Intrinsic Risk Factors and Athletic Injuries
Summary The benefits of physical activity are widely known. However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentou...
Ausführliche Beschreibung
Autor*in: |
Taimela, Simo [verfasserIn] |
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E-Artikel |
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Sprache: |
Englisch |
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1990 |
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Anmerkung: |
© ADIS Press Limited 1990 |
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Übergeordnetes Werk: |
Enthalten in: Sports medicine - Berlin [u.a.] : Springer, 1984, 9(1990), 4 vom: Apr., Seite 205-215 |
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Übergeordnetes Werk: |
volume:9 ; year:1990 ; number:4 ; month:04 ; pages:205-215 |
Links: |
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DOI / URN: |
10.2165/00007256-199009040-00002 |
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520 | |a Summary The benefits of physical activity are widely known. However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentous laxity, central motor control, psychological and psychosocial factors as well as general mental ability are factors in the predisposition to injury. Junior (15 to 16 years) and senior athletes seem to be at a higher risk of injury in many types of sport. However, the relationship between age and injuries apparently depends on both the type and intensity of activity practiced. The majority of injured athletes in many studies have been males. Men are, however, more likely to participate in vigorousexercise and sport and it is not known if men are at a generally higher risk of injury when the exposure is taken into account. Certain lesions, such as sprains, strains and dislocations, tend to recur. Previous injuries may necessarily not cause a repetition of injury if treated adequately, but certain individuals may be at a higher risk of injury due to injury-prone biological characteristics. Excessive height and weight have been shown to predispose to stress injuries in physical training. Idiopathic or acquired abnormalities in the anatomy or biomechanics in any joint may lead to a local injury. However, physical requirements vary widely between different types of activity and predisposition to injury due to anatomical or biomechanical factors seems to be characteristic for each type of exercise. Lack of fitness, muscle weakness, joint looseness and poor general flexibility have been suggested as factors in the outcome of athletic injuries but no definite conclusions can be made on the basis of the existing literature. Long simple reaction times to visual stimuli and long choice reaction times to visual stimuli have recently been related to musculoskeletal injuries. No exceptional personality dimension in injury proneness as a whole has been found and the results from specific groups cannot be extrapolated generally. Accumulation of life stress apparently predisposes to an athletic injury. Musculoskeletal injuries seem to be more common in subjects with lower scores in intelligence tests but no causation has been shown yet. Altogether, a complex network of risk factors for athletic injuries has been found. However, no prospective study including all the recognised injury risk factors has been presented in the literature. Further research is needed in the subject. It has been shown that injury rates in athletes can be decreased by modifying coaching and efforts to prevent injuries can therefore be recommended. Each type of activity has its characteristic injury profile and degree of risk and the type of injuries vary widely. Athletes, coaches and supervisors should be aware of the risk factors concerning the specific type of activity they are involved in. Anatomical considerations, motor performance requirements and psychological factors are particularly important. In addition major exposure to injury in a state of high life stress should be avoided in any type of physical activity. Athletes, coaches and supervisors should also be aware of the relevance of adequate treatment and rehabilitation after an injury to avoid recurrence of injuries. | ||
650 | 4 | |a Injury Rate |7 (dpeaa)DE-He213 | |
650 | 4 | |a Choice Reaction Time |7 (dpeaa)DE-He213 | |
650 | 4 | |a Sport Injury |7 (dpeaa)DE-He213 | |
650 | 4 | |a Football Player |7 (dpeaa)DE-He213 | |
650 | 4 | |a Musculoskeletal Injury |7 (dpeaa)DE-He213 | |
700 | 1 | |a Kujala, Urho M. |4 aut | |
700 | 1 | |a Osterman, Kalevi |4 aut | |
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10.2165/00007256-199009040-00002 doi (DE-627)SPR03561336X (SPR)00007256-199009040-00002-e DE-627 ger DE-627 rakwb eng Taimela, Simo verfasserin aut Intrinsic Risk Factors and Athletic Injuries 1990 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier © ADIS Press Limited 1990 Summary The benefits of physical activity are widely known. However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentous laxity, central motor control, psychological and psychosocial factors as well as general mental ability are factors in the predisposition to injury. Junior (15 to 16 years) and senior athletes seem to be at a higher risk of injury in many types of sport. However, the relationship between age and injuries apparently depends on both the type and intensity of activity practiced. The majority of injured athletes in many studies have been males. Men are, however, more likely to participate in vigorousexercise and sport and it is not known if men are at a generally higher risk of injury when the exposure is taken into account. Certain lesions, such as sprains, strains and dislocations, tend to recur. Previous injuries may necessarily not cause a repetition of injury if treated adequately, but certain individuals may be at a higher risk of injury due to injury-prone biological characteristics. Excessive height and weight have been shown to predispose to stress injuries in physical training. Idiopathic or acquired abnormalities in the anatomy or biomechanics in any joint may lead to a local injury. However, physical requirements vary widely between different types of activity and predisposition to injury due to anatomical or biomechanical factors seems to be characteristic for each type of exercise. Lack of fitness, muscle weakness, joint looseness and poor general flexibility have been suggested as factors in the outcome of athletic injuries but no definite conclusions can be made on the basis of the existing literature. Long simple reaction times to visual stimuli and long choice reaction times to visual stimuli have recently been related to musculoskeletal injuries. No exceptional personality dimension in injury proneness as a whole has been found and the results from specific groups cannot be extrapolated generally. Accumulation of life stress apparently predisposes to an athletic injury. Musculoskeletal injuries seem to be more common in subjects with lower scores in intelligence tests but no causation has been shown yet. Altogether, a complex network of risk factors for athletic injuries has been found. However, no prospective study including all the recognised injury risk factors has been presented in the literature. Further research is needed in the subject. It has been shown that injury rates in athletes can be decreased by modifying coaching and efforts to prevent injuries can therefore be recommended. Each type of activity has its characteristic injury profile and degree of risk and the type of injuries vary widely. Athletes, coaches and supervisors should be aware of the risk factors concerning the specific type of activity they are involved in. Anatomical considerations, motor performance requirements and psychological factors are particularly important. In addition major exposure to injury in a state of high life stress should be avoided in any type of physical activity. Athletes, coaches and supervisors should also be aware of the relevance of adequate treatment and rehabilitation after an injury to avoid recurrence of injuries. Injury Rate (dpeaa)DE-He213 Choice Reaction Time (dpeaa)DE-He213 Sport Injury (dpeaa)DE-He213 Football Player (dpeaa)DE-He213 Musculoskeletal Injury (dpeaa)DE-He213 Kujala, Urho M. aut Osterman, Kalevi aut Enthalten in Sports medicine Berlin [u.a.] : Springer, 1984 9(1990), 4 vom: Apr., Seite 205-215 (DE-627)32064717X (DE-600)2025521-4 1179-2035 nnns volume:9 year:1990 number:4 month:04 pages:205-215 https://dx.doi.org/10.2165/00007256-199009040-00002 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_SPRINGER SSG-OLC-PHA GBV_ILN_702 GBV_ILN_2190 GBV_ILN_4307 AR 9 1990 4 04 205-215 |
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10.2165/00007256-199009040-00002 doi (DE-627)SPR03561336X (SPR)00007256-199009040-00002-e DE-627 ger DE-627 rakwb eng Taimela, Simo verfasserin aut Intrinsic Risk Factors and Athletic Injuries 1990 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier © ADIS Press Limited 1990 Summary The benefits of physical activity are widely known. However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentous laxity, central motor control, psychological and psychosocial factors as well as general mental ability are factors in the predisposition to injury. Junior (15 to 16 years) and senior athletes seem to be at a higher risk of injury in many types of sport. However, the relationship between age and injuries apparently depends on both the type and intensity of activity practiced. The majority of injured athletes in many studies have been males. Men are, however, more likely to participate in vigorousexercise and sport and it is not known if men are at a generally higher risk of injury when the exposure is taken into account. Certain lesions, such as sprains, strains and dislocations, tend to recur. Previous injuries may necessarily not cause a repetition of injury if treated adequately, but certain individuals may be at a higher risk of injury due to injury-prone biological characteristics. Excessive height and weight have been shown to predispose to stress injuries in physical training. Idiopathic or acquired abnormalities in the anatomy or biomechanics in any joint may lead to a local injury. However, physical requirements vary widely between different types of activity and predisposition to injury due to anatomical or biomechanical factors seems to be characteristic for each type of exercise. Lack of fitness, muscle weakness, joint looseness and poor general flexibility have been suggested as factors in the outcome of athletic injuries but no definite conclusions can be made on the basis of the existing literature. Long simple reaction times to visual stimuli and long choice reaction times to visual stimuli have recently been related to musculoskeletal injuries. No exceptional personality dimension in injury proneness as a whole has been found and the results from specific groups cannot be extrapolated generally. Accumulation of life stress apparently predisposes to an athletic injury. Musculoskeletal injuries seem to be more common in subjects with lower scores in intelligence tests but no causation has been shown yet. Altogether, a complex network of risk factors for athletic injuries has been found. However, no prospective study including all the recognised injury risk factors has been presented in the literature. Further research is needed in the subject. It has been shown that injury rates in athletes can be decreased by modifying coaching and efforts to prevent injuries can therefore be recommended. Each type of activity has its characteristic injury profile and degree of risk and the type of injuries vary widely. Athletes, coaches and supervisors should be aware of the risk factors concerning the specific type of activity they are involved in. Anatomical considerations, motor performance requirements and psychological factors are particularly important. In addition major exposure to injury in a state of high life stress should be avoided in any type of physical activity. Athletes, coaches and supervisors should also be aware of the relevance of adequate treatment and rehabilitation after an injury to avoid recurrence of injuries. Injury Rate (dpeaa)DE-He213 Choice Reaction Time (dpeaa)DE-He213 Sport Injury (dpeaa)DE-He213 Football Player (dpeaa)DE-He213 Musculoskeletal Injury (dpeaa)DE-He213 Kujala, Urho M. aut Osterman, Kalevi aut Enthalten in Sports medicine Berlin [u.a.] : Springer, 1984 9(1990), 4 vom: Apr., Seite 205-215 (DE-627)32064717X (DE-600)2025521-4 1179-2035 nnns volume:9 year:1990 number:4 month:04 pages:205-215 https://dx.doi.org/10.2165/00007256-199009040-00002 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_SPRINGER SSG-OLC-PHA GBV_ILN_702 GBV_ILN_2190 GBV_ILN_4307 AR 9 1990 4 04 205-215 |
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10.2165/00007256-199009040-00002 doi (DE-627)SPR03561336X (SPR)00007256-199009040-00002-e DE-627 ger DE-627 rakwb eng Taimela, Simo verfasserin aut Intrinsic Risk Factors and Athletic Injuries 1990 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier © ADIS Press Limited 1990 Summary The benefits of physical activity are widely known. However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentous laxity, central motor control, psychological and psychosocial factors as well as general mental ability are factors in the predisposition to injury. Junior (15 to 16 years) and senior athletes seem to be at a higher risk of injury in many types of sport. However, the relationship between age and injuries apparently depends on both the type and intensity of activity practiced. The majority of injured athletes in many studies have been males. Men are, however, more likely to participate in vigorousexercise and sport and it is not known if men are at a generally higher risk of injury when the exposure is taken into account. Certain lesions, such as sprains, strains and dislocations, tend to recur. Previous injuries may necessarily not cause a repetition of injury if treated adequately, but certain individuals may be at a higher risk of injury due to injury-prone biological characteristics. Excessive height and weight have been shown to predispose to stress injuries in physical training. Idiopathic or acquired abnormalities in the anatomy or biomechanics in any joint may lead to a local injury. However, physical requirements vary widely between different types of activity and predisposition to injury due to anatomical or biomechanical factors seems to be characteristic for each type of exercise. Lack of fitness, muscle weakness, joint looseness and poor general flexibility have been suggested as factors in the outcome of athletic injuries but no definite conclusions can be made on the basis of the existing literature. Long simple reaction times to visual stimuli and long choice reaction times to visual stimuli have recently been related to musculoskeletal injuries. No exceptional personality dimension in injury proneness as a whole has been found and the results from specific groups cannot be extrapolated generally. Accumulation of life stress apparently predisposes to an athletic injury. Musculoskeletal injuries seem to be more common in subjects with lower scores in intelligence tests but no causation has been shown yet. Altogether, a complex network of risk factors for athletic injuries has been found. However, no prospective study including all the recognised injury risk factors has been presented in the literature. Further research is needed in the subject. It has been shown that injury rates in athletes can be decreased by modifying coaching and efforts to prevent injuries can therefore be recommended. Each type of activity has its characteristic injury profile and degree of risk and the type of injuries vary widely. Athletes, coaches and supervisors should be aware of the risk factors concerning the specific type of activity they are involved in. Anatomical considerations, motor performance requirements and psychological factors are particularly important. In addition major exposure to injury in a state of high life stress should be avoided in any type of physical activity. Athletes, coaches and supervisors should also be aware of the relevance of adequate treatment and rehabilitation after an injury to avoid recurrence of injuries. Injury Rate (dpeaa)DE-He213 Choice Reaction Time (dpeaa)DE-He213 Sport Injury (dpeaa)DE-He213 Football Player (dpeaa)DE-He213 Musculoskeletal Injury (dpeaa)DE-He213 Kujala, Urho M. aut Osterman, Kalevi aut Enthalten in Sports medicine Berlin [u.a.] : Springer, 1984 9(1990), 4 vom: Apr., Seite 205-215 (DE-627)32064717X (DE-600)2025521-4 1179-2035 nnns volume:9 year:1990 number:4 month:04 pages:205-215 https://dx.doi.org/10.2165/00007256-199009040-00002 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_SPRINGER SSG-OLC-PHA GBV_ILN_702 GBV_ILN_2190 GBV_ILN_4307 AR 9 1990 4 04 205-215 |
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10.2165/00007256-199009040-00002 doi (DE-627)SPR03561336X (SPR)00007256-199009040-00002-e DE-627 ger DE-627 rakwb eng Taimela, Simo verfasserin aut Intrinsic Risk Factors and Athletic Injuries 1990 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier © ADIS Press Limited 1990 Summary The benefits of physical activity are widely known. However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentous laxity, central motor control, psychological and psychosocial factors as well as general mental ability are factors in the predisposition to injury. Junior (15 to 16 years) and senior athletes seem to be at a higher risk of injury in many types of sport. However, the relationship between age and injuries apparently depends on both the type and intensity of activity practiced. The majority of injured athletes in many studies have been males. Men are, however, more likely to participate in vigorousexercise and sport and it is not known if men are at a generally higher risk of injury when the exposure is taken into account. Certain lesions, such as sprains, strains and dislocations, tend to recur. Previous injuries may necessarily not cause a repetition of injury if treated adequately, but certain individuals may be at a higher risk of injury due to injury-prone biological characteristics. Excessive height and weight have been shown to predispose to stress injuries in physical training. Idiopathic or acquired abnormalities in the anatomy or biomechanics in any joint may lead to a local injury. However, physical requirements vary widely between different types of activity and predisposition to injury due to anatomical or biomechanical factors seems to be characteristic for each type of exercise. Lack of fitness, muscle weakness, joint looseness and poor general flexibility have been suggested as factors in the outcome of athletic injuries but no definite conclusions can be made on the basis of the existing literature. Long simple reaction times to visual stimuli and long choice reaction times to visual stimuli have recently been related to musculoskeletal injuries. No exceptional personality dimension in injury proneness as a whole has been found and the results from specific groups cannot be extrapolated generally. Accumulation of life stress apparently predisposes to an athletic injury. Musculoskeletal injuries seem to be more common in subjects with lower scores in intelligence tests but no causation has been shown yet. Altogether, a complex network of risk factors for athletic injuries has been found. However, no prospective study including all the recognised injury risk factors has been presented in the literature. Further research is needed in the subject. It has been shown that injury rates in athletes can be decreased by modifying coaching and efforts to prevent injuries can therefore be recommended. Each type of activity has its characteristic injury profile and degree of risk and the type of injuries vary widely. Athletes, coaches and supervisors should be aware of the risk factors concerning the specific type of activity they are involved in. Anatomical considerations, motor performance requirements and psychological factors are particularly important. In addition major exposure to injury in a state of high life stress should be avoided in any type of physical activity. Athletes, coaches and supervisors should also be aware of the relevance of adequate treatment and rehabilitation after an injury to avoid recurrence of injuries. Injury Rate (dpeaa)DE-He213 Choice Reaction Time (dpeaa)DE-He213 Sport Injury (dpeaa)DE-He213 Football Player (dpeaa)DE-He213 Musculoskeletal Injury (dpeaa)DE-He213 Kujala, Urho M. aut Osterman, Kalevi aut Enthalten in Sports medicine Berlin [u.a.] : Springer, 1984 9(1990), 4 vom: Apr., Seite 205-215 (DE-627)32064717X (DE-600)2025521-4 1179-2035 nnns volume:9 year:1990 number:4 month:04 pages:205-215 https://dx.doi.org/10.2165/00007256-199009040-00002 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_SPRINGER SSG-OLC-PHA GBV_ILN_702 GBV_ILN_2190 GBV_ILN_4307 AR 9 1990 4 04 205-215 |
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10.2165/00007256-199009040-00002 doi (DE-627)SPR03561336X (SPR)00007256-199009040-00002-e DE-627 ger DE-627 rakwb eng Taimela, Simo verfasserin aut Intrinsic Risk Factors and Athletic Injuries 1990 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier © ADIS Press Limited 1990 Summary The benefits of physical activity are widely known. However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentous laxity, central motor control, psychological and psychosocial factors as well as general mental ability are factors in the predisposition to injury. Junior (15 to 16 years) and senior athletes seem to be at a higher risk of injury in many types of sport. However, the relationship between age and injuries apparently depends on both the type and intensity of activity practiced. The majority of injured athletes in many studies have been males. Men are, however, more likely to participate in vigorousexercise and sport and it is not known if men are at a generally higher risk of injury when the exposure is taken into account. Certain lesions, such as sprains, strains and dislocations, tend to recur. Previous injuries may necessarily not cause a repetition of injury if treated adequately, but certain individuals may be at a higher risk of injury due to injury-prone biological characteristics. Excessive height and weight have been shown to predispose to stress injuries in physical training. Idiopathic or acquired abnormalities in the anatomy or biomechanics in any joint may lead to a local injury. However, physical requirements vary widely between different types of activity and predisposition to injury due to anatomical or biomechanical factors seems to be characteristic for each type of exercise. Lack of fitness, muscle weakness, joint looseness and poor general flexibility have been suggested as factors in the outcome of athletic injuries but no definite conclusions can be made on the basis of the existing literature. Long simple reaction times to visual stimuli and long choice reaction times to visual stimuli have recently been related to musculoskeletal injuries. No exceptional personality dimension in injury proneness as a whole has been found and the results from specific groups cannot be extrapolated generally. Accumulation of life stress apparently predisposes to an athletic injury. Musculoskeletal injuries seem to be more common in subjects with lower scores in intelligence tests but no causation has been shown yet. Altogether, a complex network of risk factors for athletic injuries has been found. However, no prospective study including all the recognised injury risk factors has been presented in the literature. Further research is needed in the subject. It has been shown that injury rates in athletes can be decreased by modifying coaching and efforts to prevent injuries can therefore be recommended. Each type of activity has its characteristic injury profile and degree of risk and the type of injuries vary widely. Athletes, coaches and supervisors should be aware of the risk factors concerning the specific type of activity they are involved in. Anatomical considerations, motor performance requirements and psychological factors are particularly important. In addition major exposure to injury in a state of high life stress should be avoided in any type of physical activity. Athletes, coaches and supervisors should also be aware of the relevance of adequate treatment and rehabilitation after an injury to avoid recurrence of injuries. Injury Rate (dpeaa)DE-He213 Choice Reaction Time (dpeaa)DE-He213 Sport Injury (dpeaa)DE-He213 Football Player (dpeaa)DE-He213 Musculoskeletal Injury (dpeaa)DE-He213 Kujala, Urho M. aut Osterman, Kalevi aut Enthalten in Sports medicine Berlin [u.a.] : Springer, 1984 9(1990), 4 vom: Apr., Seite 205-215 (DE-627)32064717X (DE-600)2025521-4 1179-2035 nnns volume:9 year:1990 number:4 month:04 pages:205-215 https://dx.doi.org/10.2165/00007256-199009040-00002 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_SPRINGER SSG-OLC-PHA GBV_ILN_702 GBV_ILN_2190 GBV_ILN_4307 AR 9 1990 4 04 205-215 |
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However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentous laxity, central motor control, psychological and psychosocial factors as well as general mental ability are factors in the predisposition to injury. Junior (15 to 16 years) and senior athletes seem to be at a higher risk of injury in many types of sport. However, the relationship between age and injuries apparently depends on both the type and intensity of activity practiced. The majority of injured athletes in many studies have been males. Men are, however, more likely to participate in vigorousexercise and sport and it is not known if men are at a generally higher risk of injury when the exposure is taken into account. Certain lesions, such as sprains, strains and dislocations, tend to recur. Previous injuries may necessarily not cause a repetition of injury if treated adequately, but certain individuals may be at a higher risk of injury due to injury-prone biological characteristics. Excessive height and weight have been shown to predispose to stress injuries in physical training. Idiopathic or acquired abnormalities in the anatomy or biomechanics in any joint may lead to a local injury. However, physical requirements vary widely between different types of activity and predisposition to injury due to anatomical or biomechanical factors seems to be characteristic for each type of exercise. Lack of fitness, muscle weakness, joint looseness and poor general flexibility have been suggested as factors in the outcome of athletic injuries but no definite conclusions can be made on the basis of the existing literature. Long simple reaction times to visual stimuli and long choice reaction times to visual stimuli have recently been related to musculoskeletal injuries. 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Intrinsic Risk Factors and Athletic Injuries Injury Rate (dpeaa)DE-He213 Choice Reaction Time (dpeaa)DE-He213 Sport Injury (dpeaa)DE-He213 Football Player (dpeaa)DE-He213 Musculoskeletal Injury (dpeaa)DE-He213 |
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intrinsic risk factors and athletic injuries |
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Intrinsic Risk Factors and Athletic Injuries |
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Summary The benefits of physical activity are widely known. However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentous laxity, central motor control, psychological and psychosocial factors as well as general mental ability are factors in the predisposition to injury. Junior (15 to 16 years) and senior athletes seem to be at a higher risk of injury in many types of sport. However, the relationship between age and injuries apparently depends on both the type and intensity of activity practiced. The majority of injured athletes in many studies have been males. Men are, however, more likely to participate in vigorousexercise and sport and it is not known if men are at a generally higher risk of injury when the exposure is taken into account. Certain lesions, such as sprains, strains and dislocations, tend to recur. Previous injuries may necessarily not cause a repetition of injury if treated adequately, but certain individuals may be at a higher risk of injury due to injury-prone biological characteristics. Excessive height and weight have been shown to predispose to stress injuries in physical training. Idiopathic or acquired abnormalities in the anatomy or biomechanics in any joint may lead to a local injury. However, physical requirements vary widely between different types of activity and predisposition to injury due to anatomical or biomechanical factors seems to be characteristic for each type of exercise. Lack of fitness, muscle weakness, joint looseness and poor general flexibility have been suggested as factors in the outcome of athletic injuries but no definite conclusions can be made on the basis of the existing literature. Long simple reaction times to visual stimuli and long choice reaction times to visual stimuli have recently been related to musculoskeletal injuries. No exceptional personality dimension in injury proneness as a whole has been found and the results from specific groups cannot be extrapolated generally. Accumulation of life stress apparently predisposes to an athletic injury. Musculoskeletal injuries seem to be more common in subjects with lower scores in intelligence tests but no causation has been shown yet. Altogether, a complex network of risk factors for athletic injuries has been found. However, no prospective study including all the recognised injury risk factors has been presented in the literature. Further research is needed in the subject. It has been shown that injury rates in athletes can be decreased by modifying coaching and efforts to prevent injuries can therefore be recommended. Each type of activity has its characteristic injury profile and degree of risk and the type of injuries vary widely. Athletes, coaches and supervisors should be aware of the risk factors concerning the specific type of activity they are involved in. Anatomical considerations, motor performance requirements and psychological factors are particularly important. In addition major exposure to injury in a state of high life stress should be avoided in any type of physical activity. Athletes, coaches and supervisors should also be aware of the relevance of adequate treatment and rehabilitation after an injury to avoid recurrence of injuries. © ADIS Press Limited 1990 |
abstractGer |
Summary The benefits of physical activity are widely known. However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentous laxity, central motor control, psychological and psychosocial factors as well as general mental ability are factors in the predisposition to injury. Junior (15 to 16 years) and senior athletes seem to be at a higher risk of injury in many types of sport. However, the relationship between age and injuries apparently depends on both the type and intensity of activity practiced. The majority of injured athletes in many studies have been males. Men are, however, more likely to participate in vigorousexercise and sport and it is not known if men are at a generally higher risk of injury when the exposure is taken into account. Certain lesions, such as sprains, strains and dislocations, tend to recur. Previous injuries may necessarily not cause a repetition of injury if treated adequately, but certain individuals may be at a higher risk of injury due to injury-prone biological characteristics. Excessive height and weight have been shown to predispose to stress injuries in physical training. Idiopathic or acquired abnormalities in the anatomy or biomechanics in any joint may lead to a local injury. However, physical requirements vary widely between different types of activity and predisposition to injury due to anatomical or biomechanical factors seems to be characteristic for each type of exercise. Lack of fitness, muscle weakness, joint looseness and poor general flexibility have been suggested as factors in the outcome of athletic injuries but no definite conclusions can be made on the basis of the existing literature. Long simple reaction times to visual stimuli and long choice reaction times to visual stimuli have recently been related to musculoskeletal injuries. No exceptional personality dimension in injury proneness as a whole has been found and the results from specific groups cannot be extrapolated generally. Accumulation of life stress apparently predisposes to an athletic injury. Musculoskeletal injuries seem to be more common in subjects with lower scores in intelligence tests but no causation has been shown yet. Altogether, a complex network of risk factors for athletic injuries has been found. However, no prospective study including all the recognised injury risk factors has been presented in the literature. Further research is needed in the subject. It has been shown that injury rates in athletes can be decreased by modifying coaching and efforts to prevent injuries can therefore be recommended. Each type of activity has its characteristic injury profile and degree of risk and the type of injuries vary widely. Athletes, coaches and supervisors should be aware of the risk factors concerning the specific type of activity they are involved in. Anatomical considerations, motor performance requirements and psychological factors are particularly important. In addition major exposure to injury in a state of high life stress should be avoided in any type of physical activity. Athletes, coaches and supervisors should also be aware of the relevance of adequate treatment and rehabilitation after an injury to avoid recurrence of injuries. © ADIS Press Limited 1990 |
abstract_unstemmed |
Summary The benefits of physical activity are widely known. However, the risk of a musculoskeletal injury is an unfavourable consequence in physical training. Age, gender, injury history, body size, local anatomy and biomechanics, aerobic fitness, muscle strength, imbalance and tightness, ligamentous laxity, central motor control, psychological and psychosocial factors as well as general mental ability are factors in the predisposition to injury. Junior (15 to 16 years) and senior athletes seem to be at a higher risk of injury in many types of sport. However, the relationship between age and injuries apparently depends on both the type and intensity of activity practiced. The majority of injured athletes in many studies have been males. Men are, however, more likely to participate in vigorousexercise and sport and it is not known if men are at a generally higher risk of injury when the exposure is taken into account. Certain lesions, such as sprains, strains and dislocations, tend to recur. Previous injuries may necessarily not cause a repetition of injury if treated adequately, but certain individuals may be at a higher risk of injury due to injury-prone biological characteristics. Excessive height and weight have been shown to predispose to stress injuries in physical training. Idiopathic or acquired abnormalities in the anatomy or biomechanics in any joint may lead to a local injury. However, physical requirements vary widely between different types of activity and predisposition to injury due to anatomical or biomechanical factors seems to be characteristic for each type of exercise. Lack of fitness, muscle weakness, joint looseness and poor general flexibility have been suggested as factors in the outcome of athletic injuries but no definite conclusions can be made on the basis of the existing literature. Long simple reaction times to visual stimuli and long choice reaction times to visual stimuli have recently been related to musculoskeletal injuries. No exceptional personality dimension in injury proneness as a whole has been found and the results from specific groups cannot be extrapolated generally. Accumulation of life stress apparently predisposes to an athletic injury. Musculoskeletal injuries seem to be more common in subjects with lower scores in intelligence tests but no causation has been shown yet. Altogether, a complex network of risk factors for athletic injuries has been found. However, no prospective study including all the recognised injury risk factors has been presented in the literature. Further research is needed in the subject. It has been shown that injury rates in athletes can be decreased by modifying coaching and efforts to prevent injuries can therefore be recommended. Each type of activity has its characteristic injury profile and degree of risk and the type of injuries vary widely. Athletes, coaches and supervisors should be aware of the risk factors concerning the specific type of activity they are involved in. Anatomical considerations, motor performance requirements and psychological factors are particularly important. In addition major exposure to injury in a state of high life stress should be avoided in any type of physical activity. Athletes, coaches and supervisors should also be aware of the relevance of adequate treatment and rehabilitation after an injury to avoid recurrence of injuries. © ADIS Press Limited 1990 |
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