Influence of practice time on surfing injuries

Bazanella, Natacha Verônica; Garrett, José Guilherme Zanella D’Almeida; Gomes, Anna Raquel Silveira; Novack, Luiz Fernando; Osiecki, Raul; Korelo, Raciele Ivandra Guarda

doi:10.1590/1980-5918.030.S01.AO02

Abstract

Introduction:

studying the influence of surfing on the prevalence of injuries may contribute to prevention.

Objective:

to analyze the influence of time practicing sports and the occurrence of previous surgery on the profile and prevalence of injuries caused by surfing.

Methods:

Sixty-six Brazilian surfers (26.16 ± 0.73 years old) participated in this study. Anthropometric data, physical activity level, surfing practice time and the prevalence of injuries (type of injury, anatomical region affected, and mechanism of injury) were evaluated. To assess which of the studied variables exerted significant influence on the mean number of injuries, a Poisson log-linear model was adjusted through R software (p < 0.05).

Results:

most surfers were classified as eutrophic (73%), very active (60.6%), had an average practice time of 10.1 ± 1 years, and were not members of a surfing federation (74%). It was also observed that 90.9% of participants reported injuries caused by surfing and 44.9% affected the lower limbs. The majority of these injuries affected the integumentary system (46.6%). The main mechanism of injury was impact with the board or seabed (40.4%). Furthermore, it was found that surfing federation members presented an average of 58.4% more injuries than non-members (p = 0.007). Surfers who had undergone previous surgeries showed an average number of injuries that was 56.9% higher than other surfers (p = 0.012). In addition, it was found that for each extra year of surfing, the average number of injuries increased by 2.5% (p = 0.0118).

Conclusion:

the average number of injuries increased with increment in time practicing the sport, previous surgery and membership in a surfing federation.

Keywords:
Injuries in Athletes; Prevalence; Sports Medicine

Resumo

Introdução:

estudar a influência da prática de surf sobre a prevalência de lesões pode contribuir para sua prevenção.

Objetivo:

analisar a influência do tempo de prática esportiva e realização de cirurgia prévia sobre o perfil e prevalência das lesões decorrentes do surf.

Métodos:

Participaram 66 surfistas brasileiros (26,16 ± 0,73 anos). Foram avaliados os dados antropométricos, o nível de atividade física, o tempo de prática de surf e a prevalência de lesões (tipo de lesão, região anatômica acometida e o mecanismo de lesão). Para avaliar quais das variáveis estudadas exerciam influência significativa na média de lesões foi ajustado um modelo log-linear de Poisson por meio do software R (p < 0,05).

Resultados:

A maior parte dos surfistas foi classificada como eutróficos (73%), muito ativos (60,6%), tempo médio de prática de 10,1 ± 1 anos e não federados (74%). Foi observado que 90,9% dos participantes reportaram lesões decorrentes do surf, sendo que 44,9% destas lesões acometeram os membros inferiores e a maioria atingiu o sistema tegumentar (46,6%). O principal mecanismo de lesão foi o choque com prancha/fundo do mar (40,4%). Ainda, verificou-se que surfistas federados apresentaram média estimada de lesões 58,4% maior que os não federados (p = 0,007). Surfistas submetidos a cirurgias prévias apresentaram média estimada de lesões 56,9% maior que os demais (p = 0,012). Além disso, constatou-se que para cada ano a mais de prática de surf, a média estimada de lesões cresceu 2,5% (p = 0,0118).

Conclusão:

A média estimada de lesões dos surfistas aumentou com o incremento do tempo de prática, realização de cirurgia pregressa e estar federado.

Palavras-chave:
Lesões em Atletas; Prevalência; Medicina Esportiva

Introduction

In recent years the number of surfers has increased, which has made it a popular sport worldwide¹1 Mendez-Villanueva A, Bishop D. Physiological aspects of surfboard riding performance. Sports Med. 2005;35(1):55-70.^{), (}²2 Mendez-Villanueva A, Bishop D, Hamer P. Activity profile of world-class professional surfers during competition: A case study. J Strength Cond Res. 2006;20(3):477-82.^{), (}³3 Sheppard JM, Nimphius S, Haff GG, Tran TT, Spiteri T, Brooks H, Slater G, Newton RU. Development of a comprehensive performance-testing protocol for competitive surfers. Int J Sports Physiol Perform. 2013;8(5):490-5.. According to the International Surfing Association, it is estimated that there are approximately 35 million surfers on the planet⁴4 Aguerre F. Surfing And The Olympics. International Surfing Association - ISA. [Serial on the internet] 2015 [cited 2015 Jul 2] Available from: https://tinyurl.com/kosk6ch
https://tinyurl.com/kosk6ch... . In Brazil, the estimate is that 1.3% of the population between 14 and 75 years old (approximately 1.9 million surfers) is actively involved in this sport⁵5 Brasil. Ministério do Esporte. Diagnóstico Nacional do Esporte - Diesporte. Ministério do Esporte. 2015 [cited 2015 Jul 2] Available from: https://tinyurl.com/mqpcl2j
https://tinyurl.com/mqpcl2j... . However, despite having become very popular, scientific literature about the sport is still scarce¹1 Mendez-Villanueva A, Bishop D. Physiological aspects of surfboard riding performance. Sports Med. 2005;35(1):55-70., especially regarding the prevalence of injuries⁶6 Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15.^{), (}⁷7 Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3.^{), (}⁸8 Dimmick S, Gillett M, Sheehan P, Sutton C, Anderson SE. Acute injuries and chronic pathology of the head and face sustained while surf board riding. Trauma. 2014;16(3):195-201..

The development of boards and keels with improved hydrodynamics allows for increasingly faster and more complex maneuvers, accompanied by greater physical, physiological and technical demand. This factor may have contributed to the increased incidence of injuries in surfers⁷7 Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3.^{), (}⁸8 Dimmick S, Gillett M, Sheehan P, Sutton C, Anderson SE. Acute injuries and chronic pathology of the head and face sustained while surf board riding. Trauma. 2014;16(3):195-201..

The most common injuries in surfing are contusions and injuries due to cuts, followed by sprains, muscle strains, burn and fractures. In addition, studies show that in surfing most injuries are traumatic in nature, and are mainly caused by the impact of the surfer with his own board or with the seabed, followed by the unsuccessful execution of maneuvers⁷7 Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3.^{), (}⁹9 Nathanson A, Bird S, Dao L, Tam-sing K. Competitive Surfing Injuries: A Prospective Study of Surfing-Related Injuries Among Contest Surfers. Am J Sports Med. 2007;35(1):113-7..

In a study with surfers from the coast of Paraná (Brazil), it was verified that the most frequent type of injury in the recreational category was contusion in the lower limbs due to contact with the board¹⁰10 Moraes GC, Guimarães ATB, Gomes ARS. Análise da prevalência de lesões em surfistas do litoral paranaense. Acta Ortop Bras. 2013;21(4):213-8.. However, neither the physical activity level of surfers nor the influence of their practice time on the prevalence of injuries were investigated. Therefore, the objective of this study was to analyze whether the level of physical activity, surfing practice time, membership in a surfing federation and having undergone previous surgery influenced the type and prevalence of surf-related injuries.

Methods

This is an observational cross-sectional analytical study¹¹11 Marques AP, Peccin MS. Pesquisa em fisioterapia: a prática baseada em evidências e modelos de estudos. Fisioter Pesq. 2005;11(1):43-8. approved by the Research Ethics Committee in the Health Sciences Sector of the Federal University of Paraná (335,941), which followed resolution 466/12 of the National Health Council and was registered in the Brazilian Registry of Clinical Trials (RBR-752vkn). All participants were informed of the procedures and gave their informed consent in writing.

For the sample size calculation, the proportion of surfers was assumed to be 1.47%⁷7 Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3.^{), (}¹⁰10 Moraes GC, Guimarães ATB, Gomes ARS. Análise da prevalência de lesões em surfistas do litoral paranaense. Acta Ortop Bras. 2013;21(4):213-8. (2,803,770) of the total Brazilian population (190,732,694), according to the 2010 Census data. We used the formula in¹1 Mendez-Villanueva A, Bishop D. Physiological aspects of surfboard riding performance. Sports Med. 2005;35(1):55-70., with a 95% confidence interval and a sampling error of 3%:

N = \frac{z_{a / 2}^{2} * N * P * (1 - P)}{ε^{2} * (N - 1) + z_{a / 2}^{2} * (1 - P) (1)}

Where: n, sample size to be calculated; $z_{α / 2}^{2}$ , critical value for the desired confidence level; N, population size; P, proportion of individuals who practice surfing in Brazil; ε², sampling error.

Assuming such parameters, the result was 62 surfers. Thus, 66 surfers of both genders from the coast of Paraná were selected. All of them had surfed for at least 6 months, and are, aged between 18 and 42. Exclusion criteria were peripheral neurological and vascular comorbidities.

Anthropometric assessment

The anthropometric assessment was carried out through the measurement of body mass (Kg), on a digital scale (Magna®), and stature (cm), by using a 2-metre long measuring tape attached to the wall. The body mass index (BMI) was calculated dividing the body mass by the square of the stature of participants (Kg/m²), and classified according to the Health Ministry¹²12 Brasil. Ministério da Saúde. Biblioteca Virtual em Saúde do Ministério da Saúde. Folder Obesidade. 2009 [cited 2015 May 25]. Available from: https://tinyurl.com/nx4akrb
https://tinyurl.com/nx4akrb... as: underweight (less than 18.5 Kg/m²), eutrophic (18.5 to 24.9 kg/m²), overweight (25 to 29.9 kg/m²) and obese (greater than 30.0 kg/m²).

Physical Activity Level (IPAQ-International Physical Activity Questionnaire - long form)

The level of physical activity was evaluated through a personal interview using the IPAQ long form, validated in Brazil by Matsudo et al.¹³13 Matsudo S, Araújo T, Matsudo V, Andrade D, Andrade E, Oliveira LC, et al. Questionário Internacional de Atividade Física (IPAQ): estudo de validade e reprodutibilidade no Brasil. Rev Bras Ativ Fís e Saú. 2001;6(2):5-18.. This instrument allows to assess the intensity of the activity (walking, moderate activity and vigorous activity) and the time spent performing these activities in the week preceding the assessment. The questions referred to their activities at work and at home, such as physical activity on the way to work (for those who walk or ride their bicycles, for example), leisure time and time spent sitting¹⁴14 Pardini R, Matsudo S, Araújo T, Matsudo V, Andrade E, Braggion G, et al. Validação do questionário internacional de nível de atividade física (IPAQ - versão 6): estudo piloto em adultos jovens brasileiros. Rev Bras Ciên Mov. 2001;9(3):45-51.. The results were calculated in minutes per week, following the procedural recommendations proposed by the IPAQ Core Group¹⁵15 International Physical Activity Questionnaire (IPAQ). Guidelines for data processing and analysis of the International Physical Activity Questionnaire (IPAQ) - short and long forms. 2004 [cited 2015 May 25]. Available from: http://www.ipaq. ki.se/scoring.pdf
http://www.ipaq. ki.se/scoring.pdf... . Thus, individuals were classified according to the criteria of frequency and duration as follows: sedentary, insufficiently active, active and very active.

The surfing practice index

Each participant was interviewed and reported their surfing category (amateur, recreational or professional), time practicing the sport (in years), weekly frequency of practice (number of days) and number of hours of daily practice. For the analyses, the surfing practice index was determined through the following equation: the surfing practice index is equal to the number of hours of daily practice, multiplied by the number of days spent surfing in the week, multiplied by the number of weeks in the year, multiplied by the number of years of practice. Through the result, it was possible to classify the participants of the study according to time spent surfing: little (2999 hours/week/year), moderate (between 3000 to 5999 hours/week/year) and intense practice (over 6000 hours/week/year).

Referred Morbidity Survey (RMS)

The questionnaire was constructed based on Hoshi et al.¹⁶16 Hoshi RA, Pastre CM, Vanderlei LCM, Netto Jr J, Bastos FN. Lesões desportivas na ginástica artística: estudo a partir de morbidade referida. Rev Bras Med Esporte. 2008;14(5):440-5., and modified according to the reality of the sport. The instrument aimed to gather data about injury type, body part affected, moment the surfer suffered the injury, and mechanism of injury. For the type of injury caused by the sport variable, six categories were established: integumentary (laceration and burn by a marine animal), muscular (contusion and muscle injury), bone (fractures), joint (dislocation), ligament (sprain or ligament injury), and others. The affected body parts were categorized into four segments: head, upper limbs, lower limbs and upper body. The moment when the surfer suffered one of these injuries was categorized as “during training” or “during competition”. The mechanisms that prompted the injury were categorized into four types: paddling and duck diving; fall off the board (impact with the seabed and with the board); animal injury (Portuguese man o’war and jellyfish); and maneuvers. The RMS was answered through an interview, in which the participants were asked to report all injuries they had suffered during practice of the sport, taking into account all years of practice.

Data analysis

Statistical analysis was carried out with the use of R software. The data were submitted to the Kolmogorov-Smirnov test to verify the normality of distribution. Nominal and/or ordinal variables were described in absolute frequency and percentage, while the numerical variables were described in mean and standard error of the mean (SEM). In order to assess which variables exert significant influence on the mean of the surfers’ injury, a log-linear Poisson model was adjusted¹⁷17 Magalhães MN, Lima ACP. Noções de probabilidade e estatística. 6th ed. São Paulo: USP; 2005.. The significance level was set at p < 0.05.

Results

The sample consisted of 66 surfers, 73% of whom were eutrophic, with a predominance of practice time between 0-10 years (56%) and a weekly frequency of 3.5 ± 0.2 days/week. Regarding the index of surfing practice, most surfers (65%) were classified as having “little practice” in the recreational category. Furthermore, from all participants, 74% were non-federated. Demographic, anthropometric and physical characteristics are listed in Table 1.

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Table 1
Demographic, anthropometric and physical characteristics of participants (n = 66)

Table 2 shows the results of the International Physical Activity Questionnaire (IPAQ), in which most of the surfers were classified as very active (40%), followed by active (36.4%), while only 1.5% were classified as insufficiently active.

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Table 2
Levels of physical activity of participants (n = 66)

The analysis of the results obtained from the Reported Morbidity Survey, in relation to the injuries caused by surfing, showed the occurrence of at least some kind of injury along the sports career in 60 surfers (90.9%). Among these, 14 participants (23.3%) reported having suffered only one injury, 11 (18.3%) reported two injuries, 15 (25%) reported three injuries, 10 (16.6%) reported four injuries, five (8.3%) reported five injuries, two (3.3%) reported six injuries, one (1.6%) reported seven injuries and one (1.6%) reported eight injuries, totaling 100% of injuries. Thus, an occurrence of 178 injuries was found among the 66 participants in the study. According to Table 3, considering the type of injuries, it was observed that 44.9% (n = 80) of the injuries affected the lower limbs, 20.2% (n = 36) affected the upper limbs, 18.5% (n = 33) affected the head and 16.3% (n = 29) affected the upper body. Most of the injuries occurred in the integumentary system, representing 46.4% of cases, followed by 28.1% of muscle injuries, 14.6% of ligament injuries, with only 3.4% of joint injuries, 1.1% of bone injuries and 6.2% without a definite diagnosis.

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Table 3
bsolute and relative distribution of type of lesion by anatomical region of injury

The most common mechanism of injury (Table 4) was found to be fall or shock with the board and/or the seabed (40.4%), followed by maneuvers (28.1%), paddling or “duck dive” (19.7%) and finally contact with animals such as the Portuguese man o’war and jellyfish (11.8%), but this prevalence distinguished among the different types of affected tissues. Most of the injuries (93.3%) occurred during training, and only 6.7% occurred during competitions.

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Table 4
Absolute and relative distribution of the type of lesion by mechanism of injury

To evaluate the influence of the variables on the number of injuries, a log-linear Poisson model was used. Through this analysis, it was possible to ascertain which variables exert significant influence on the number of injuries and also to perform interpretations. After excluding the non-significant variables and verifying the quality of the adjusted data, the model described in Table 5 was determined.

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Table 5
Log-linear Poisson Model

It is possible to see that three variables surfing time (in years), whether the surfer is a federation member, and surgery history are related to the highest average of surfers’ injuries. The interpretations for this model are performed through the exponential estimation, which means that these values are interpreted as “average ratios”. Thus, the estimated average of injuries is 58.4% greater among federated surfers, as opposed to non-federated ones (e ^0,460 = 1,584). The 95% confidence interval for this estimation was (12.7%, 121.8%). Surfers who underwent surgery have an estimated average number of injuries 56.9% greater than those who did not, with a 95% confidence interval of (9.1%, 121.2%). For the surfing time variable, estimation was made according to cumulative years of surfing practice. Hence, for each exceeding year of surfing, the estimated average of injuries grows 2.5%, with a 95% confidence interval of (0.5%, 4.5%).

This model allows for predictions of average incidence of injury expected for each athlete, using the following equation:

average number of injuries = e^{e 0, 475 + 0, 025 \times time + 0, 460 \times federated + 0, 451 \times surgery}

Discussion

Popularly, surfing is a sport practiced by athletes of different ages and often associated with long periods of practice. In the present study, the average practice time among the participants of the survey was 2.4 daily hours, with a weekly frequency of 3.5 days. Moreover, 29 surfers (44%) reported practicing the sport for over 10 years. Similar results were observed by Moraes et al.¹⁰10 Moraes GC, Guimarães ATB, Gomes ARS. Análise da prevalência de lesões em surfistas do litoral paranaense. Acta Ortop Bras. 2013;21(4):213-8., who investigated the prevalence of injuries in surfers from the coast of Paraná, where the majority of participants (47%) stated they had been surfing for 10 years or more, practicing the sport from 2 to 4 times a week (65%), 2 to 4 hours per day (92%). Similarly, Steinman et al.⁶6 Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15., when investigating the Northeast, Southeast and South of Brazil found that their participants practiced the sport an average of 2.6 days per week, with an average duration of 2.6 hours.

In this study, the participants were subdivided into categories, with most belonging to the recreational category (65%), followed by 23% belonging to the amateur category and only 12% to the Professional category. Moraes et al.¹⁰10 Moraes GC, Guimarães ATB, Gomes ARS. Análise da prevalência de lesões em surfistas do litoral paranaense. Acta Ortop Bras. 2013;21(4):213-8. showed similar results, with 70% of the sample being recreational surfers, 28% amateurs and 2% professionals. These outcomes are supported by another study by Base et al.⁷7 Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3., whose also concluded that the sample was of surfers belonging to the recreational category (67%), followed by amateurs (29%) and professionals (3%) of the coastal States of the Northeast, Southeast and South of Brazil.

Regarding the level of physical activity, the ACSM - American College of Sports Medicine¹⁸18 American College of Sports Medicine (ACSM). Exercise is good for the earth, good for the body. 2007 [cited 2015 Ago 03]. Available from: https://tinyurl.com/mts6uwc
https://tinyurl.com/mts6uwc... - emphasizes that in order to promote and maintain health, it is necessary that healthy adults practice moderate aerobic physical activity for at least 30 minutes a day, five times a week. Alternatively, those adults can engage in intense aerobic physical activities for at least 20 minutes a day, three times a week. Most surfers in this study were categorized as very active (60.6%) or active (36.4%), according to IPAQ, which is consistent with Romariz et al.’s study¹⁹19 Romariz JK, Guimarães ACA, Marinho A. Qualidade de vida relacionada à prática de atividade física de surfistas. Motriz: J Phys Ed. 2011;17(3):477-85., in which 83.2% of the investigated surfers were classified as very active (83.2%).

Concerning BMI, Mendez-Villanueva and Bishop¹1 Mendez-Villanueva A, Bishop D. Physiological aspects of surfboard riding performance. Sports Med. 2005;35(1):55-70. indicated that excessive weight can be disadvantageous when executing some specific surfing maneuvers, as well as when practicing the sport, since coordination and performance stamina may be affected. In this sense, the practice of physical exercise can directly influence the control and maintenance of body weight, as it is able to reduce the amount of fat and increase or maintain lean body mass. In our study, most surfers were classified as eutrophic (73%), suggesting that the level of physical activity is contributing in the regulation of body mass.

In our study, 60 out of 66 participants reported some type of injury, leading to a total of 178 injury occurrences, from the period when the practice of surfing started until the time of the survey. Taylor et al.²⁰20 Taylor DM, Bennedett D, Carter M, Garewal D, Finch C. Perceptions of surfboard riders regarding the need for protective headgear. Wilderness Environ Med. 2005;16(2):75-80., in a study conducted in Australia with 646 surfers of different levels of training, reported that 145 surfers presented 168 acute injuries over the previous 12 months, constituting 0.26 injuries per surfer in a one-year period. Another similar study²¹21 Furness J, Hing W, Walsh J, Abbott A, Sheppard JM, Climstein M. Acute Injuries in Recreational and Competitive Surfers: Incidence, Severity, Location, Type, and Mechanism. Am J Sports Med. 2015; 43 (5):1246-54., also conducted in Australia, indicated that out of a total of 1,348 surfers, 512 participants reported acute injuries over 12 months, totaling 739 injuries and constituting the rate of 1.79 injuries per 1,000 hours surfed. Considering this rate, surfing seems to be a relatively safe sport, since other sports, such as Australian football, has an injury rate of 25.7 injuries per 1,000 hours played²¹21 Furness J, Hing W, Walsh J, Abbott A, Sheppard JM, Climstein M. Acute Injuries in Recreational and Competitive Surfers: Incidence, Severity, Location, Type, and Mechanism. Am J Sports Med. 2015; 43 (5):1246-54..

Regarding the prevalence of the type of injuries, it can be seen that the majority of them occurs in the integumentary system (lacerations and burns), representing 46.6% of the cases, followed by 28.1% of muscle injuries (contusions and strains), 14.6% of ligament injuries (sprains), 3.4% of joint injuries (dislocations), and only 1.1% of fractures. Steinman et al.⁶6 Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15. reported that 44% of injuries are lacerations and 17% contusions. Similarly, Moran and Webber²²22 Moran K, Webber J. Surfing Injuries Requiring First Aid in New Zealand, 2007-2012. Int J Aquatic Res Educ. 2013;7(3):192-203. found that lacerations (59%) and contusions (15%) were responsible for the majority of injuries. In Base et al.⁷7 Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3., most of the injuries found in professional surfers were contusions (29%), followed by lacerations (23%). Moraes et al.¹⁰10 Moraes GC, Guimarães ATB, Gomes ARS. Análise da prevalência de lesões em surfistas do litoral paranaense. Acta Ortop Bras. 2013;21(4):213-8. showed that the prevalent type of injury was contusion (29%). Likewise, Mitchell et al.²³23 Mitchell R, Brighton B, Sherker S. The epidemiology of competition and training-based surf sport-related injury in Australia, 2003-2011. J Sci Med Sport. 2013;16(1):18-21. indicated that contusions comprised 25.3%, while lacerations comprised 19.1% of the total number of injuries during surfing training and competition. Woodacre et al.²⁴24 Woodacre T, Waydia SE, Wienand-Barnett S. Aetiology of injuries and the need for protective equipment for surfers in the UK. Injury. 2015;46(1):162-5. found that lacerations corresponded to 31% of the injuries, followed by contusions (24%). In addition, Nathanson et al.⁹9 Nathanson A, Bird S, Dao L, Tam-sing K. Competitive Surfing Injuries: A Prospective Study of Surfing-Related Injuries Among Contest Surfers. Am J Sports Med. 2007;35(1):113-7. showed that lacerations and contusions were the second and third most common type of injury, respectively.

Among the most affected body parts, considering the type of injury, it was observed that 44.9% (n = 80) of injuries affected the lower limbs, with the integumentary system being the most affected (lacerations and burns). As for the other parts, 20.2% (n = 36) of injuries affected the upper limbs, with the muscle system being the most affected (contusions and strains), 18.5% (n = 33) of injuries affected the head, with the integumentary system being the most affected, and 16.3% (n = 29) of injuries affected the trunk, with the muscle system being the most affected. Likewise, Steinman et al.⁶6 Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15. reported that the most frequent lacerations were in the lower limbs. Feet (22%) and legs (11%) were the most affected areas. Mathur et al.¹⁰10 Moraes GC, Guimarães ATB, Gomes ARS. Análise da prevalência de lesões em surfistas do litoral paranaense. Acta Ortop Bras. 2013;21(4):213-8. also observed that lacerations in the feet were the most frequent ones (9%). Nathanson et al.⁹9 Nathanson A, Bird S, Dao L, Tam-sing K. Competitive Surfing Injuries: A Prospective Study of Surfing-Related Injuries Among Contest Surfers. Am J Sports Med. 2007;35(1):113-7. indicated that the most common injuries in amateur surfers are lacerations on the head and on lower limbs. Moran and Webber²¹21 Furness J, Hing W, Walsh J, Abbott A, Sheppard JM, Climstein M. Acute Injuries in Recreational and Competitive Surfers: Incidence, Severity, Location, Type, and Mechanism. Am J Sports Med. 2015; 43 (5):1246-54. affirmed that the head was affected by injuries the most (32%), the main cause being contusion (50%). Furness et al.²⁵25 Furness J, Hing W, Abbott A, Walsh J. Retrospective analysis of chronic injuries in recreational and competitive surfers: Injury Location, Type, and Mechanism. Int J Aquatic Res Educ. 2014;8(3):277-87. reported that the lower back corresponded to 23.2% of the total chronic injuries, followed by 22.4% for the shoulders, and 12.1% for the knees, but the authors did not associate which type of injury was the most recurrent per area. Therefore, it can be suggested that the surfers on the coast of Paraná presented the same types of injuries when compared to those reported in other locations in Brazil and in the world: the most frequent injuries were lacerations and contusions, while the lower limbs were the most affected areas.

In Base et al.⁸8 Dimmick S, Gillett M, Sheehan P, Sutton C, Anderson SE. Acute injuries and chronic pathology of the head and face sustained while surf board riding. Trauma. 2014;16(3):195-201., muscle strain had a prevalence of 12.5%. In Steinman et al.⁷7 Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3., this injury was responsible for 9.6% of total injuries. In our study, muscle strain was reported as an injury in the muscle system (along with contusions), which represents 28.1% of the total injuries, similar to the study by Furness²¹21 Furness J, Hing W, Walsh J, Abbott A, Sheppard JM, Climstein M. Acute Injuries in Recreational and Competitive Surfers: Incidence, Severity, Location, Type, and Mechanism. Am J Sports Med. 2015; 43 (5):1246-54., which reported that 30.3% of the injuries were in the muscle system. Therefore, the comparison with some studies is limited due to methodological criteria. Research conducted by Lowdon et al.²⁶26 Lowdon BJ, Pateman NA, Pitman AJ. Surfboard-riding injuries. Med J Aust.1983;2(12):613-6.^{), (}²⁷27 Lowdon BJ, Pateman NA, Pitman AJ, Ross K . Injuries to international surfboard riders. J Sports Med Phys Fitness. 1987;27(1):57-63., in which sprains and strains were quantified together as muscle-ligament injuries, are examples of the limitation.

Sprain, reported as an injury in the ligament system in our study, represented 14.6% of the total injuries, with prevalence in the lower limbs. The main factor responsible for this type of injury was the maneuvers (10.1%). In Moraes et al.¹⁰10 Moraes GC, Guimarães ATB, Gomes ARS. Análise da prevalência de lesões em surfistas do litoral paranaense. Acta Ortop Bras. 2013;21(4):213-8., sprain represented 9% of the total injuries and affected mostly the lower limbs. In their research, the maneuvers were also the main factor responsible for this type of injury (47%), which is similar to the findings of our study. Woodacre et al.²⁴24 Woodacre T, Waydia SE, Wienand-Barnett S. Aetiology of injuries and the need for protective equipment for surfers in the UK. Injury. 2015;46(1):162-5. indicate that joint sprains were the third most frequent type of injury (15%). At the same time, Taylor et al.²⁰20 Taylor DM, Bennedett D, Carter M, Garewal D, Finch C. Perceptions of surfboard riders regarding the need for protective headgear. Wilderness Environ Med. 2005;16(2):75-80. reported that this type represented 28.6% of total injuries, but Steinman et al.⁶6 Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15. indicated that only 6% of total injuries were joint sprains.

Joint injuries (dislocations) occurred only in 3.4% of the total number of injuries, as well as in Steinman et al.⁶6 Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15., in which dislocations were reported by 3.0% of respondents. In Base et al.⁷7 Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3. and Nathanson et al.²⁸28 Nathanson A, Haynes P, Galanis D. Surfing injuries. Am J Emer Med. 2002;20(3):155-60. no complaints of dislocations were found.

In the present study, fractures accounted for only 1.1% of all injuries and its main causative agents were the maneuvers and falling off the board, with the head and the lower limbs being the most affected body parts. These results are similar to those found in Steinman et al.⁶6 Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15. and Woodacre et al.²⁴24 Woodacre T, Waydia SE, Wienand-Barnett S. Aetiology of injuries and the need for protective equipment for surfers in the UK. Injury. 2015;46(1):162-5., in which the fractures were responsible for 2.5% and 3% of the total injuries, respectively. In Base et al.⁷7 Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3., the fractures represent 5.4% of total injuries, similar to the 6.0% found by Nathanson et al.²⁸28 Nathanson A, Haynes P, Galanis D. Surfing injuries. Am J Emer Med. 2002;20(3):155-60.. Lowdon et al.²⁷27 Lowdon BJ, Pateman NA, Pitman AJ, Ross K . Injuries to international surfboard riders. J Sports Med Phys Fitness. 1987;27(1):57-63. reported 9.0% of occurrence, and Taylor et al.²⁰20 Taylor DM, Bennedett D, Carter M, Garewal D, Finch C. Perceptions of surfboard riders regarding the need for protective headgear. Wilderness Environ Med. 2005;16(2):75-80. indicated 8.9%. In all these studies, fractures were more frequent in lower limbs and had maneuvers as the main Etiologic Agent, in line with the findings of our study. On the other hand, Sano and Yotsumoto²⁹29 Sano A, Yotsumoto T. Chest injuries related to surfing. Asian Cardiovasc Thorac Ann. 2015;23(7):839-41. have demonstrated the occurrence of single rib fractures in 50% of surfers admitted in hospital service with chest injuries, during a six-year period, compared to 21% of people with chest injuries associated with other sports.

Integumentary system injuries (burns and lacerations), which are the most frequent type of injuries in our study, can be explained by the fact that marine animals that cause burns, like jellyfish and the Portuguese man o’war, seek warmer waters, such as the ones on the coast of Paraná. This fact was not found in the study by Lowdon et al.²⁷27 Lowdon BJ, Pateman NA, Pitman AJ, Ross K . Injuries to international surfboard riders. J Sports Med Phys Fitness. 1987;27(1):57-63., carried out in Southeastern Australia, where the temperature of the water is cold, causing low appearance of jellyfish. In relation to lacerations, these can be attributed to contact between some part of the body and sharp structures of the board, such as the keels and the beak; or due to the impact of the surfer with the seabed or stones near the surfing site.

Muscle and ligament injuries (which are the 2nd and 3rd most frequent types of injuries in our study, respectively) may suggest predisposition to injuries of a traumatic nature due to the repetitive strain; therefore, inadequate physical preparation and the characteristics of the sport may be direct causes of these injuries. Thus, further research on the topic is needed.

We found in our study that criteria such as surfing time, whether the surfer is a member of a federation, and surgery history predict a statistically higher average of estimated injuries. For the surfing practice time variable, estimate indicated that the average number of injuries grows 2.5% every year, demonstrating that an athlete with 25 years of practice, who is a member of a federation and has a history of surgery, will have an average of 7.4 injuries throughout their career.

Information about the average estimate of injuries presented in this study are consistent with the recommendations suggested by Steinman et al.⁶6 Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15., which show the importance of conducting studies to quantitatively estimate the incidence of injuries. This is important to support the development and adoption of strategies for the prevention and treatment of injuries. In this sense, the strategies can be directed from the use of protective equipment⁶6 Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15.^{), (}⁷7 Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3.^{), (}⁸8 Dimmick S, Gillett M, Sheehan P, Sutton C, Anderson SE. Acute injuries and chronic pathology of the head and face sustained while surf board riding. Trauma. 2014;16(3):195-201.^{), (}²⁰20 Taylor DM, Bennedett D, Carter M, Garewal D, Finch C. Perceptions of surfboard riders regarding the need for protective headgear. Wilderness Environ Med. 2005;16(2):75-80.^{), (}²⁴24 Woodacre T, Waydia SE, Wienand-Barnett S. Aetiology of injuries and the need for protective equipment for surfers in the UK. Injury. 2015;46(1):162-5. to the prevention of risk behavior³⁰30 Harding AK, Stone DL, Cardenas A, Lesser V. Risk behaviors and self-reported illnesses among Pacific Northwest surfers. J Water Health. 2015;13(1):230-42., and even the insertion and adequacy of surfers’ physical preparation⁶6 Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15.. In addition, it is suggested the adoption of habits to reduce risks of injuries such as warm up exercises before surfing¹⁰10 Moraes GC, Guimarães ATB, Gomes ARS. Análise da prevalência de lesões em surfistas do litoral paranaense. Acta Ortop Bras. 2013;21(4):213-8..

Conclusion

Surfers of the coast of Paraná showed a high prevalence of injuries, most of which occurred in the lower limbs and affected the integumentary system. The prevalence of injuries was influenced by factors such as higher practice time, previous surgeries, and federation membership. Therefore, we suggest the adoption of strategies to reduce the exposure of surfers to factors that predispose to injuries. In order to avoid such injuries, some of the strategies are the development and use of protective equipment, educational campaigns addressing the need of habits that reduce the risks of injury, physical preparation according to the specificities of the sport and category, and proper rehabilitation after surgical procedures, with the purpose of accelerating the return to the sport. The present study provides evidence that the aforementioned measures may be especially important for federated surfers who compete professionally.

Acknowledgements

The authors would like to thank the Statistical Laboratory (Laboratorio de estatística da UFPR, LABTEST) for the assistance with the statistical analysis and also the Academic Publishing Advisory Center (Centro de Assessoria de Publicação Acadêmica, CAPA - www.capa.ufpr.br) of the Federal University of Paraná for assistance with English language editing. A.R.S. Gomes is a recipient of a productivity fellowship from the CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico, Process number 306179/2016-4).

References

¹
Mendez-Villanueva A, Bishop D. Physiological aspects of surfboard riding performance. Sports Med. 2005;35(1):55-70.
²
Mendez-Villanueva A, Bishop D, Hamer P. Activity profile of world-class professional surfers during competition: A case study. J Strength Cond Res. 2006;20(3):477-82.
³
Sheppard JM, Nimphius S, Haff GG, Tran TT, Spiteri T, Brooks H, Slater G, Newton RU. Development of a comprehensive performance-testing protocol for competitive surfers. Int J Sports Physiol Perform. 2013;8(5):490-5.
⁴
Aguerre F. Surfing And The Olympics. International Surfing Association - ISA. [Serial on the internet] 2015 [cited 2015 Jul 2] Available from: https://tinyurl.com/kosk6ch
» https://tinyurl.com/kosk6ch
⁵
Brasil. Ministério do Esporte. Diagnóstico Nacional do Esporte - Diesporte. Ministério do Esporte. 2015 [cited 2015 Jul 2] Available from: https://tinyurl.com/mqpcl2j
» https://tinyurl.com/mqpcl2j
⁶
Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15.
⁷
Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3.
⁸
Dimmick S, Gillett M, Sheehan P, Sutton C, Anderson SE. Acute injuries and chronic pathology of the head and face sustained while surf board riding. Trauma. 2014;16(3):195-201.
⁹
Nathanson A, Bird S, Dao L, Tam-sing K. Competitive Surfing Injuries: A Prospective Study of Surfing-Related Injuries Among Contest Surfers. Am J Sports Med. 2007;35(1):113-7.
¹⁰
Moraes GC, Guimarães ATB, Gomes ARS. Análise da prevalência de lesões em surfistas do litoral paranaense. Acta Ortop Bras. 2013;21(4):213-8.
¹¹
Marques AP, Peccin MS. Pesquisa em fisioterapia: a prática baseada em evidências e modelos de estudos. Fisioter Pesq. 2005;11(1):43-8.
¹²
Brasil. Ministério da Saúde. Biblioteca Virtual em Saúde do Ministério da Saúde. Folder Obesidade. 2009 [cited 2015 May 25]. Available from: https://tinyurl.com/nx4akrb
» https://tinyurl.com/nx4akrb
¹³
Matsudo S, Araújo T, Matsudo V, Andrade D, Andrade E, Oliveira LC, et al. Questionário Internacional de Atividade Física (IPAQ): estudo de validade e reprodutibilidade no Brasil. Rev Bras Ativ Fís e Saú. 2001;6(2):5-18.
¹⁴
Pardini R, Matsudo S, Araújo T, Matsudo V, Andrade E, Braggion G, et al. Validação do questionário internacional de nível de atividade física (IPAQ - versão 6): estudo piloto em adultos jovens brasileiros. Rev Bras Ciên Mov. 2001;9(3):45-51.
¹⁵
International Physical Activity Questionnaire (IPAQ). Guidelines for data processing and analysis of the International Physical Activity Questionnaire (IPAQ) - short and long forms. 2004 [cited 2015 May 25]. Available from: http://www.ipaq. ki.se/scoring.pdf
» http://www.ipaq. ki.se/scoring.pdf
¹⁶
Hoshi RA, Pastre CM, Vanderlei LCM, Netto Jr J, Bastos FN. Lesões desportivas na ginástica artística: estudo a partir de morbidade referida. Rev Bras Med Esporte. 2008;14(5):440-5.
¹⁷
Magalhães MN, Lima ACP. Noções de probabilidade e estatística. 6th ed. São Paulo: USP; 2005.
¹⁸
American College of Sports Medicine (ACSM). Exercise is good for the earth, good for the body. 2007 [cited 2015 Ago 03]. Available from: https://tinyurl.com/mts6uwc
» https://tinyurl.com/mts6uwc
¹⁹
Romariz JK, Guimarães ACA, Marinho A. Qualidade de vida relacionada à prática de atividade física de surfistas. Motriz: J Phys Ed. 2011;17(3):477-85.
²⁰
Taylor DM, Bennedett D, Carter M, Garewal D, Finch C. Perceptions of surfboard riders regarding the need for protective headgear. Wilderness Environ Med. 2005;16(2):75-80.
²¹
Furness J, Hing W, Walsh J, Abbott A, Sheppard JM, Climstein M. Acute Injuries in Recreational and Competitive Surfers: Incidence, Severity, Location, Type, and Mechanism. Am J Sports Med. 2015; 43 (5):1246-54.
²²
Moran K, Webber J. Surfing Injuries Requiring First Aid in New Zealand, 2007-2012. Int J Aquatic Res Educ. 2013;7(3):192-203.
²³
Mitchell R, Brighton B, Sherker S. The epidemiology of competition and training-based surf sport-related injury in Australia, 2003-2011. J Sci Med Sport. 2013;16(1):18-21.
²⁴
Woodacre T, Waydia SE, Wienand-Barnett S. Aetiology of injuries and the need for protective equipment for surfers in the UK. Injury. 2015;46(1):162-5.
²⁵
Furness J, Hing W, Abbott A, Walsh J. Retrospective analysis of chronic injuries in recreational and competitive surfers: Injury Location, Type, and Mechanism. Int J Aquatic Res Educ. 2014;8(3):277-87.
²⁶
Lowdon BJ, Pateman NA, Pitman AJ. Surfboard-riding injuries. Med J Aust.1983;2(12):613-6.
²⁷
Lowdon BJ, Pateman NA, Pitman AJ, Ross K . Injuries to international surfboard riders. J Sports Med Phys Fitness. 1987;27(1):57-63.
²⁸
Nathanson A, Haynes P, Galanis D. Surfing injuries. Am J Emer Med. 2002;20(3):155-60.
²⁹
Sano A, Yotsumoto T. Chest injuries related to surfing. Asian Cardiovasc Thorac Ann. 2015;23(7):839-41.
³⁰
Harding AK, Stone DL, Cardenas A, Lesser V. Risk behaviors and self-reported illnesses among Pacific Northwest surfers. J Water Health. 2015;13(1):230-42.

Publication Dates

Publication in this collection
2017

History

Received
07 Dec 2015
Accepted
14 Mar 2017

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

[1] ¹
Mendez-Villanueva A, Bishop D. Physiological aspects of surfboard riding performance. Sports Med. 2005;35(1):55-70.

[2] ²
Mendez-Villanueva A, Bishop D, Hamer P. Activity profile of world-class professional surfers during competition: A case study. J Strength Cond Res. 2006;20(3):477-82.

[3] ³
Sheppard JM, Nimphius S, Haff GG, Tran TT, Spiteri T, Brooks H, Slater G, Newton RU. Development of a comprehensive performance-testing protocol for competitive surfers. Int J Sports Physiol Perform. 2013;8(5):490-5.

[4] ⁴
Aguerre F. Surfing And The Olympics. International Surfing Association - ISA. [Serial on the internet] 2015 [cited 2015 Jul 2] Available from: https://tinyurl.com/kosk6ch
» https://tinyurl.com/kosk6ch

[5] ⁵
Brasil. Ministério do Esporte. Diagnóstico Nacional do Esporte - Diesporte. Ministério do Esporte. 2015 [cited 2015 Jul 2] Available from: https://tinyurl.com/mqpcl2j
» https://tinyurl.com/mqpcl2j

[6] ⁶
Steinman J, Vasconcellos EH, Ramos RM, Botelho JL, Nahas MV. Epidemiologia dos acidentes no surfe no Brasil. Rev Bras Med Esp. 2000;6(1):9-15.

[7] ⁷
Base LH, Alves MAF, Martins EO, Costa RF. Lesões em surfistas profissionais. Rev Bras Med Esp. 2007;13(4):251-3.

[8] ⁸
Dimmick S, Gillett M, Sheehan P, Sutton C, Anderson SE. Acute injuries and chronic pathology of the head and face sustained while surf board riding. Trauma. 2014;16(3):195-201.

[9] ⁹
Nathanson A, Bird S, Dao L, Tam-sing K. Competitive Surfing Injuries: A Prospective Study of Surfing-Related Injuries Among Contest Surfers. Am J Sports Med. 2007;35(1):113-7.

[10] ¹⁰
Moraes GC, Guimarães ATB, Gomes ARS. Análise da prevalência de lesões em surfistas do litoral paranaense. Acta Ortop Bras. 2013;21(4):213-8.

[11] ¹¹
Marques AP, Peccin MS. Pesquisa em fisioterapia: a prática baseada em evidências e modelos de estudos. Fisioter Pesq. 2005;11(1):43-8.

[12] ¹²
Brasil. Ministério da Saúde. Biblioteca Virtual em Saúde do Ministério da Saúde. Folder Obesidade. 2009 [cited 2015 May 25]. Available from: https://tinyurl.com/nx4akrb
» https://tinyurl.com/nx4akrb

[13] ¹³
Matsudo S, Araújo T, Matsudo V, Andrade D, Andrade E, Oliveira LC, et al. Questionário Internacional de Atividade Física (IPAQ): estudo de validade e reprodutibilidade no Brasil. Rev Bras Ativ Fís e Saú. 2001;6(2):5-18.

[14] ¹⁴
Pardini R, Matsudo S, Araújo T, Matsudo V, Andrade E, Braggion G, et al. Validação do questionário internacional de nível de atividade física (IPAQ - versão 6): estudo piloto em adultos jovens brasileiros. Rev Bras Ciên Mov. 2001;9(3):45-51.

[15] ¹⁵
International Physical Activity Questionnaire (IPAQ). Guidelines for data processing and analysis of the International Physical Activity Questionnaire (IPAQ) - short and long forms. 2004 [cited 2015 May 25]. Available from: http://www.ipaq. ki.se/scoring.pdf
» http://www.ipaq. ki.se/scoring.pdf

[16] ¹⁶
Hoshi RA, Pastre CM, Vanderlei LCM, Netto Jr J, Bastos FN. Lesões desportivas na ginástica artística: estudo a partir de morbidade referida. Rev Bras Med Esporte. 2008;14(5):440-5.

[17] ¹⁷
Magalhães MN, Lima ACP. Noções de probabilidade e estatística. 6th ed. São Paulo: USP; 2005.

[18] ¹⁸
American College of Sports Medicine (ACSM). Exercise is good for the earth, good for the body. 2007 [cited 2015 Ago 03]. Available from: https://tinyurl.com/mts6uwc
» https://tinyurl.com/mts6uwc

[19] ¹⁹
Romariz JK, Guimarães ACA, Marinho A. Qualidade de vida relacionada à prática de atividade física de surfistas. Motriz: J Phys Ed. 2011;17(3):477-85.

[20] ²⁰
Taylor DM, Bennedett D, Carter M, Garewal D, Finch C. Perceptions of surfboard riders regarding the need for protective headgear. Wilderness Environ Med. 2005;16(2):75-80.

[21] ²¹
Furness J, Hing W, Walsh J, Abbott A, Sheppard JM, Climstein M. Acute Injuries in Recreational and Competitive Surfers: Incidence, Severity, Location, Type, and Mechanism. Am J Sports Med. 2015; 43 (5):1246-54.

[22] ²²
Moran K, Webber J. Surfing Injuries Requiring First Aid in New Zealand, 2007-2012. Int J Aquatic Res Educ. 2013;7(3):192-203.

[23] ²³
Mitchell R, Brighton B, Sherker S. The epidemiology of competition and training-based surf sport-related injury in Australia, 2003-2011. J Sci Med Sport. 2013;16(1):18-21.

[24] ²⁴
Woodacre T, Waydia SE, Wienand-Barnett S. Aetiology of injuries and the need for protective equipment for surfers in the UK. Injury. 2015;46(1):162-5.

[25] ²⁵
Furness J, Hing W, Abbott A, Walsh J. Retrospective analysis of chronic injuries in recreational and competitive surfers: Injury Location, Type, and Mechanism. Int J Aquatic Res Educ. 2014;8(3):277-87.

[26] ²⁶
Lowdon BJ, Pateman NA, Pitman AJ. Surfboard-riding injuries. Med J Aust.1983;2(12):613-6.

[27] ²⁷
Lowdon BJ, Pateman NA, Pitman AJ, Ross K . Injuries to international surfboard riders. J Sports Med Phys Fitness. 1987;27(1):57-63.

[28] ²⁸
Nathanson A, Haynes P, Galanis D. Surfing injuries. Am J Emer Med. 2002;20(3):155-60.

[29] ²⁹
Sano A, Yotsumoto T. Chest injuries related to surfing. Asian Cardiovasc Thorac Ann. 2015;23(7):839-41.

[30] ³⁰
Harding AK, Stone DL, Cardenas A, Lesser V. Risk behaviors and self-reported illnesses among Pacific Northwest surfers. J Water Health. 2015;13(1):230-42.

Characteristics	Mean ± SEM (%)
Age (years, mean ± EPM)	26.16 ± 0.72
Practice time	10.12 ± 1
0 to 5 years	22 (33)
5 to 10 years	15 (23)
Above 10 years	29 (44)
Weekly frequency (days/week)	3.5 ± 0.2
Number of hours per day	2.4 ± 0.15
Surfing practice index (hours/week/year)	4998 ± 863
Little practice	34 (52)
Moderate practice	12 (18)
Intense practice	20 (30)
Category
Amateur	15 (23)
Recreational	43 (65)
Professional	8 (12)
Federated
Yes	17 (26)
No	49 (74)
Classification of BMI
Low weight	4 (6)
Eutrophic	48 (73)
Overweight	13 (20)
Obese	1 (2)

IPAQ	Mean ± SEM
Type of activity (minutes/week)	1541.9 ± 148.3
Work	342.5 ± 97.5
Transport	285.0 ± 38.2
House	238.2 ± 32.6
Leisure	676.0 ± 67.8
Total per domains (minutes/week)	1541.9 ± 148.3
Walking	377.5 ± 62.8
Moderated	666.7 ± 63.5
Vigorous	497.7 ± 68.4
Classification (absolute and relative frequency (%)
Very active	40 (60.6)
Active	24 (36.4)
Active enough	1 (1.5)

	Head	Upper body	UL	LL	Total
Integumentary	20 (11.2)	9 (5.1)	12 (6.7)	42 (23.6)	83 (46.6)
Muscle	8 (4.5)	14 (7.9)	13 (7.3)	15 (8.4)	50 (28.1)
Bone	1 (0.6)	0 (0)	0 (0)	1 (0.6)	2 (1.1)
Joint	0 (0)	0 (0)	4 (2.2)	2 (1.1)	6 (3.4)
Ligament	0 (0)	0 (0)	7 (3.9)	19 (10.7)	26 (14.6)
Other	4 (2.2)	6 (3.4)	0 (0)	1 (0.6)	11 (6.2)
Total	33 (18.5)	29 (16.3)	36 (20.2)	80 (44.9)	178 (100)

	Paddling	Drop and shock	Animal	Maneuver	Total
Integumentary	12 (6.7)	43 (24.2)	16 (9.0)	12 (6.7)	83 (46.4)
Muscle	14 (7.9)	19 (10.7)	1 (0.6)	16 (9.0)	50 (28.1)
Bone	0 (0)	1 (0.6)	0 (0)	1 (0.6)	2 (1.1)
Joint	2 (1.1)	3 (1.7)	0 (0)	1 (0.6)	6 (3.4)
Ligament	4 (2.2)	4 (2.2)	0 (0)	18 (10.1)	26 (14.6)
Other	3 (1.7)	2 (1.1)	4 (2.2)	2 (1.1)	11 (6.2)
Total	35 (19.7)	72 (40.4)	21 (11.8)	50 (28.1)	178 (100)

	Estimate	Standard error	z value	p value
Intercept	0.475	0.139	3.412	0.0006
Time surfing	0.025	0.010	2.517	0.0118
Federated	0.460	0.172	2.667	0.0076
Surgery	0.451	0.180	2.507	0.0122

Brasil

Brasil

Influence of practice time on surfing injuries

Influência do tempo de prática sobre as lesões decorrentes do surf

Abstract

Introduction:

Objective:

Methods:

Results:

Conclusion:

Resumo

Introdução:

Objetivo:

Métodos:

Resultados:

Conclusão:

Introduction

Methods

Anthropometric assessment

Physical Activity Level (IPAQ-International Physical Activity Questionnaire - long form)

The surfing practice index

Referred Morbidity Survey (RMS)

Data analysis

Results

Discussion

Conclusion

Acknowledgements

References

Publication Dates

History