Analysis of recall bias of information on soccer injuries in adolescents

Vanderlei, Franciele Marques; Barbosa, Danielli Aguilar; Machado, Aryane Flauzino; Bastos, Fábio do Nascimento; Vanderlei, Luiz Carlos Marques; Netto Júnior, Jayme; Pastre, Carlos Marcelo

doi:10.1590/S1980-6574201700SI0077

Abstract

Aims:

to analyze the recall bias of injury characteristics, anthropometric variables, and training variables in a morbidity survey in adolescent soccer players for a period of four months.

Method:

cohort study with 198 adolescent male soccer players, divided into two parts: a prospective study over four months, followed by a retrospective study. A morbidity survey containing personal and training data, in addition to information on injuries and their characteristics (anatomical site, mechanism, nature, moment, severity, return to activities and recurrence) was administered weekly for four months, after which the questionnaire was applied again questioning the same information retrospectively for the four-month prospective study period. The data were collected through interviews addressing the occurrence of injuries and respective characteristics.

Results:

there were weak correlations and concordances for the recall of the occurrence of injury and all related variables. However, regarding the information relating to personal and training data, moderate correlations were observed for the variables height, time of training, weekly hours, absences, and position, as well as excellent correlations for body mass.

Conclusions:

we observed recall bias in all information about the characteristics of the injuries reported by adolescent soccer players.

Keywords:
questionnaires; traumatism in athletes; adolescent

Introduction

The registration of sports injuries is performed in some countries by specialized associations, aiming to control and better understand the possible causes. This model, associated with a prospective follow-up, may be an interesting option for studying the association between cause and effect. However, in many countries there are no specific recording systems, especially for adolescents who are beginning to practice sports, and, therefore, other methods are used to identify epidemiological data, such as surveys of reported morbidity¹1 Conte M, Matiello Jr E, Chalita LVAS, Gonçalves A. Exploração de fatores de risco de lesões desportivas entre universitários de educação física: estudo a partir de estudantes de Sorocaba/SP. Rev Bras Med Esporte. 2002;8(4):151-6.

2 Pastre CM, Carvalho Filho G, Monteiro HL, Netto Júnior J, Padovani CR. Lesões desportivas no atletismo: comparação entre informações obtidas em prontuários e inquéritos de morbidade referida. Rev Bras Med Esporte. 2004;10(1):1-8.

3 Pastre CM, Carvalho Filho G, Monteiro HL, Netto Júnior J, Padovani CR, García AB. Exploração de fatores de risco para lesões no atletismo de alta performance. Rev Bras Med Esporte. 2007;13(3):200-4.

4 Vanderlei FM, Vanderlei LCM, Bastos FN, Netto Júnior J, Pastre CM. Characteristics and associated factors with sports injuries among children and adolescents. Braz J Phys Ther. 2014;18(6):530-7.

5 Campoy FA, Coelho LR, Bastos FN, Netto Júnior J, Vanderlei LCM, Monteiro HL, et al. Investigation of risk factors and characteristics of dance injuries. Clin J Sport Med. 2011;21(6):493-8.

6 Bastos FN, Vanderlei FM, Vanderlei LCM, Netto Júnior J, Pastre CM. Investigation of characteristics and risk factors of sports injuries in young soccer players: a retrospective study. Int Arch Med. 2013;6(1):14.

7 Vanderlei FM, Bastos FN, Tsutsumi GYC, Vanderlei LCM, Netto Júnior J, Pastre CM. Characteristics and contributing factors related to sports injuries in young volleyball players. BMC Res Notes. 2013;6:415.^-⁸8 Vanderlei FM, Vanderlei LCM, Netto Júnior J, Pastre CM. Characteristics of sports injuries and factors associated with injury in beginners of female artistic gymnastics. Fisioter Pesq. 2013;20(2):191-6..

Surveys of reported morbidity are considered effective tools for population analysis, in addition to being low cost; they do not require clinical assessment or tests and cover much of the information necessary for epidemiological studies on injuries⁹9 Faude O, Junge A, Kindermann W, Dvorak J. Injuries in female soccer players: a prospective study in the German national league. Am J Sports Med. 2005;33(11):1694-700.^,¹⁰10 Junge A, Dvorak J. Influence of definition and data collection on the incidence of injuries in football. Am J Sports Med. 2000;28(5 Suppl):S40-6.. However, when there is a time interval between the occurrence of the injury and its recording, there can be loss of information.

Soccer has been the focus of studies in various fields and the high numbellr of practitioners worldwide makes the understanding of injuries in this sport a scenario of interest for everyone involved. Some studies, to minimize recall bias, have used prospective designs and are assisted by surveillance systems of injuries¹¹11 Yard EE, Schroeder MJ, Fields SK, Collins CL, Comstock RD. The epidemiology of United States high school soccer injuries, 2005-2007. Am J Sports Med. 2008;36(10):1930-7.^,¹²12 Elliott MC, Zarins B, Powell JW, Kenyon CD. Hamstring muscle strains in professional football players: a 10-year review. Am J Sports Med. 2011;39(4):843-50., with monitoring by health professionals¹³13 Palacio EP, Candeloro BM, Lopes AA. Lesões nos jogadores de futebol profissional do Marília Atlético Clube: estudo de coorte histórico do Campeonato Brasileiro de 2003 a 2005. Rev Bras Med Esporte. 2009;15(1):31-5.^,¹⁴14 Le Gall F, Carling C, Reilly T. Injuries in young elite female soccer players: an 8- season prospective study. Am J Sports Med. 2008;36(2):276-84.. However, there are still studies with retrospective designs¹⁵15 Emery CA, Meeuwisse WH, McAllister JR. Survey of sport participation and sport injury in Calgary and area high schools. Clin J Sport Med. 2006;16(1):20-6.^,¹⁶16 O´Rourke KP, Quinn F, Mun S, Browne M, Sheehan J, Cusack S, et al. A comparison of paediatric soccer, gaelic football and rugby injuries presenting to an emergency department in Ireland. Injury. 2007;38(1):104-11..

The models cited have been used as options in the absence of systematic control registers. The best possible model is required to ensure accurate information, particularly considering the difficulty in accessing the target population⁷7 Vanderlei FM, Bastos FN, Tsutsumi GYC, Vanderlei LCM, Netto Júnior J, Pastre CM. Characteristics and contributing factors related to sports injuries in young volleyball players. BMC Res Notes. 2013;6:415.^,⁸8 Vanderlei FM, Vanderlei LCM, Netto Júnior J, Pastre CM. Characteristics of sports injuries and factors associated with injury in beginners of female artistic gymnastics. Fisioter Pesq. 2013;20(2):191-6. and more specifically considering beginner practices of sports. However, does the search for information in this profile result in reliable information? Our hypothesis is that recall bias is low and beginner players can recall the characteristics of the injury requiring fewer details.

Thus, the objective of this study was to analyze the recall bias of injury characteristics, anthropometric variables, and training variables using a morbidity survey in adolescent soccer players over a period of four months.

Methods

For this study, data from adolescent male soccer players were analyzed. For the composition of the sample, the registration of the adolescents, practitioners of this sports modality, was considered, as offered by the Municipal Secretary of Sports of Presidente Prudente, state of São Paulo. The total eligible population consisted of 490 volunteers who were properly enrolled and frequent in training. Two did not comply with one of the inclusion criteria (aged over 18 years) and one volunteer did not agree to participate in the study, thus, a total of 487 adolescents were evaluated during the intervention. Throughout the study, 119 adolescents did not demonstrate regular training frequency and 170 adolescents stopped training and did not perform the retrospective survey, thus, the final study analysis consisted of 198 adolescents (Figure 1).

Figure 1
Flow diagram representation of the participants.

All volunteers were informed about the procedures and objectives of the study and, after agreeing, signed an informed consent form. The study was approved by the Research Ethics Committee of the Universidade Estadual Paulista - FCT/UNESP (Protocol: 013130/2012).

This was a cohort study, divided into two parts: a prospective study followed by a retrospective study. In the prospective design, the volunteers were followed over a period of four months, during which they were asked weekly about the occurrence of sports injuries, whilst training and/or competing in addition to absences from training. If there were sports injuries, the characteristics of the injuries were recorded in the survey. This survey was developed to collect information about sports injuries and variables related to them, based on studies by Pastre, Carvalho Filho, Monteiro, Netto Júnior, Padovani²2 Pastre CM, Carvalho Filho G, Monteiro HL, Netto Júnior J, Padovani CR. Lesões desportivas no atletismo: comparação entre informações obtidas em prontuários e inquéritos de morbidade referida. Rev Bras Med Esporte. 2004;10(1):1-8. and Fuller et al.¹⁷17 Fuller CW, Ekstrand J, Junge A, Andersen TE, Bahr R, Dvorak J, et al. Consensus statement on injury definitions and data collection procedures in studies of football (soccer) injuries. Br J Sports Med. 2006;40(3):193-201..

After one week of conclusion of the prospective design, all adolescents were questioned again with a morbidity survey about all the injuries that had occurred during the four-month prospective study, comprising the retrospective design. In this sense, the morbidity survey was used to examine the recall bias of the issues related to sports injuries.

Initially, a pilot study was performed to adjust the procedure for data collection and test the applicability of this instrument in the target population. The data were collected in the form of an interview, carried out by two interviewers familiar with the instrument, who read the questions, explained each topic to the adolescents and annotated the responses in individual records. This procedure was suggested by Pastre, Carvalho Filho, Monteiro, Netto Júnior, Padovani²2 Pastre CM, Carvalho Filho G, Monteiro HL, Netto Júnior J, Padovani CR. Lesões desportivas no atletismo: comparação entre informações obtidas em prontuários e inquéritos de morbidade referida. Rev Bras Med Esporte. 2004;10(1):1-8. in their study, based on different levels of understanding for annotation of responses by the respondents themselves.

In addition to information on sports injuries, the collection of anthropometric variables (mass and height) and training variables (training time, weekly hours of training, and position) based on the morbidity survey were also carried out at two moments, initially and after four months. To avoid interfering in the dynamics and routines of the regular sports training, the volunteers were approached before or after the training sessions.

Sports injuries in this study were defined as any physical complaint resulting from training and/or competitions that limited the participation of the individual for at least one day, regardless of the need for medical attention¹1 Conte M, Matiello Jr E, Chalita LVAS, Gonçalves A. Exploração de fatores de risco de lesões desportivas entre universitários de educação física: estudo a partir de estudantes de Sorocaba/SP. Rev Bras Med Esporte. 2002;8(4):151-6.^,⁹9 Faude O, Junge A, Kindermann W, Dvorak J. Injuries in female soccer players: a prospective study in the German national league. Am J Sports Med. 2005;33(11):1694-700.^,¹⁶16 O´Rourke KP, Quinn F, Mun S, Browne M, Sheehan J, Cusack S, et al. A comparison of paediatric soccer, gaelic football and rugby injuries presenting to an emergency department in Ireland. Injury. 2007;38(1):104-11. and/or occurrence of symptoms responsible for changes in the form, intensity, volume or frequency of training, without it necessarily having to be interrupted¹⁸18 Emery CA, Meeuwisse WH, Hartmann SE. Evaluation of risk factors for injury in adolescent soccer: implementation and validation of an injury surveillance system. Am J Sports Med. 2005;33(12):1882-91..

The morbidity survey contained, in addition to information on sports injuries, personal data and training data on the volunteers, such as age, dominant limbs, height, body mass, body mass index calculated by the evaluator, player’s position, duration of training, training hours per week and number of days that the respondent missed training.

Regarding anthropometric variables, we chose to investigate whether the volunteer could respond appropriately to measurements of body mass and height. To evaluate this, firstly, the volunteer was asked about his anthropometric measurements, after which, the researcher performed the same measurements, which, however, were not disclosed to the volunteers to verify the agreement between the actual measurements and the information reported, both in the prospective design and retrospective survey.

For the assessment of body mass, a digital scale BC554 Aero-man/Inner Scanner (Tanita, Illinois, USA) was used, while to measure height, a portable stadiometer Sanny (American Medical do Brazil, São Paulo, Brazil) was used. The adolescents were barefoot and wearing light clothing during the measurements.

To obtain information concerning sports injuries, the morbidity survey contained questions about anatomic site affected, mechanism of injury, nature of injury, moment of injury, severity of injury, return to normal physical activity, and recurrence.

Regarding the anatomic site, related to the symptom of pain or discomfort reported by the volunteers, the questionnaire presented 20 body regions (upper limb [shoulder, arm, elbow, forearm, wrist, and hand], lower limbs [anterior thigh, posterior thigh, knee, leg, calf, ankle and foot], and trunk [thorax, abdomen, head, cervical spine, lumbar spine, pelvic waist, and others]) and an illustrative figure of the human body with the questionnaire to facilitate the identification of the exact site of injury.

Regarding the mechanism that caused the injury, the following categories were considered: i) direct contact with another player; ii) direct contact with the ball; iii) other direct contact (object or ground) and; iv) non-contact¹⁷17 Fuller CW, Ekstrand J, Junge A, Andersen TE, Bahr R, Dvorak J, et al. Consensus statement on injury definitions and data collection procedures in studies of football (soccer) injuries. Br J Sports Med. 2006;40(3):193-201.. Direct contact injuries were those caused by a single traumatic incident such as a collision against an opponent or a fall¹⁴14 Le Gall F, Carling C, Reilly T. Injuries in young elite female soccer players: an 8- season prospective study. Am J Sports Med. 2008;36(2):276-84.^,¹⁸18 Emery CA, Meeuwisse WH, Hartmann SE. Evaluation of risk factors for injury in adolescent soccer: implementation and validation of an injury surveillance system. Am J Sports Med. 2005;33(12):1882-91.. Non-contact injuries are those inherent to the sport itself, such as racing long and short distances, quick changes of movement, jumping, landing, among others¹⁴14 Le Gall F, Carling C, Reilly T. Injuries in young elite female soccer players: an 8- season prospective study. Am J Sports Med. 2008;36(2):276-84..

The nature of the sports injury was considered as the dynamics of the actions of the practitioner at the moment of injury and were divided into three situations: i) physical training; ii) training game, and iii) competition game. Considering the possibilities of attention during dynamic practice, the moment of injury was also explored: i) the outset/first third of training or a game, ii) the middle/second third of training or a game, and iii) the end/final third of training or a game.

The information on the severity of the injury was defined according to Fuller et al.¹⁷17 Fuller CW, Ekstrand J, Junge A, Andersen TE, Bahr R, Dvorak J, et al. Consensus statement on injury definitions and data collection procedures in studies of football (soccer) injuries. Br J Sports Med. 2006;40(3):193-201., who ranked sports injuries according to time out from the sport to recover, divided into four grades: minimal (one to three days off), mild (four to seven days off), moderate (eight to 28 days off), and severe (greater than 28 days off or permanent injury).

The return to normal physical activities aimed to observe whether the return to the sport without any changes in training occurred with or without the presence of signs and/or symptoms of the injury. Finally, recurrence details were collected to detect whether such an occurrence had already manifested itself on other occasions and in the same anatomical site after the return of the athlete to normal activities¹⁴14 Le Gall F, Carling C, Reilly T. Injuries in young elite female soccer players: an 8- season prospective study. Am J Sports Med. 2008;36(2):276-84..

Descriptive statistics were used to analyze the profile of the population and describe the variables. The concordance between the responses of the athletes at both collection periods, considering qualitative variables, was performed using constant confidence interval (CI) for the proportion of concordance, with values above 50% termed as significant concordance and values below 50% as significant discordance¹⁹19 Zar, JH. Bioestatistical analyses, 5ed. Prentice Hall, 994, p.2009.. The Kappa test was also used, wherein the coefficients of 0.81 to 1.00 were considered as very good; 0.60 to 0.79, good; 0.40 to 0.59, moderate; 0.20 to 0.39, weak; and 0.0 to 0.19, poor²⁰20 Landis JR, Koch GG. The measurement of observer agreement for categorical data. Biometrics. 1977;33(1):159-74..

For the quantitative variables, the intraclass correlation coefficient was used, comparing the reported measurements with the actual measurements taken in the prospective and retrospective designs. Values smaller than 0.5, between 0.5 and 0.75, between 0.75 and 0.9, and greater than 0.90 are indicative of poor, moderate, good, and excellent reliability, respectively²¹21 Koo TK, Li MY. A Guideline of selecting and reporting intraclass correlation coefficients for reliability research. J Chiropr Med. 2016;15(2):155-63.. For all comparisons, a 95% level of confidence was adopted.

Results

The adolescents presented a mean age of 13.48 ± 1.34 years, height of 1.61 ± 0.10 meters, body mass of 50.22 ± 12.25 kg, and body mass index of 19.15 ± 3.18 kg/m².

The values of the distribution of injury occurrences and related variables are presented in Table 1. We observed weak concordance for all variables. In the prospective design, of the total of 219 occurrences, 21 were reports of athletes who had had more than one injury. It is noteworthy that of the total of 40 injuries reported in the retrospective design, only 29 injuries were remembered, being that the remainder (11 reports) had not been reported in the prospective design.

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Table 1
Distribution of cases n (%), followed by the percentage of concordance and concordance interval and the value of Cohen’s Kappa concordance test for prospective and retrospective answers according to the occurrence of injury, anatomical site affected, mechanism of injury, nature of injury, moment of injury, severity of injury, return to normal activities, and recurrences.

Table 2 shows the correlation between the measurements reported by the athlete and the values measured by the evaluator, both in the prospective and retrospective designs. There was moderate correlation for height and excellen correlation for body mass.

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Table 2
Correlation between reported and measured measurements for height and body mass.

We observed moderate correlation in the responses of athletes regarding training time, weekly hours, and absences from training, as shown in Table 3.

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Table 3
Correlation between the answers on training time, hours per week, and reported absences in the prospective and retrospective study designs

The players’ position variables are presented in Table 4. There was a significant agreement of 72.2%, with k = 0.70 demonstrating good concordance.

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Table 4
Distribution of cases n (%), followed by the percentage of concordance and concordance interval and the value of Cohen’s Kappa concordance test between answers on position of the player, in the prospective and retrospective study designs.

Discussion

This study analyzed the recall bias for a period of four months in adolescent soccer players. We observed that there was weak concordance between the prospective and retrospective reports, as well as weak concordance between the occurrence of the injury and its variables. Despite morbidity surveys being effective for population analysis, epidemiological studies, and in high athletic performance²2 Pastre CM, Carvalho Filho G, Monteiro HL, Netto Júnior J, Padovani CR. Lesões desportivas no atletismo: comparação entre informações obtidas em prontuários e inquéritos de morbidade referida. Rev Bras Med Esporte. 2004;10(1):1-8., for a population of adolescent beginners in sports, it does not seem to be the best strategy for identifying injuries after a recall period of four months.

In this sense, we hypothesize that the possible causes to be raised for recall bias are: own recall bias, i.e., the athletes cannot remember their injuries properly; wrong or false reporting due to the inability of the adolescents to understand and report the occurrence of a sports injury, and/or possible transient or irregular characteristic of the symptoms.

In the literature, retrospective self-reporting of sports injuries was validated in one week²²22 Valuri G, Stevenson M, Finch C, Hamer P, Elliott B. The validity of a four week self-recall of sports injuries. Inj Prev. 2005;11(3):135-7., however, the trend observed was that the longer time to recall and the complexities of the reported information increased the chances of discordance and recall bias²³23 Gabbe BJ, Finch CF, Bennell KL, Wajswelner H. How valid is a self reported 12 month sports injury history? Br J Sports Med. 2003;37(6):545-7.^,²⁴24 Bjørneboe J, Flørenes TW, Bahr R, Andersen TE. Injury surveillance in male professional football; is medical staff reporting complete and accurate? Scand J Med Sci Sports. 2011;21(5):713-20.. However, the findings of this study showed that weak concordance remained in approximate values, regardless of the complexity of the reported variable.

Regarding the occurrence of sports injuries, we observed that most ( 65.6%) injuries were classified as “any physical complaint that changed the intensity, volume or frequency, without any interruption”²⁵25 Bennell KL, Crossley K. Musculoskeletal injuries in track and field: incidence, distribution and risk factors. Aust J Sci Med Sport. 1996;28(3):69-75.. For the population studied, the injuries did not seem to be serious and even when classified according to days of absence, most were considered mild, with a maximum of one to three days of absence.

Other studies¹⁸18 Emery CA, Meeuwisse WH, Hartmann SE. Evaluation of risk factors for injury in adolescent soccer: implementation and validation of an injury surveillance system. Am J Sports Med. 2005;33(12):1882-91.^,²⁶26 Le Gall F, Carling C, Reilly T, Vandewalle H, Church J, Rochcongar P. Incidence of injuries in elite French youth soccer players: a 10-season study. Am J Sports Med 2006;34(6):928-38. have observed that for the age group of 14 years old, injuries present higher risk when compared with the population between 15 and 18 years old. In this study, the mean age was 13.48 ± 1.34 years. For this age group, the injuries are usually characterized by a few days of absence of the athlete from the sport¹⁸18 Emery CA, Meeuwisse WH, Hartmann SE. Evaluation of risk factors for injury in adolescent soccer: implementation and validation of an injury surveillance system. Am J Sports Med. 2005;33(12):1882-91.^,²⁶26 Le Gall F, Carling C, Reilly T, Vandewalle H, Church J, Rochcongar P. Incidence of injuries in elite French youth soccer players: a 10-season study. Am J Sports Med 2006;34(6):928-38.^,²⁷27 Caine D, Caine C, Maffulli N. Incidence and distribution of pediatric sport-related injuries. Clin J Sport Med. 2006;16(6):500-13. and if the injuries have irregular characteristics, recall bias may be a result of faster recovery, thus making the recall less relevant for the athletes.

Regarding the analysis of the variables of injuries separately, ankle, knee and foot, respectively, were the anatomic sites that presented higher incidence, confirming the findings of other studies¹⁵15 Emery CA, Meeuwisse WH, McAllister JR. Survey of sport participation and sport injury in Calgary and area high schools. Clin J Sport Med. 2006;16(1):20-6.^,²⁶26 Le Gall F, Carling C, Reilly T, Vandewalle H, Church J, Rochcongar P. Incidence of injuries in elite French youth soccer players: a 10-season study. Am J Sports Med 2006;34(6):928-38.^,²⁸28 Flørenes TW, Nordsletten L, Heir S, Bahr R. Recording injuries among World Cup skiers and snowboarders: a methodological study. Scand J Med Sci Sports. 2011;21(2):196-205.. However, the proportion recorded for the foot was higher compared to the ankle and knee. In a study by Oztekin, Boya, Ozcan, Zeren, Pinar²⁹29 Oztekin HH, Boya H, Ozcan O, Zeren B, Pinar P. Foot and ankle injuries and time lost from play in professional soccer players. Foot (Edinb). 2009;19(1):22-8., it was found that of a total of 200 individuals with soccer related injuries in the lower limbs, 66 (33%) had severe injuries to the ankle and foot.

When analyzing the most common type of injuries in football, the majority are classified as bruises and strains¹⁵15 Emery CA, Meeuwisse WH, McAllister JR. Survey of sport participation and sport injury in Calgary and area high schools. Clin J Sport Med. 2006;16(1):20-6.^,¹⁷17 Fuller CW, Ekstrand J, Junge A, Andersen TE, Bahr R, Dvorak J, et al. Consensus statement on injury definitions and data collection procedures in studies of football (soccer) injuries. Br J Sports Med. 2006;40(3):193-201.^,³⁰30 Olsen SJ, Fleisig GS, Dun S, Loftice J, Andrews JR. Risk factors for shoulder and elbow injuries in adolescent baseball pitchers. Am J Sports Med. 2006;34(6):905-12.. It is likely that the recall of an injury is directly related to the type of injury and, consequently, with the severity of this injury, which leads to more days out of the sport for the athlete and deprivation of the normal activities. We should also consider that foot injuries can cause more losses to activities performed daily, thus making them easier to remember.

For the mechanism of injury, the prospective design presented increased reports for injuries through direct contact; however, there were more reports of non-contact injuries. Injuries caused by direct contact are often described in the literature¹⁵15 Emery CA, Meeuwisse WH, McAllister JR. Survey of sport participation and sport injury in Calgary and area high schools. Clin J Sport Med. 2006;16(1):20-6., and it is likely that athletes forget them more easily, as they often result in light injuries and are normal consequences of the game dynamics.

Concerning the nature of the injury, the highest number of injuries occurred during training games, with more recalls happening in this area. This result seems to be directly connected to the greater exposure of players to training regarding competitions. For the moment of injury, there were more reports and a higher proportion of recalls for the final third of the game/training. In fact, during this period there is evidence that the greater number of injuries may be related to fatigue²⁷27 Caine D, Caine C, Maffulli N. Incidence and distribution of pediatric sport-related injuries. Clin J Sport Med. 2006;16(6):500-13., and consequently the reports of recall were more evident because they were associated with athletes feeling tired.

Concerning recurrence, for both the prospective and retrospective designs, the prevalence was absence of recurrence. However, when there was a return to normal activities by these athletes, in the follow-up of the study, the injuries appeared more frequently with the presence of symptoms, and in the proportion of recall, these values are more significant for asymptomatic returns. What could justify such a finding is the possibility that the first appearance of the injuries can be more easily recalled or evidenced by the athletes.

Generally, the injuries with smaller proportions of recall were characterized as: being of direct contact; happening during physical training or competitions; presenting symptomatology after the return of the athlete; being recurrent; and being of minimum severity. The recall of injuries in adolescents seems to become more evident: as the variables are simplified; when there is a single episode; and when the severity of the injury is high. In addition, information that reflects the characteristic of the individual, such as anthropometric data and training data, generally, show good concordance.

From the above, we understand that retrospective studies should be viewed with caution for populations of the same nature, for even over shorter periods of time, there is a chance of weak concordance of self reports by adolescents on the occurrences of injuries and their variables.

As a limitation of the study, the low number of injuries stands out as comparisons are weakened when stratifying them for more specific interpretation, considering typology and situational causes. The investigation of socioeconomic status, which was not considered in this study, could also deepen discussions on the topic.

The impact of this study concerns the attention when conducting research on sports injuries in populations of the same nature, both when analyzing retrospectively and prospectively. As a perspective, we highlight the need for measuring bias in the interstice of time from three weeks to four months for the recall of injuries, considering the difficulty regarding access and existence of clinical records and medical staff.

Conclusion

We conclude that there was recall bias of information on the occurrence of injuries, as well as on their characteristics (anatomical site, mechanism, nature, moment, severity, return to normal activities, and recurrences) in adolescent players of soccer for a period of four months. However, when the information was related to personal and training data, the concordances were considered excellent for body mass and moderate for height, training time, weekly hours, and absences from training.

Acknowledgements

For single agency grants: This study was supported by the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES).

References

¹
Conte M, Matiello Jr E, Chalita LVAS, Gonçalves A. Exploração de fatores de risco de lesões desportivas entre universitários de educação física: estudo a partir de estudantes de Sorocaba/SP. Rev Bras Med Esporte. 2002;8(4):151-6.
²
Pastre CM, Carvalho Filho G, Monteiro HL, Netto Júnior J, Padovani CR. Lesões desportivas no atletismo: comparação entre informações obtidas em prontuários e inquéritos de morbidade referida. Rev Bras Med Esporte. 2004;10(1):1-8.
³
Pastre CM, Carvalho Filho G, Monteiro HL, Netto Júnior J, Padovani CR, García AB. Exploração de fatores de risco para lesões no atletismo de alta performance. Rev Bras Med Esporte. 2007;13(3):200-4.
⁴
Vanderlei FM, Vanderlei LCM, Bastos FN, Netto Júnior J, Pastre CM. Characteristics and associated factors with sports injuries among children and adolescents. Braz J Phys Ther. 2014;18(6):530-7.
⁵
Campoy FA, Coelho LR, Bastos FN, Netto Júnior J, Vanderlei LCM, Monteiro HL, et al. Investigation of risk factors and characteristics of dance injuries. Clin J Sport Med. 2011;21(6):493-8.
⁶
Bastos FN, Vanderlei FM, Vanderlei LCM, Netto Júnior J, Pastre CM. Investigation of characteristics and risk factors of sports injuries in young soccer players: a retrospective study. Int Arch Med. 2013;6(1):14.
⁷
Vanderlei FM, Bastos FN, Tsutsumi GYC, Vanderlei LCM, Netto Júnior J, Pastre CM. Characteristics and contributing factors related to sports injuries in young volleyball players. BMC Res Notes. 2013;6:415.
⁸
Vanderlei FM, Vanderlei LCM, Netto Júnior J, Pastre CM. Characteristics of sports injuries and factors associated with injury in beginners of female artistic gymnastics. Fisioter Pesq. 2013;20(2):191-6.
⁹
Faude O, Junge A, Kindermann W, Dvorak J. Injuries in female soccer players: a prospective study in the German national league. Am J Sports Med. 2005;33(11):1694-700.
¹⁰
Junge A, Dvorak J. Influence of definition and data collection on the incidence of injuries in football. Am J Sports Med. 2000;28(5 Suppl):S40-6.
¹¹
Yard EE, Schroeder MJ, Fields SK, Collins CL, Comstock RD. The epidemiology of United States high school soccer injuries, 2005-2007. Am J Sports Med. 2008;36(10):1930-7.
¹²
Elliott MC, Zarins B, Powell JW, Kenyon CD. Hamstring muscle strains in professional football players: a 10-year review. Am J Sports Med. 2011;39(4):843-50.
¹³
Palacio EP, Candeloro BM, Lopes AA. Lesões nos jogadores de futebol profissional do Marília Atlético Clube: estudo de coorte histórico do Campeonato Brasileiro de 2003 a 2005. Rev Bras Med Esporte. 2009;15(1):31-5.
¹⁴
Le Gall F, Carling C, Reilly T. Injuries in young elite female soccer players: an 8- season prospective study. Am J Sports Med. 2008;36(2):276-84.
¹⁵
Emery CA, Meeuwisse WH, McAllister JR. Survey of sport participation and sport injury in Calgary and area high schools. Clin J Sport Med. 2006;16(1):20-6.
¹⁶
O´Rourke KP, Quinn F, Mun S, Browne M, Sheehan J, Cusack S, et al. A comparison of paediatric soccer, gaelic football and rugby injuries presenting to an emergency department in Ireland. Injury. 2007;38(1):104-11.
¹⁷
Fuller CW, Ekstrand J, Junge A, Andersen TE, Bahr R, Dvorak J, et al. Consensus statement on injury definitions and data collection procedures in studies of football (soccer) injuries. Br J Sports Med. 2006;40(3):193-201.
¹⁸
Emery CA, Meeuwisse WH, Hartmann SE. Evaluation of risk factors for injury in adolescent soccer: implementation and validation of an injury surveillance system. Am J Sports Med. 2005;33(12):1882-91.
¹⁹
Zar, JH. Bioestatistical analyses, 5ed. Prentice Hall, 994, p.2009.
²⁰
Landis JR, Koch GG. The measurement of observer agreement for categorical data. Biometrics. 1977;33(1):159-74.
²¹
Koo TK, Li MY. A Guideline of selecting and reporting intraclass correlation coefficients for reliability research. J Chiropr Med. 2016;15(2):155-63.
²²
Valuri G, Stevenson M, Finch C, Hamer P, Elliott B. The validity of a four week self-recall of sports injuries. Inj Prev. 2005;11(3):135-7.
²³
Gabbe BJ, Finch CF, Bennell KL, Wajswelner H. How valid is a self reported 12 month sports injury history? Br J Sports Med. 2003;37(6):545-7.
²⁴
Bjørneboe J, Flørenes TW, Bahr R, Andersen TE. Injury surveillance in male professional football; is medical staff reporting complete and accurate? Scand J Med Sci Sports. 2011;21(5):713-20.
²⁵
Bennell KL, Crossley K. Musculoskeletal injuries in track and field: incidence, distribution and risk factors. Aust J Sci Med Sport. 1996;28(3):69-75.
²⁶
Le Gall F, Carling C, Reilly T, Vandewalle H, Church J, Rochcongar P. Incidence of injuries in elite French youth soccer players: a 10-season study. Am J Sports Med 2006;34(6):928-38.
²⁷
Caine D, Caine C, Maffulli N. Incidence and distribution of pediatric sport-related injuries. Clin J Sport Med. 2006;16(6):500-13.
²⁸
Flørenes TW, Nordsletten L, Heir S, Bahr R. Recording injuries among World Cup skiers and snowboarders: a methodological study. Scand J Med Sci Sports. 2011;21(2):196-205.
²⁹
Oztekin HH, Boya H, Ozcan O, Zeren B, Pinar P. Foot and ankle injuries and time lost from play in professional soccer players. Foot (Edinb). 2009;19(1):22-8.
³⁰
Olsen SJ, Fleisig GS, Dun S, Loftice J, Andrews JR. Risk factors for shoulder and elbow injuries in adolescent baseball pitchers. Am J Sports Med. 2006;34(6):905-12.

Publication Dates

Publication in this collection
2017

History

Received
13 June 2017
Accepted
06 Aug 2017

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Conte M, Matiello Jr E, Chalita LVAS, Gonçalves A. Exploração de fatores de risco de lesões desportivas entre universitários de educação física: estudo a partir de estudantes de Sorocaba/SP. Rev Bras Med Esporte. 2002;8(4):151-6.

[2] ²
Pastre CM, Carvalho Filho G, Monteiro HL, Netto Júnior J, Padovani CR. Lesões desportivas no atletismo: comparação entre informações obtidas em prontuários e inquéritos de morbidade referida. Rev Bras Med Esporte. 2004;10(1):1-8.

[3] ³
Pastre CM, Carvalho Filho G, Monteiro HL, Netto Júnior J, Padovani CR, García AB. Exploração de fatores de risco para lesões no atletismo de alta performance. Rev Bras Med Esporte. 2007;13(3):200-4.

[4] ⁴
Vanderlei FM, Vanderlei LCM, Bastos FN, Netto Júnior J, Pastre CM. Characteristics and associated factors with sports injuries among children and adolescents. Braz J Phys Ther. 2014;18(6):530-7.

[5] ⁵
Campoy FA, Coelho LR, Bastos FN, Netto Júnior J, Vanderlei LCM, Monteiro HL, et al. Investigation of risk factors and characteristics of dance injuries. Clin J Sport Med. 2011;21(6):493-8.

[6] ⁶
Bastos FN, Vanderlei FM, Vanderlei LCM, Netto Júnior J, Pastre CM. Investigation of characteristics and risk factors of sports injuries in young soccer players: a retrospective study. Int Arch Med. 2013;6(1):14.

[7] ⁷
Vanderlei FM, Bastos FN, Tsutsumi GYC, Vanderlei LCM, Netto Júnior J, Pastre CM. Characteristics and contributing factors related to sports injuries in young volleyball players. BMC Res Notes. 2013;6:415.

[8] ⁸
Vanderlei FM, Vanderlei LCM, Netto Júnior J, Pastre CM. Characteristics of sports injuries and factors associated with injury in beginners of female artistic gymnastics. Fisioter Pesq. 2013;20(2):191-6.

[9] ⁹
Faude O, Junge A, Kindermann W, Dvorak J. Injuries in female soccer players: a prospective study in the German national league. Am J Sports Med. 2005;33(11):1694-700.

[10] ¹⁰
Junge A, Dvorak J. Influence of definition and data collection on the incidence of injuries in football. Am J Sports Med. 2000;28(5 Suppl):S40-6.

[11] ¹¹
Yard EE, Schroeder MJ, Fields SK, Collins CL, Comstock RD. The epidemiology of United States high school soccer injuries, 2005-2007. Am J Sports Med. 2008;36(10):1930-7.

[12] ¹²
Elliott MC, Zarins B, Powell JW, Kenyon CD. Hamstring muscle strains in professional football players: a 10-year review. Am J Sports Med. 2011;39(4):843-50.

[13] ¹³
Palacio EP, Candeloro BM, Lopes AA. Lesões nos jogadores de futebol profissional do Marília Atlético Clube: estudo de coorte histórico do Campeonato Brasileiro de 2003 a 2005. Rev Bras Med Esporte. 2009;15(1):31-5.

[14] ¹⁴
Le Gall F, Carling C, Reilly T. Injuries in young elite female soccer players: an 8- season prospective study. Am J Sports Med. 2008;36(2):276-84.

[15] ¹⁵
Emery CA, Meeuwisse WH, McAllister JR. Survey of sport participation and sport injury in Calgary and area high schools. Clin J Sport Med. 2006;16(1):20-6.

[16] ¹⁶
O´Rourke KP, Quinn F, Mun S, Browne M, Sheehan J, Cusack S, et al. A comparison of paediatric soccer, gaelic football and rugby injuries presenting to an emergency department in Ireland. Injury. 2007;38(1):104-11.

[17] ¹⁷
Fuller CW, Ekstrand J, Junge A, Andersen TE, Bahr R, Dvorak J, et al. Consensus statement on injury definitions and data collection procedures in studies of football (soccer) injuries. Br J Sports Med. 2006;40(3):193-201.

[18] ¹⁸
Emery CA, Meeuwisse WH, Hartmann SE. Evaluation of risk factors for injury in adolescent soccer: implementation and validation of an injury surveillance system. Am J Sports Med. 2005;33(12):1882-91.

[19] ¹⁹
Zar, JH. Bioestatistical analyses, 5ed. Prentice Hall, 994, p.2009.

[20] ²⁰
Landis JR, Koch GG. The measurement of observer agreement for categorical data. Biometrics. 1977;33(1):159-74.

[21] ²¹
Koo TK, Li MY. A Guideline of selecting and reporting intraclass correlation coefficients for reliability research. J Chiropr Med. 2016;15(2):155-63.

[22] ²²
Valuri G, Stevenson M, Finch C, Hamer P, Elliott B. The validity of a four week self-recall of sports injuries. Inj Prev. 2005;11(3):135-7.

[23] ²³
Gabbe BJ, Finch CF, Bennell KL, Wajswelner H. How valid is a self reported 12 month sports injury history? Br J Sports Med. 2003;37(6):545-7.

[24] ²⁴
Bjørneboe J, Flørenes TW, Bahr R, Andersen TE. Injury surveillance in male professional football; is medical staff reporting complete and accurate? Scand J Med Sci Sports. 2011;21(5):713-20.

[25] ²⁵
Bennell KL, Crossley K. Musculoskeletal injuries in track and field: incidence, distribution and risk factors. Aust J Sci Med Sport. 1996;28(3):69-75.

[26] ²⁶
Le Gall F, Carling C, Reilly T, Vandewalle H, Church J, Rochcongar P. Incidence of injuries in elite French youth soccer players: a 10-season study. Am J Sports Med 2006;34(6):928-38.

[27] ²⁷
Caine D, Caine C, Maffulli N. Incidence and distribution of pediatric sport-related injuries. Clin J Sport Med. 2006;16(6):500-13.

[28] ²⁸
Flørenes TW, Nordsletten L, Heir S, Bahr R. Recording injuries among World Cup skiers and snowboarders: a methodological study. Scand J Med Sci Sports. 2011;21(2):196-205.

[29] ²⁹
Oztekin HH, Boya H, Ozcan O, Zeren B, Pinar P. Foot and ankle injuries and time lost from play in professional soccer players. Foot (Edinb). 2009;19(1):22-8.

[30] ³⁰
Olsen SJ, Fleisig GS, Dun S, Loftice J, Andrews JR. Risk factors for shoulder and elbow injuries in adolescent baseball pitchers. Am J Sports Med. 2006;34(6):905-12.

Variable	Study Design		Statistics
	Prospective	Retrospective	Concordance % (CI% [Kappa]
Injury
Reported	64 (29.22)	40 (18.26)	38.6 (26.4 - 28.3) [0.28]
Not Reported	155 (70.78)	179 (81.74)	38.6 (26.4 - 28.3) [0.28]
*Anatomical site*
Shoulder	1 (1.56)	1 (1.56)	37.3 (26.4 - 28.3) [0.28]
Hand	2 (3.13)	2 (3.13)
Anterior thigh	6 (9.38)	3 (4.69)
Posterior thigh	5 (7.81)	3 (4.69)
Knee	13 (20.31)	4 (6.25)
Leg	2 (3.13)	0 (0.00)
Calf	1 (1.56)	0 (0.00)
Ankle	16 (25.00)	6 (9.38)
Foot	10 (15.63)	6 (9.38)
Chest	1 (1.56)	0 (0.00)
Abdomen	1 (1.56)	1 (1.56)
Head	1 (1.56)	0 (0.00)
Lower back	1 (1.56)	1 (1.56)
Pelvic girdle	4 (6.25)	1 (1.56)
Other report ^a	-----	1 (1.56)
Not recalled	-----	35 (54.68)
*Mechanism of injury*
Direct contact	34 (53.12)	10 (15.62)	33.3 (22.6 - 44.0) [0.31]
Non-contact	30 (46.88)	15 (23.44)
Other report ^a	-----	4 (6.25)
Not recalled	-----	35 (54.68)
*Nature of injury*
Physical training	6 (9.38)	0 (0.00)	33.3 (22.6 - 44.0) [0.29]
Training Game	54 (84.37)	25 (39.06)
Competition Game	4 (6.25)	0 (0.00)
Other report ^a	-----	4 (6.25)
Not recalled	-----	35 (54.68)
*Moment of injury*
Outset of training or game	16 (25.00)	3 (4.69)	28 (17.8 - 28.2) [0.30]
Middle of training or game	20 (31.25)	6 (9.38)
End of training or game	28 (43.75)	12 (18.75)
Other report ^a	-----	8 (12.50)
Not recalled	-----	35 (54.68)
*Severity of injury*
Without absence	42 (65.63)	17 (26.56)	34.6 (24.1 - 25.3) [0.29]
Minimum	14 (21.87)	4 (6.25)
Mild	4 (6.25)	2 (3.13)
Moderate	3 (4.69)	2 (3.13)
Severe	1 (1.56)	1 (1.56)
Other report ^a	-----	3 (4.69)
Not recalled	-----	35 (54.68)
*Return to normal activities*
Asymptomatic	20 (31.25)	9 (14.06)	32.0 (21.4 - 42.5) [0.29]
Symptomatic	44 (68.75)	15 (23.44)
Other report ^a	-----	5 (7.81)
Not recalled	-----	35 (54.68)
*Recurrences*
Yes	24 (37.50)	6 (9.38)	29.3 (19.1 - 29.6) [0.30]
No	40 (62.50)	16 (25.00)
Other report ^a	-----	7 (10.94)
Not recalled	-----	35 (54.68)

Variable	Study Design
Variable	Prospective	Retrospective
Body mass	0.93 (0.91 - 0.95)	0.92 (0.90 - 0.94)
Height	0.56 (0.47 - 0.65)	0.62 (0.53 - 0.69)

Training time	0.59 (0.50 - 0.68)
Hours per week	0.53 (0.43 - 0.62)
Absences	0.56 (0.46 - 0.64)

Position of the player	Study Design
Position of the player	Prospective	Retrospective
Goalkeeper	9 (4.11)	9 (4.11)
Right attacking midfielder	13 (5.93)	10 (4,57)
Left attacking midfielder	7 (3.20)	6 (2.74)
Back	42 (19.18)	34 (15.53)
Striker	65 (29.68)	53 (24.20)
Midfielder	20 (9.13)	7 (3.20)
Right-back	27 (12.33)	15 (6.85)
Left-back	7 (3.20)	5 (2.28)
Defensive midfielder	21 (9.59)	14 (6.39)
Center forward	1 (0.46)	1 (0.46)
Right wing	5 (2.28)	2 (0.91)
Left wing	2 (0.91)	2 (0.91)
Another position	-----	61 (27.85)