Authored by Robert Gringmuth*
Abstract
Introduction: With over 200 million amateur athletes worldwide, with soccer as one of the most popular and internationally recognized sports today. By understanding how and why soccer injuries occur, we hope to reduce prevalent injuries amongst soccer athletes.
Methods: Via a prospective cohort, we tracked male and female soccer players between the ages of 13 to 17 eligible to train with the Ontario Soccer Association provincial program during the period of January 1st, 2013 and December 31st, 2016. Data collection occurred during all player exposures to potential injury. Exposures occurred at the Ontario Soccer Centre training grounds and various other venues on multiple playing surfaces throughout Ontario.
Results: 473 injuries were recorded. Muscle strain, pull or tightness was responsible for 35.7% of all injuries and ranked as the most prevalent injury.
Discussion: As anticipated, the most common injury reported in a four-year prospective study of injuries in elite Ontario youth provincial and national soccer players during training and match play was muscular strain, which warrants more suitable preventive programs aimed at strengthening and properly warming up the players’ muscles.
Keywords: Soccer; Injury; Athlete; Youth; Muscle strain; Epidemiology; Prevalence; Incidence
Introductio
It is estimated that there are some 200 million amateur soccer players and approximately 200,000 professional athletes worldwide, soccer is one of the most popular and internationally recognized sports played today. The 2014 Fédération Internationale de Football Association (FIFA) World Cup in Brazil was one of the most watched television events in history [1]. A total of 3.43 million people watched 64 games, meaning the average attendance per game was 53,592. This was the highest average since the 1994 World Cup in the United States. As of 2014 [2], there were approximately 270 million active player memberships to FIFA.
In considering the various aspects of the game, player safety is first and foremost considered the responsibility of the participants and organizers. With many sports being played, injuries are inevitable as the potential for injuries increases with intensity, frequency, and vigor of the training sessions. As reported by Schmikli SL, et al. [3] the incidence rate of outdoor soccer injuries, particularly for adult male soccer players, is among the highest of all sports including rugby, boxing, fencing, and cricket. Although there is some discrepancy in reports of the number of injuries per 1,000 playing hours, according to Goncalves CA, et al. [1] the incidence of soccer related injuries is estimated to be 10 to 15 injuries per 1,000 hours of practice. Dvorak J, et al. [4] found similar statistics, reporting 12 to 35 injuries per 1000 match hours, and 1.5 to 7.6 injuries per 1000 training hours. Injury avoidance is a crucial element for the youth soccer athlete at all competitive levels. This allows athletes to train and develop their skill sets at their maximal effort without avoidable layoffs. Time loss due to injury is critical for both a promising soccer athlete and their team due to injury limiting the possibility of the team reaching its highest performance potential. There is an estimated time loss due to injury of two weeks for a team made up of 25 players.
Injury has a negative economic impact on both the athlete and the team. There are long-term consequences associated with being injured as an athlete. FIFA estimates that the average treatment cost is $150-U.S. per injury, which leads to an estimated $30 billion U.S. a year for treatment of injuries in soccer around the world [2]. In addition, English Premier League clubs were estimated to be $19 to 26 million-U.S. out-of-pocket in lost wages due to injuries suffered by their players in the 2010/11 season after taking part in the World Cup [5].
It is evident that injury prevention plays a necessary role in reducing the costs incurred from soccer-related injuries along with minimizing a player’s time loss due to injury. Prevention is usually seen as the first step in maintaining optimal health. With injury prevention we must understand the types of injuries and their mechanisms that are common amongst soccer athletes. The consensus is that the majority of soccer injuries are related to the lower extremities, which is not surprising since soccer is a highintensity sport characterized by continuous changes of direction and high-load actions [6]. Nonetheless, in various soccer nations, such as the United Kingdom, the United States and Brazil, the epidemiology of injuries within the sport has shown a variation in injury patterns. For instance, the Carling et al. study suggested strains to the hamstring region are the most common type of injury at the professional levels in soccer [7]. Research studies suggest eccentric strength training can reduce the risk of hamstring injury in heterogeneous populations of soccer players [8]. In addition, plyometric training and agility drills, the main components of a preventive program developed by Heidt RS Jr, et al. [9] were effective in lowering the incidence of injuries in soccer. The Dick R, et al. [10] study concluded ankle ligament sprains, knee internal derangements and concussions are common injuries in women’s soccer. Ekstrand J, et al. [11] determined that almost one-third of all injuries in professional soccer are muscle injuries with the vast majority affecting the hamstring, adductors, quadriceps and calf muscles [11]. Therefore, it will be difficult to correlate the reported injury incidence, and thus formulate effective injury prevention strategies, for elite soccer athletes outside the geographic domain in which the study was conducted. To date, an epidemiological study has not been conducted regarding elite youth soccer athletes in Canada aside from our previous study.
According to Aaltonen S, et al. [12] decreased risk of sports injuries was associated with the use of insoles, external joint supports, and multi-intervention training programs. A paper by Emery CA & Meeuwisse WH [13] found that an implemented training program was effective in reducing the risk of all injuries as well as preventing injuries. The protective effect of the neuromuscular training program in reducing lower extremity injury is clinically relevant. Finally, Dvorak J & Junge A [4] showed that there is some evidence that multi-modal intervention programs result in a general reduction in injuries. They found that external ankle supports and proprioceptive/coordination training, especially in athletes with previous ankle sprains, could prevent ankle sprains. In addition, training of neuromuscular and proprioceptive performance as well as improvement of jumping and landing technique seems to decrease the incidence of anterior cruciate ligament injuries in female athletes [14].
Therefore, it will be difficult to correlate injury incidence and thus injury prevention for youth soccer athletes outside the geographic domain in which the study was conducted. To date such a study has not been conducted within the scope of elite youth soccer athletes in Canada. The variability of the conclusions of these studies likely reflects that there are many factors (i.e. location, weather, surface playing field, age, sex and performance level) that ultimately determine the variation on why and how soccer players are injured and in turn, the preventative strategies that can be utilized to help reduce both the occurrence and recurrence of such injuries.
By taking into consideration the model for epidemiological studies on professional soccer player injuries in Brazil [1], the purpose of this preliminary study is to provide an injury incidence report for youth soccer in both Ontario as well as nationally in Canada. As such, due to differences in climate, technical level and total hours of play and training we believe that occurrence of injury per 1,000 hours of play and training, will be less in Canada compared to other soccer nations. The second objective is to provide an injury incidence report for the most common injuries during training and match play among youth soccer players in Ontario. By understanding how and why soccer injuries occur we ultimately hope to reduce the most prevalent injuries amongst youth Canadian soccer athletes beginning with an incidence inventory as a necessary first step.
Research Design and Methods
In concordance with Goncalves CA, et al. [1] the research design selected for this study is a prospective cohort. Historically, epidemiological studies examining soccer injury incidence have been prospective in nature. Methodology utilizing retrospective study design had many biases, which reduced the validity of risk assessments. Prospective study design has been shown to be the most useful method for estimating the risk of injury or disease, the incidence rate and/or relative risk [7].
Through a prospective concurrent longitudinal study, we can determine and define the population at the beginning of the study and follow the subjects through time. Cases are enrolled from a well-defined population, current exposure status is determined as non-injured and the onset of injury is observed in subjects over time. Injury status can be compared to non-injured status relative to exposure time. The study begins at the exposure of the cohort to exposure. Exposure status has been predetermined as all strength and conditioning sessions, training sessions and games overseen by an athletic therapist. The characteristics of the group of people studied have been pre-determined as healthy eligible Ontario Soccer Association (OSA) provincial and National Training Centre Ontario (NTCO) players. Non-cases or uninjured eligible players are followed forward in time. Cases or injury status and recording of the aforementioned have also been pre -determined.
The population of this study included all soccer players, males and females, between the ages of 13 to 17 years, eligible to train with the Ontario Soccer Association provincial program during the period of January 1, 2013 to December 31, 2016. It also included all players eligible to play for the NTCO Under-17 women’s program during the aforementioned periods. The players were selected based on criteria determined by the Ontario Soccer Association coaches and are considered among the elite population of soccer players in the province and country. In total, the study worked with seven teams each 28 players per team through four calendar seasons which runs from mid-October until the end of April of the following year. The total exposure hours were calculated combining training, match and strength conditioning hours for one calendar year or the provincial program from mid-October until the end of April. The exposure hours were then extrapolated over four years due to the consistency in scheduling within the provincial program related to limitations in field time. A total of 32,270 hours of exposure were recorded over one calendar year and estimated as 129,080 hours over four years.
Collection of Data
The source of data collection is The Sports Injury & Rehabilitation Centre, Inc. (SIRC). All player injuries were tracked and recorded on site using the centre’s electronic medical recording database called Injury Tracker®. Data collection occurred during all player exposures to potential injury including strength and conditioning sessions, training sessions and matches. Exposures occurred at the Soccer Centre, Ontario training grounds and various other venues on various playing surfaces. An athletic therapist employed by SIRC oversaw all exposures. Injury reports were filled out by a healthcare provider at occurrence of injury and before a player is referred for follow up medical care. An injury report is required to be completed if any of the following criteria are met:
•Player is removed from field of play by a health care provider or player is unable to return to play.
•Player requires treatment to return to play.
•Player suffers a concussion.
•Player does not participate in practice due to injury/condition.
•Player intake at the clinic directly due to inability to play.
Injury reports are submitted at the end of the session by the healthcare provider to the clinic supervisor who ensures that designated clinic personnel enters them into the clinic database.
Ethics and Human Subjects Issues
Players’ names or personal medical information cannot be tracked or identified in any manner.
Results
A total of 473 injuries were recorded through 129,080 exposure actual hours experienced by seven teams over the span of four seasons. The cumulative injury incidence rate among all players through four seasons was 8.34 injuries per 1,000 hours of training, strength and conditioning, or match play. The highest injury incidence rate occurred during the 2013 to 2014 season valued at 11.62 injuries per number of hours trained and played. The seasonal injury incidence variation across four years is presented in Figure 1.
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