Effect of Pre-training and Post-training Nordic Exercise on Hamstring Injury Prevention, Recurrence, and Severity in Soccer Players
Article information
Abstract
Objective
To investigate the effect of adding Nordic exercise as post-training in decreasing hamstring initial, recurrent injuries rates, and their severity.
Methods
In this randomly controlled trial study, 34 professional football players aged 21 to 35 years were randomly assigned into two groups (17 players each) from Sporting clubs at Alexandria, Egypt. For group one, Nordic hamstring exercise (NHE) was performed pre-training and post-training. For group two, NHE was only performed pre-training. The control group was the same team during the previous season. Length of the trial was 12 weeks. The Australian football association injury form was used to collect incidence of injuries for each subject in both groups.
Results
Pooled results based on total injuries showed that group one had significantly less hamstring initial injuries (92% less) than the previous season, while group two had 80% less initial injuries and 85% less recurrent injuries than previous season. Regarding the severity of injuries in term of mean number of absent days, it was 1 day for group one and 2.7 days for group two while it was 7.95 days for the previous season during total risk time of 116.3±13.2 and 117.6±5.7 exposure hours for group one and group two, respectively.
Conclusion
The use of NHE as a prevention protocol was effective in reducing all hamstring injuries with the use of NHE during pre-training and post-training having the greatest effect.
INTRODUCTION
Hamstring strain injury is the most common noncontact muscle injury for soccer players, representing two-thirds of thigh muscle strains [1]. Hamstring strain injury and recurrence rate were high in the past three decades. They occur mainly before the end of each half game when fatigue plays a role [2]. Hamstring strain injury could lead to inability to play for cup up to 90 days [3]. This, it can have a great impact on players and the team [4]. Nordic hamstring exercise (NHE) is an eccentric strengthening exercise. It is one of the most important components of the FIFA 11+ (Fédération Internationale de Football Association) exercise program. It has been proven that NHE can decrease hamstring injuries by 51% among soccer players per 1,000 hours of exposure [5]. Such effect of NHE could due to increased muscle activation and a shift in optimum torque production towards longer lengths, leading to ‘injury-protective’ effect of NHE. Induced muscle damage can lead to sarcomerogenesis (increased muscle fiber length), allowing it to stretch further. Only one NHE training session can cause immediate shift (7.7°) in optimum knee flexion torque. Such effect can be sustained at 10 days after NHE [6]. NHE for 10 weeks can lead to 20.8% fascicle length increase [7].
The percentage of injury prevention risk varies, meaning the level of effectiveness is not the same. After applying FIFA 11+ prevention program, 20%–50% reduction in injury risk has been reported [8]. High compliance to FIFA 11+ prevention program has led to significant decreased in injury risk (by 57%) [9]. The percentage of hamstring injury prevention after performing NHE during pre-training also varied between studies, including 65%–70% [10], 57%–72% [1], and 51% [11]. The elite European soccer premier league has reported a poor effect with NHE, with only 11% of hamstring injury prevention rate in randomized controlled trials [12].
Recently, adding post-training to pre-training FIFA 11+ prevention program as a cooling down program to the normal pre-training FIFA 11+ as a warming up program has been found to be able to decrease injury risk by 82% for all lower limb injuries with only 85% of compliance rate to the program [11]. In 2017, it was recommended that future research including medical staff was needed to conduct more effective studies on injury prevention with a high compliance rate [5]. Since adding post-training to FIFA 11+ prevention program was effective [11], it was found that only post-training Nordics (completed in a fatigued state) could also result in increase of fascicle angle of pennation (an increase of 2.14°) and fascicle muscle length (an increase of 0.2 cm) after 12 weeks of training [1]. However, adding NHE as a post-training exercise program besides the normal pre-training one has not been reported yet. To fill such gap in the literature, the main aim of this study was to determine the effect of pre-training and post-training NHE in decreasing hamstring injury rates and severity.
MATERIALS AND METHODS
The study design was a randomized controlled trial conducted in the summer football season in 2018. From five total football teams in Alexandria, Egypt, Sporting club was randomly chosen by simple randomization. Thirty-four male active professional football players who were normal and healthy were enrolled for this study (Fig. 1). Inclusion criteria were as follows: (1) male players with normal healthy conditions; (2) aged between 21 and 35 years with weight range of 60–86 kg, height range of 1.65–1.95 m, and body mass index range of 22–22.9 kg/m2; (3) being an active player; and (4) free of any hamstring injury at least for 6 months before applying the protocol. A power analysis was performed to confirm that the sample size was adequate. At 95% confidence interval (CI), the sample size was calculated to be 34 subjects with the power of the study of 80.0%. Before enrollment in this study, each player signed an informed consent according to our Faculty Ethical Committee. This study was registered in Pan African Control Trial (Approval ID: PACTR201810754318796).
Players were excluded if they participated in a team after the start of the trial or any previous lower extremity injury that required medical attention in the past 6 months. Players with any systemic disease, cardiovascular disease, neurological disorders, or any surgery in the previous year were also excluded from this study.
Players were randomly assigned to two equal groups using opaque sealed envelopes. Group one included 17 players who performed NHE both during pre-training and post-training. Group two included 17 players who performed NHE only during pre-training. Both groups performed traditional warming up and cooling down protocols. Hamstring injury rate of the team was recorded using football (soccer) injury form. Results were compared to data of the club of the previous season (control group) after 3 months (full protocol). Injury incidence rate and injury risk ratio (IRR) were calculated for each group.
Treatment procedures
The protocol duration was 12 weeks. NHE was performed twice per week except for the first week which was performed once. The pre-training NHE protocol (Table 1) followed that of Lovell et al. [1]. The post-training NHE protocol is shown in Table 2.
Nordic hamstring exercise
Player started in a kneeling position with the torso from knees held upward, rigid, and straight. The therapist ensured that the player’s feet were in contact with the ground throughout the exercise by sitting in her both knees and applying pressure to the player’s heels/lower legs as shown in Fig. 2. Instruction was given to the player to lower his upper body to the ground as slowly as possible to maximize loading in the eccentric phase. Hands and arms were used to break his forward fall and to push him back up after his chest had touched the ground to minimize loading in the concentric phase as shown in Fig. 3.
Warming up and cooling down
The traditional warming up Brazilian exercises [13] for 20 minutes in the form of high knee jumps, arm swings, faster high knees, side stepping, upper body rotations, run pace, and counter jumps were performed by all participants enrolled in this study. The normal cooling down was done by cold water immersion for 10 minutes [14]. Low-intensity aerobic running was chosen as mode of active recovery from the exercise [15].
Outcome measures
The primary outcome of this study was hamstring injury incidence as initial and recurrent injuries. Injury incidence was reported in absolute numbers as well as injury incidence rate (number of injuries per 1,000 player hours in matches and training). Secondary outcomes were injury severity and compliance in both groups. Injury severity was defined as the number of days lost from the injury date till full return to training and being available for match selection: It included slight (0 days), minimal (1–3 days), mild (4–7 days), moderate (8–28 days), severe (>28 days), and career ending levels. Compliance was calculated according to players’ rate of participation.
Data analysis
Data were analyzed using IBM SPSS software package version 20.0 (IBM, Armonk, NY, USA). Qualitative data were described using number and percentage. Chisquare test was used to compare different groups regarding categorical variables to assess the effect of intervention on injury incidence and injury severity. Quantitative data were described using mean and standard deviation for normally distributed data. For normally distributed data, comparison between two independent populations was done using independent t-test while more than two populations were analyzed using F-test (ANOVA). Significance test results were quoted as two-tailed probabilities. Significance of obtained results was judged at 5% level.
Hamstring injury incidence was counted from data collected using the Australian football (soccer) association injury form. Injury incidence rate was calculated by dividing the number of incident injuries by the total time at risk and multiplied by 1,000 as this could accommodate variations in exposure time of individual athletes as shown in the following equation:
while IRR, a new standard for analyzing the efficacy of injury prevention programs [8], was calculated using the following equation [5].
An IRR<1 indicates a positive intervention effect. For example, an IRR of 0.30 represents a 70% reduction. Individual injury rates and IRR along with CI were determined. Compliance with the intervention protocol was calculated based on information provided on player’s adherence to the program for both groups (groups one and two). As the protocol had 50 sessions for group one and 25 sessions for group two, compliance was calculated as [10,16]:
RESULTS
Thirty-four professional male football players with mean age of 24.3±3.8 years old were assigned into the two groups (17 players each). All of them completed the designated full protocol except two players due to injuries causing absence for more than a week. Baseline characteristics of these players including age, weight, height, body mass index, and leg dominance were collected and analyzed with t-test and chi-square test, showing no significant difference between the two groups (all p>0.05), meaning that they were homogenous groups as shown in Table 3.
Exposure time
During the 12 weeks of program, players of both groups had average exposure time to training sessions and playing matches. Group one had an average exposure time of 116.3±13.2 hours and group two had an average exposure time of 117.6±5.7 hours. By t-test, there was no significant (p>0.05) difference in average exposure time between the two groups at 95% CI (0.65–3.2).
Effects of NHE on whole injury incidence, initial injury, injury recurrence, and injury severity are summarized in Table 4. When compared to results of the whole past team regarding initial injuries, recurrent injuries, and severity of injuries using chi-square test, initial injuries between the two intervention groups and the control group (previous season) at χ2=8.25 and 95% CI (0.21–0.74) revealed that 35.1% were injured which was highly significant (p<0.05). In the control group, 18.9% suffered recurrent hamstring injuries. The percentage of recurrent injuries was significantly higher than in the two interventional groups: 18.9% were injured at χ2=6.58 with 95% CI (0.012–0.651) and at ANOVA test (F=12.65) with 95% CI (0.104–0.92). Regarding the severity of previous team’s injures, the number of absent days ranged 5–10 days, with a mean of 7.95 days. This was significantly higher than the severity of injury in the two interventional groups (p=0.001).
Compliance to protocol
Only two players were excluded from the intervention group due to injury leading to absence more than a week. All other players full completed the whole program (50 sessions for intervention group one and 25 sessions for intervention group two). The compliance percentage was the highest among studies in the same area of research. It was calculated based on information provided by the researcher. It was 100% for intervention group two, 98.7% for intervention group one with a total compliance rate of 99.3%, which was the highest compliance rate that was ever achieved.
IRR
Using the following equations [5]:
the two studied groups resulted in totally injury prevention percentage of 70% than the previous season. With only intervention group one, it showed an injury prevention rate of 92.3%. Also, there was a 85% decrease in recurrence rates with intervention group two compared to previous season and a 100% prevention rate with intervention group one.
DISCUSSION
This randomized control trial was conducted to investigate a highly effective eccentric hamstring strength training in the form of Nordic hamstring exercise during both pre-training and post-training or pre-training only to reduce incidence rates of hamstring initial injuries and recurrent injuries and their severity for professional male soccer players and compare it to the previous season when NHE was not applied in any prevention program. Until 2018, hamstring injuries were still considered as number 1 muscle injury in football. These injuries were increasing in the last decade with high recurrences, increasing personal suffering for players despite all preventive measures were applied with increased knowledge about this muscle injury [17].
The Arabic questionnaire survey for implementation strategies of injury prevention programs was used to detect the adoption of Egyptian coach to prevention protocols in the previous season which was considered a limitation of this study [2]. The study was controlled as much as possible for baseline characteristics of players including age, weight, height, body mass index, and leg dominance. By applying t-test and chi-square test, there was no significant difference between the two groups (p>0.05), meaning that they were homogenous groups. Also, the average exposure time to training sessions and playing matches of the players of the two studied groups was 116.3±13.2 hours total for the intervention group one and 117.6±5.7 hours total for the intervention group two. By applying t-test, there was no significant difference (p>0.05) between the two groups at 95% CI (0.65–3.2). Such similarity in exposure time provides information that it is not a contributing factor to incidence of injuries.
With these limitations, results of this study revealed that the there was a significant increase in whole injury in intervention group two than that in intervention group one. The intervention group one had only 1 (5.9%) injury while the intervention group two had 4 (23.5%) injuries (p<0.05). However, there was no significant difference in hamstring muscle initial injury at the end of the intervention protocol between the two groups (p=0.287).
These results were in agreement with a recent study published in 2018 [18], showing that NHE was very effective even with the shortest protocol done. However, in the present study, the intervention protocol’s duration was 12 weeks reported to be a sufficient duration for muscular adaptation to prevent hamstring injuries [5]. This result could be because intervention group one had higher eccentric strength by performing Nordic hamstring during both pre-training and post-training, meaning they were able to withstand the high lengthening force on muscle fibers as it developed tension and contracts to control the movement performed at late swing and pre-stance phases known to be the highest injury exposure phases [19].
Results of the current study were in line with those of another study reporting that fascicle muscle length and fascicle angle of pennation were increased about 0.2 cm and 2.14°, respectively, after applying NHE during posttraining rather than applying it during pre-training [1]. Their increases are very critical in sprinters and soccer players to decrease injury rates [20]. Furthermore, these results were in agreement with a previous [17] showing that pre-training only was insufficient for hamstring muscle injuries prevention.
For initial and recurrent injury comparison, chi-square test revealed that there was no statistically significant difference between the two groups. When comparing initial and recurrent injuries of the two NHE groups with the team in the previous season, results revealed significant difference. For the team in the previous season, 35.1% had initial injuries and 18.9% had recurrent injuries. These were significantly higher those in the two NHE groups (intervention groups one and two). There was also a significant increase in the severity of injury in the team during the previous season than the two NHE groups (p<0.01). The number of days absent for the previous team ranged 5–10 days, with a mean of 7.95 days. However, it was 1 day for intervention group one and 2.7 days for intervention group two. This result was in agreement with Lovell et al. [1] reporting that muscle thickness and fascicle angle of pennation increased more when NHE was applied during post-training rather than during pre-training. This may also illustrate the no recurrence of hamstring injury in the intervention group one compared to previous team which had 7 recurrent hamstring injuries more than once.
The two studied groups resulted in totally injury prevention percentage of 70% than the previous season and 92.3% prevention compared to only intervention group one. Also, there was a 85% decrease in recurrence rates with intervention group two compared to the previous season and 100% prevention with intervention group one. These results were higher than all previous studies applied in that area of research. Results were calculated using [5,11]:
In 2015, van der horst et al. [10] performed a study and found a total of 38 hamstring injuries were affecting 36 (6.2%) of 579 players. The risk for hamstring injuries was significantly (p=0.005) reduced in the intervention group compared to that in the control group. However, injury severity was not significantly different between the intervention group and the control group. Compliance rate with the intervention protocol was 91%. However, they performed NHE during pre-training only [10]. In 2018, van der Horst [17] found that pre-training only was not enough to prevent injury.
Compliance or adherence to the applied protocol has been mentioned as a very important factor affecting results obtained and effectiveness of the protocol [9,11]. The efficacy of pre- and post-training FIFA 11+ injury prevention program was related to the degree of compliance. The greater the compliance, the greater the reduction in injuries [2,11]. In the present study, only two players were excluded from the intervention group due to injury resulting in absence for more than a week. All other players fully completed the whole program (50 sessions for intervention group one and 25 sessions for intervention group two). Compliance rate was calculated based on information provided by the researcher. Finally, it was found to be 100% for intervention group two, 98.7% for intervention group one, with total compliance rate of 99.3%. This was the highest compliance rate ever achieved among all studies conducted in this area of research.
According to these results, a similar study should be conducted with a large number of football teams to provide a wide representation of data. Other studies should also be performed with different professional levels to provide more evidence for exercise effectiveness in different levels. Studies on female football team are also needed using objective tools for assessing injury and measuring peak muscle torque. In addition, the relationship between hamstring injuries and other lower limb injuries merits further study.
In conclusion, the use of NHE as a prevention protocol for professional soccer players was successful in reducing the number of both initial and recurrent hamstring muscle injuries as well as their severity. In addition, we found that using NHE during both pre-training and posttraining had the greatest effect in preventing hamstring injuries.
Notes
No potential conflict of interest relevant to this article was reported.
Conceptualization: Elerian AE. Methodology: Elerian AE, El-Sayyad MM, Dorgham HA. Formal analysis: Elerian AE, El-Sayyad MM. Project administration: Elerian AE, Dorgham HA. Writing – original draft: Elerian AE. Writing – review and editing: Elerian AE, El-Sayyad MM. Approval of final manuscript: all authors.
Acknowledgements
The authors would like to thank Dr. David RodriguezSanz, professor and researcher of the Department of Physiotherapy and Podiatry, Faculty of Sports Science, European University of Madrid, Villaviciosa de Odón, Spain and Facultad de Enfermería, Fisioterapia y Podologia, Universidad Complutense de Madrid, Madrid, Spain for his useful contributions to the writing of this manuscript.