evidence regarding the use of injury prevention
programmes for preadolescents participating in sport. "The 11"
injury prevention programme was developed by FIFA's medical research centre
(F-MARC) to help reduce the risk of injury in football players aged 14 years
and over. The aim of this study was to determine the suitability and effectiveness
of "The 11" for younger football players. Twenty-four [12 experimental
(EXP), 12 control (CON)] young football players (age 10.4 ± 1.4 yr) participated.
The EXP group followed "The 11" training programme 5 days per
week, for 6 weeks, completing all but one of the 10 exercises. Prior to,
and after the intervention, both EXP and CON groups performed a battery
of football-specific physical tests. Changes in performance scores within
each group were compared using independent t-tests (p ? 0.05). Feedback
was also gathered on the young players' perceptions of "The 11".
No injuries occurred during the study in either group. Compliance to the
intervention was 72%. Measures of leg power (3 step jump and counter-movement
jump) increased significantly (3.4 and 6.0% respectively, p < 0.05).
Speed over 20 m improved by 2% (p < 0.05). Most players considered "The
11" beneficial but not enjoyable in the prescribed format. Given the
observed improvements in the physical abilities and the perceived benefits
of "The 11", it would appear that a modified version of the programme
is appropriate and should be included in the training of young football
players, for both physical development and potential injury prevention purposes,
as well as to promote fair play. To further engage young football players
in such a programme, some modification to "The 11" should be considered.
Key words: Injury, football, soccer, children, prevention, FIFA. |
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| INTRODUCTION | ||||||||||||
| Football is a high participation sport world-wide and like most
sports is associated with a certain risk of injury for players, both at
the competitive and recreational level (Junge and Dvorak, 2004).
Several studies have shown that the incidence of football injuries can be
reduced by adopting various injury prevention strategies including: warm-up,
with an emphasis on stretching; proper medical attention for injuries; appropriate
recovery methods and time; appropriate cool-down; use of protective equipment;
good playing field conditions and adherence to existing rules (Berbig, 1997;
Blaser and Aeschlimann, 1992;
Caraffa et al., 1996; Dvorak et al., 2000; Ekstrand
et al., 1983;
Hawkins and Fuller, 1999).
In adults, the significant benefit of physical conditioning interventions in the prevention of injuries has been reported in several studies (Caraffa et al., 1996), particularly with respect to the reduction of Anterior Cruciate Ligament (ACL) injuries. Similarly, in younger adolescent male (Junge et al., 2002) and female football players (Heidt et al., 2000; Mandelbaum et al., 2005), and in other team sports (Emery et al., 2005; Hewett et al., 1999; Myklebust et al., 2003; Olsen et al., 2005), the usefulness of exercise-based conditioning programmes for injury prevention has been shown. However, whilst it is clear that sport-specific strength training programmes that include a balance training component are effective in improving physical condition and reducing the risk of injury in mature athletes, little research has considered such strategies in relation to children (preadolescent) and youth (MacKay et al., 2004) Children are skeletally immature and when participating in sport, are susceptible to a range of hard- and soft-tissue injuries (Frank et al., 2007). Indeed, in a recent review (Spinks and McClure, 2007), the significant injury incidence in children participating in football (or soccer) was highlighted. In one study, the injury rate could be as high as 51.2 injuries per 100 player seasons for 11-14 year olds (Yde and Nielsen, 1990). To address this, Emery et al. (2005) recently highlighted the need to develop suitable injury prevention programmes for children and youths and to determine their effectiveness using a scientific approach. One such predominantly exercise-based, injury prevention programme that may be suitable for young children is "The 11", which was developed by F-MARC, the medical research centre of The Federation Internationale de Football Association (FIFA). "The 11" comprises ten physical exercises and also promotes Fair Play. The exercises focus on core stabilisation, eccentric training of thigh muscles, proprioceptive training, dynamic stabilisation and plyometrics with straight leg alignment. The programme requires no technical equipment other than a ball, and can be completed in 10-15 minutes (after a short period of familiarisation). In New Zealand, all football players and coaches receive, or have free access to, "The 11". However, a large proportion of players are juniors (under 14 years of age), for whom "The 11" was not originally intended to be used by. Thus, the primary aim of this initial study was to determine the suitability and effectiveness of "The 11" injury prevention programme in developing physical competencies in young football players. A secondary aim was to gain an insight into young players' perceptions of "The 11" programme. |
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| METHODS | ||||||||||||||
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Subjects Physical
tests Running
speed Vertical
jump
where g represents acceleration due to gravity (9.81 m·s-1); and t represents the flight time of the jump in seconds. Participants performed three jump trials in succession, with approximately 15 to 30 s recovery between jumps. Jumps were considered void if the participant 1) went into extreme (>45 degrees) hip flexion during the flight time of the jump; 2) flexed the knees to the extent that the heel nearly touched the gluteal muscles; and/or 3) did not land centrally on the contact mat. Horizontal
3-step jump Agility Prone
hold (core stability) Exercise
intervention - "The 11" Questionnaires Statistical
analysis |
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| RESULTS | ||||||||||||
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There
were no changes to body mass or stature during the study in either the
EXP or CON group (Table 2). Training
diaries revealed that participants completed the training, on average,
3.6 ± 0.4 times per week, resulting in an adherence rate of 72%. The pre-
and post-intervention results for both groups are presented in Table
2. Measures of leg power (3 step jump and CMJ) increased significantly
[3.4% (p < 0.05) and 6.0% (p < 0.01) respectively] in EXP, but not
CON. Similarly, speed over 20 m improved by 2% (p < 0.01). Whilst there
was a tendency for both
agility and core stability to improve in EXP (-2-2 ± 2.0% and 42.7 ± 18.8%
respectively, Table 2), this was not significant when compared
to changes in the CON group. |
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| DISCUSSION | ||||||||||||
| Performance
of "The 11" resulted in significant changes in several of the
physical performance abilities assessed. The largest improvement was observed
for counter-movement jump (CMJ) height (EXP = 6.0 ± 3.1%; CON = -0.1 ± 0.1%,
p < 0.05, Table 2). In football,
leg power (a product of force and velocity) would likely be associated with
improved jumping and sprinting ability on the pitch. However, it may also
serve to reduce the risk of ankle, knee and other lower limb injuries (Chandy
and Grana, 1985).
Chandy and Grana, 1985
showed that jump training programmes, incorporating plyometric exercises
and weight lifting, both increased performance and decreased injury risk
in competitive high school athletes (age: 15 ± 0.6 years). Also, positive
effects of a six week training programme incorporating strength, power and
agility training, alongside the development of correct and maximal jumping
technique, are apparent in volleyball (Hewett et al., 1996).
Hewett et al., 1996
found that such a programme improved technique and decreased peak impact
forces by 22% when landin and reduced medial and lateral directed forces
by 50%. The performance benefit was a 10% increase in vertical jump height,
which was greater than that observed in the present study (6%, Table 2). This could have been due to the greater
volume (3 x 2 hour sessions/week) of the intervention used by Hewett et
al., 1996
and a much greater emphasis on explosive exercises. Subsequently, in a later
study, Hewett et al., 1999
reported prospectively that a similar conditioning programme prior to sports
participation resulted in reduced injury risk in young female football players.
The single-leg bounding and jumping exercises of "The 11" are
likely contributors to the observed improvement in leg power in this study
since it is has been shown that such exercises improve the strength and
neuromuscular recruitment and co-ordination of muscle (Chimera et al., 2004).
Such adaptations could help reduce lower limb (ankle and knee) injuries
in this population, though the latter was not measured in the present study.
In the present study, 'The 11' resulted in improved speed (EXP = 2.2 ± 2.0%; CON = 0.1 ± 0.1%, p < 0.05, Table 2) and horizontal jump leg power (EXP = 3.4 ± 2.3%; CON = 0.2 ± 1.0%, p < 0.05, Table 2) which are both desirable changes regardless of a players age or playing level. The ability to jump higher to head the ball in attacking or defensive situations, as well as running with or to meet the ball in attacking play or to close down a player during defensive play are critical to the prevention and scoring of goals respectively. Physical training interventions that can improve these measures are likely to result in enhancement of player performance. Whilst no changes in body mass or height were observed over the duration of the present study, the general increase in body size during maturation should be considered when designing physical training programmes for children (e.g. Dollard et al., 2006) and, as in the present study, interpreting changes in physical performance after a training intervention. It is possible that over a given time period any training benefits may be superseded by changes caused by growth and maturity. However, given the relatively short duration of the current intervention (6 weeks) we ascribe the improvements in performance primarily to physical development as a result of the programme, especially since percent change scores were compared to a non-training control group. It is unfortunate that arguably one of the most effective own body weight exercises for football players (Arnason et al., 2008) had to be excluded from the training programme based on a-priori medical advice. Physiotherapists and sports physicians considered the recommended 5 repetitions inappropriate and potentially unsafe for this age group, with gradual progression to this point required. Given the effectiveness of the Nordic hamstring exercise to improve hamstring strength and reduce hamstring injuries in adult players (Arnason et al., 2008), future programmes should consider the appropriateness and integration of this and/or similar exercises for younger players. Studies have shown that the incidence of injuries in youth football increases with year/grade at school (Malina et al., 2006) and age (Schmidt-Olsen et al., 1991) and that a previous injury is a major risk factor for future injury (Hagglund et al., 2006). Therefore, it is important that steps are taken early to prevent a young player's first injury, as this could potentially lead to long-term functional disability and deformity (Frank et al., 2007). If performance benefits can also be obtained, using the same intervention, and at the same time, then this is a desirable outcome. The specificity of "The 11" appears to offer these performance benefits to young football players. To our knowledge, the effectiveness of FIFA's "The 11" to actually reduce injury incidence and physical performance in football has yet to be determined, for any age group or level of player. The impact of "The 11" programme on actual injury risk is not possible to determine from the data collected in the present study. However, the observed improvements in physical attributes and findings of previous longitudinal studies (Hart, 2001; Heidt et al., 2000; Mandelbaum et al., 2005) would suggest that ''The 11'' has the potential to reduce injury risk across the age range. Whilst no data currently exists showing the efficacy of exercise-based injury prevention programmes for young players, data from slightly older players is considered. However, we acknowledge the limitations in speculating on injury prevention using different populations drawn from other studies. In a study involving 42 female high school football players aged 14-18 years, Heidt et al., 2000 demonstrated that a 7-week individualised, football-specific, pre-season training programme (focusing on cardiovascular conditioning, plyometrics, strength training and flexibility) was successful in significantly (p <0.01) decreasing the frequency and severity of all injuries. Likewise, Hart et al., 2001 observed a significant reduction of ACL injuries, in adolescent women playing competitive football, following a preseason conditioning programme involving proprioceptive and plyometric exercises, similar in nature to those included in "The 11". More recently, Mandelbaum et al., 2005 investigated the effectiveness of a neuromuscular and proprioceptive training programme in adolescent football players over a 2 year period and reported a reduction in ACL injury of 88% (Year 1) and 74% (Year 2) compared to a control group. Collectively, these studies clearly show the effectiveness and usefulness of such programmes for injury prevention purposes in adolescent sport participants. Whilst speculation can only be made until further studies are conducted, it is possible that the "The 11" would offer similar benefits to previous conditioning interventions, specifically to young players, and importantly, across the age/experience continuum. The suitability of the "The 11" programme for children was assessed a-priori via discussions with medical professionals, and post-hoc using responses from the player questionnaires. Such a training programme could be considered suitable for junior players if it is safe, enjoyable and/or engaging, easy to perform and easy to administer. The adherence rate for completion of all exercises of 72% indicates that players were relatively committed to "The 11" programme, although comments from some participants suggest that players did not particularly enjoy it. For example, feedback highlighted that whilst participants initially found the exercises challenging, and in general beneficial, the repetitiveness of the programme resulted in a degree of boredom. This highlights the need to investigate improvements to the structure (e.g progression and variation of exercises, and individual target setting) and presentation of "The 11", which could further improve adherence and enjoyment for young players. The importance of variety and stimulation in any conditioning programme aimed at improving performance and/or preventing injuries in children should be acknowledged, to maximise adherence and enjoyment. With such modification, it is possible that young players will be more motivated to complete such exercises on a regular basis, with and without (where appropriate) supervision, as part of their own and team training sessions. This may result in greater physical gains that are transferrable to actual competition play. Though not assessed in this study, further gains could, based on findings from previous work (Schmidt-Olsen et al., 1991; Hagglund et al., 2006; Malina et al., 2006), help reduce injury risk. |
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| AUTHORS BIOGRAPHY | |
Andrew KILDING Employment: Senior Research lecturer in Sport and Exercise Science at AUT University. Degree: PhD. Research interests: Optimising athlete conditioning and assessment to investigating metabolic responses and adaptations to training in asymptomatic and symptomatic populations. E-mail: andrew.kilding@aut.ac.nz |
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Helen TUNSTALL Employment: Peak Performance Manager at New Zealand Football. Degree: MSc. Research interests: Optimising player conditioning and investigating physical conditioning interventions that enhance performance and reduce injury risk. |
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Dejan KUZMIC Employment: Physical conditioner and personal trainer. Research interests: Football science. |