Gilchrist, I; Moglo, K; Storr, M; Pelland, L
Effects of head flexion posture on the multidirectional static force capacity of the neck Journal Article
In: Clinical Biomechanics, vol. 37, pp. 44–52, 2016.
Abstract | Links | BibTeX | Tags: adult, Article, Biomechanics, BIOPHYSICS, body equilibrium, body posture, Cervical spine, Concussions, contact sport, cross-sectional study, Dynamometry, force, head flexion, head movement, head position, human, human experiment, Male, Muscle, muscle contraction, muscle strength, neck injury, Neck muscle, neck strength, priority journal
@article{Gilchrist2016,
title = {Effects of head flexion posture on the multidirectional static force capacity of the neck},
author = {Gilchrist, I and Moglo, K and Storr, M and Pelland, L},
doi = {10.1016/j.clinbiomech.2016.05.016},
year = {2016},
date = {2016-01-01},
journal = {Clinical Biomechanics},
volume = {37},
pages = {44--52},
abstract = {Background Neck muscle force protects vertebral alignment and resists potentially injurious loading of osteoligamentous structures during head impacts. As the majority of neck muscles generate moments about all three planes of motion, it is not clear how the force capacity of the neck might be modulated by direction of force application and head posture. The aim of our study was to measure the multidirectional moment-generating capacity of the neck and to evaluate effects of 20° of head flexion, a common head position in contact sports, on the measured capacity. Methods We conducted a cross-sectional study, with 25 males, 20-30 years old, performing maximum voluntary contractions, with ballistic intent, along eight directions, set at 45° intervals in the horizontal plane of the head. Three-dimensional moments at C3 and T1 were calculated using equations of static equilibrium. The variable of interest was the impulse of force generated from 0-50 ms. Effects of direction of force application and head posture, neutral and 20° flexion, were evaluated by two-way analysis of variance and linear regression. Findings Impulse of force was lower along diagonal planes, at 45° from the mid-sagittal plane, compared to orthogonal planes (P \< 0.001). Compared to neutral posture, head flexion produced a 55.2% decrease in impulse capacity at C3 and 45.9% at T1. Interpretation The risk of injury with head impact would intrinsically be higher along diagonal planes and with a 20° head down position due to a lower moment generating capacity of the neck in the first 50 ms of force application. © 2015 Elsevier Ltd. All rights reserved.},
keywords = {adult, Article, Biomechanics, BIOPHYSICS, body equilibrium, body posture, Cervical spine, Concussions, contact sport, cross-sectional study, Dynamometry, force, head flexion, head movement, head position, human, human experiment, Male, Muscle, muscle contraction, muscle strength, neck injury, Neck muscle, neck strength, priority journal},
pubstate = {published},
tppubtype = {article}
}
Timpka, T; Jacobsson, J; Ekberg, J; Finch, C F; Bichenbach, J; Edouard, P; Bargoria, V; Branco, P; Alonso, J M
In: Journal of Science & Medicine in Sport, vol. 18, no. 6, pp. 643–650, 2015.
Abstract | Links | BibTeX | Tags: accident, athletic performance, clinical examination, competition, Concussion, Consensus, Epidemiologic Methods, epidemiological data, EPIDEMIOLOGY, football, head injury, health service, human, Humans, information processing, Injuries, Medline, meta analysis, METHODOLOGY, musculoskeletal disease, neck injury, nomenclature, Overuse injuries, physical education, procedures, Qualitative methods, Research Design, Review, self report, sport injury, Sports epidemiology, sports injury, SPORTS medicine, Systematic Review, tennis, Terminology, Terminology as Topic, track and field, training
@article{Timpka2015,
title = {Meta-narrative analysis of sports injury reporting practices based on the Injury Definitions Concept Framework (IDCF): A review of consensus statements and epidemiological studies in athletics (track and field)},
author = {Timpka, T and Jacobsson, J and Ekberg, J and Finch, C F and Bichenbach, J and Edouard, P and Bargoria, V and Branco, P and Alonso, J M},
doi = {10.1016/j.jsams.2014.11.393},
year = {2015},
date = {2015-01-01},
journal = {Journal of Science \& Medicine in Sport},
volume = {18},
number = {6},
pages = {643--650},
abstract = {Objectives: Consistency in routines for reporting injury has been a focus of development efforts in sports epidemiology for a long time. To gain an improved understanding of current reporting practices, we applied the Injury Definitions Concept Framework (IDCF) in a review of injury reporting in a subset of the field. Design: Meta-narrative review. Methods: An analysis of injury definitions reported in consensus statements for different sports and studies of injury epidemiology in athletics (track and field) published in PubMed between 1980 and 2013 was performed. Separate narratives for each of the three reporting contexts in the IDCF were constructed from the data. Results: Six consensus statements and 14 studies reporting on athletics injury epidemiology fulfilled the selection criteria. The narratives on sports performance, clinical examination, and athlete self-report contexts were evenly represented in the eligible studies. The sports performance and athlete self-report narratives covered both professional and community athletes as well as training and competition settings. In the clinical examination narrative, data collection by health service professionals was linked to studies of professional athletes at international championships. Conclusions: From an application of the IDCF in a review of injury reporting in sports epidemiology we observed a parallel usage of reporting contexts in this field of research. The co-existence of reporting methodologies does not necessarily reflect a problematic situation, but only provided that firm precautions are taken when comparing studies performed in the different contexts. © 2014 Sports Medicine Australia.},
keywords = {accident, athletic performance, clinical examination, competition, Concussion, Consensus, Epidemiologic Methods, epidemiological data, EPIDEMIOLOGY, football, head injury, health service, human, Humans, information processing, Injuries, Medline, meta analysis, METHODOLOGY, musculoskeletal disease, neck injury, nomenclature, Overuse injuries, physical education, procedures, Qualitative methods, Research Design, Review, self report, sport injury, Sports epidemiology, sports injury, SPORTS medicine, Systematic Review, tennis, Terminology, Terminology as Topic, track and field, training},
pubstate = {published},
tppubtype = {article}
}
Brown, J C; Viljoen, W; Lambert, M I; Readhead, C; Fuller, C; Van Mechelen, W; Verhagen, E
The economic burden of time-loss injuries to youth players participating in week-long rugby union tournaments Journal Article
In: Journal of Science & Medicine in Sport, vol. 18, no. 4, pp. 394–399, 2015.
Abstract | Links | BibTeX | Tags: Absenteeism, Adolescent, adult, Article, Athletic Injuries, Back Injuries, biokinetics, bone, Child, competition, Concussion, contusion, Craniocerebral Trauma, economic evaluation, economics, follow up, football, Football/economics, Football/economics/cost analysis, Football/injuries (MeSH terms), fracture, Fractures, head injury, Health, health care cost, Health Care Costs, health insurance, human, Humans, Injuries, injury, injury scale, Insurance, laceration, legal guardian, Lower Extremity, lower limb, major clinical study, Male, MEDICAL care, muscle cramp, muscle strain, Neck Injuries, neck injury, Occupational Therapy, Parent, physical medicine, physiotherapy, radiodiagnosis, rugby, skin bruising, SOUTH Africa, sport injury, Trauma Severity Indices, Upper Extremity, upper limb, Wounds and Injuries
@article{Brown2015b,
title = {The economic burden of time-loss injuries to youth players participating in week-long rugby union tournaments},
author = {Brown, J C and Viljoen, W and Lambert, M I and Readhead, C and Fuller, C and {Van Mechelen}, W and Verhagen, E},
doi = {10.1016/j.jsams.2014.06.015},
year = {2015},
date = {2015-01-01},
journal = {Journal of Science \& Medicine in Sport},
volume = {18},
number = {4},
pages = {394--399},
abstract = {Objectives: Rugby Union ("rugby") is a popular sport with high injury risk. Burden of injury is described by the incidence and severity of injury. However reports have ignored the monetary cost of injuries. Therefore the aim of this study was to describe the monetary cost associated with youth rugby injuries. Design: This descriptive study quantified medical treatments of injured players at the South African Rugby Union Youth tournaments in 2011/2012 and the days of work parents missed as a result of the injuries. A health insurer used these data to calculate associated costs. Methods: Legal guardians of the 421 injured players were contacted telephonically on a weekly basis until they returned to play. Treatments costs were estimated in South African Rands based on 2013 insurance rates and converted to US$ using purchasing power parities. Results: Of the 3652 players, 2% (n=71) sought medical care after the tournament. For these players, average treatment costs were high (US$731 per player, 95% CI: US$425-US$1096), with fractures being the most expensive type of injury. Players with medical insurance had higher costs (US$937, 95% CI: US$486-US$1500) than those without (US$220, 95% CI: US$145-US$302). Conclusions: Although a minority of players sought follow-up treatment after the tournaments, the cost of these injuries was high. Players without medical insurance having lower costs may indicate that these players did not receive adequate treatment for their injuries. Injury prevention efforts should consider injuries with high costs and the treatment of players without medical insurance. © 2014 Sports Medicine Australia.},
keywords = {Absenteeism, Adolescent, adult, Article, Athletic Injuries, Back Injuries, biokinetics, bone, Child, competition, Concussion, contusion, Craniocerebral Trauma, economic evaluation, economics, follow up, football, Football/economics, Football/economics/cost analysis, Football/injuries (MeSH terms), fracture, Fractures, head injury, Health, health care cost, Health Care Costs, health insurance, human, Humans, Injuries, injury, injury scale, Insurance, laceration, legal guardian, Lower Extremity, lower limb, major clinical study, Male, MEDICAL care, muscle cramp, muscle strain, Neck Injuries, neck injury, Occupational Therapy, Parent, physical medicine, physiotherapy, radiodiagnosis, rugby, skin bruising, SOUTH Africa, sport injury, Trauma Severity Indices, Upper Extremity, upper limb, Wounds and Injuries},
pubstate = {published},
tppubtype = {article}
}
Sharma, V K; Rango, J; Connaughton, A J; Lombardo, D J; Sabesan, V J
The current state of head and neck injuries in extreme sports Journal Article
In: Orthopaedic Journal of Sports Medicine, vol. 3, no. 1, pp. 1–6, 2015.
Abstract | Links | BibTeX | Tags: Article, AWARENESS, Concussion, Concussions, EPIDEMIOLOGY, extreme sport, Extreme sports, fracture, Head and neck injuries, head and neck injury, head injury, human, Incidence, laceration, major clinical study, neck injury, physician, Prevalence, priority journal, quality of life, skateboarding, skiing, telephone interview
@article{Sharma2015,
title = {The current state of head and neck injuries in extreme sports},
author = {Sharma, V K and Rango, J and Connaughton, A J and Lombardo, D J and Sabesan, V J},
doi = {10.1177/2325967114564358},
year = {2015},
date = {2015-01-01},
journal = {Orthopaedic Journal of Sports Medicine},
volume = {3},
number = {1},
pages = {1--6},
abstract = {Background: Since their conception during the mid-1970s, international participation in extreme sports has grown rapidly. The recent death of extreme snowmobiler Caleb Moore at the 2013 Winter X Games has demonstrated the serious risks associated with these sports. Purpose: To examine the incidence and prevalence of head and neck injuries (HNIs) in extreme sports. Study Design: Descriptive epidemiological study. Methods: The National Electronic Injury Surveillance System (NEISS) was used to acquire data from 7 sports (2000-2011) that were included in the Winter and Summer X Games. Data from the NEISS database were collected for each individual sport per year and type of HNI. Cumulative data for overall incidence and injuries over the entire 11-year period were calculated. National estimates were determined using NEISS-weighted calculations. Incidence rates were calculated for extreme sports using data from Outdoor Foundation Participation Reports. Results: Over 4 million injuries were reported between 2000 and 2011, of which 11.3% were HNIs. Of all HNIs, 83% were head injuries and 17% neck injuries. The 4 sports with the highest total incidence of HNI were skateboarding (129,600), snowboarding (97,527), skiing (83,313), and motocross (78,236). Severe HNI (cervical or skull fracture) accounted for 2.5% of extreme sports HNIs. Of these, skateboarding had the highest percentage of severe HNIs. Conclusion: The number of serious injuries suffered in extreme sports has increased as participation in the sports continues to grow. A greater awareness of the dangers associated with these sports offers an opportunity for sports medicine and orthopaedic physicians to advocate for safer equipment, improved on-site medical care, and further research regarding extreme sports injuries. © 2015 The Author(s).},
keywords = {Article, AWARENESS, Concussion, Concussions, EPIDEMIOLOGY, extreme sport, Extreme sports, fracture, Head and neck injuries, head and neck injury, head injury, human, Incidence, laceration, major clinical study, neck injury, physician, Prevalence, priority journal, quality of life, skateboarding, skiing, telephone interview},
pubstate = {published},
tppubtype = {article}
}
Gilchrist, I; Moglo, K; Storr, M; Pelland, L
Effects of head flexion posture on the multidirectional static force capacity of the neck Journal Article
In: Clinical Biomechanics, vol. 37, pp. 44–52, 2016.
@article{Gilchrist2016,
title = {Effects of head flexion posture on the multidirectional static force capacity of the neck},
author = {Gilchrist, I and Moglo, K and Storr, M and Pelland, L},
doi = {10.1016/j.clinbiomech.2016.05.016},
year = {2016},
date = {2016-01-01},
journal = {Clinical Biomechanics},
volume = {37},
pages = {44--52},
abstract = {Background Neck muscle force protects vertebral alignment and resists potentially injurious loading of osteoligamentous structures during head impacts. As the majority of neck muscles generate moments about all three planes of motion, it is not clear how the force capacity of the neck might be modulated by direction of force application and head posture. The aim of our study was to measure the multidirectional moment-generating capacity of the neck and to evaluate effects of 20° of head flexion, a common head position in contact sports, on the measured capacity. Methods We conducted a cross-sectional study, with 25 males, 20-30 years old, performing maximum voluntary contractions, with ballistic intent, along eight directions, set at 45° intervals in the horizontal plane of the head. Three-dimensional moments at C3 and T1 were calculated using equations of static equilibrium. The variable of interest was the impulse of force generated from 0-50 ms. Effects of direction of force application and head posture, neutral and 20° flexion, were evaluated by two-way analysis of variance and linear regression. Findings Impulse of force was lower along diagonal planes, at 45° from the mid-sagittal plane, compared to orthogonal planes (P \< 0.001). Compared to neutral posture, head flexion produced a 55.2% decrease in impulse capacity at C3 and 45.9% at T1. Interpretation The risk of injury with head impact would intrinsically be higher along diagonal planes and with a 20° head down position due to a lower moment generating capacity of the neck in the first 50 ms of force application. © 2015 Elsevier Ltd. All rights reserved.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Timpka, T; Jacobsson, J; Ekberg, J; Finch, C F; Bichenbach, J; Edouard, P; Bargoria, V; Branco, P; Alonso, J M
In: Journal of Science & Medicine in Sport, vol. 18, no. 6, pp. 643–650, 2015.
@article{Timpka2015,
title = {Meta-narrative analysis of sports injury reporting practices based on the Injury Definitions Concept Framework (IDCF): A review of consensus statements and epidemiological studies in athletics (track and field)},
author = {Timpka, T and Jacobsson, J and Ekberg, J and Finch, C F and Bichenbach, J and Edouard, P and Bargoria, V and Branco, P and Alonso, J M},
doi = {10.1016/j.jsams.2014.11.393},
year = {2015},
date = {2015-01-01},
journal = {Journal of Science \& Medicine in Sport},
volume = {18},
number = {6},
pages = {643--650},
abstract = {Objectives: Consistency in routines for reporting injury has been a focus of development efforts in sports epidemiology for a long time. To gain an improved understanding of current reporting practices, we applied the Injury Definitions Concept Framework (IDCF) in a review of injury reporting in a subset of the field. Design: Meta-narrative review. Methods: An analysis of injury definitions reported in consensus statements for different sports and studies of injury epidemiology in athletics (track and field) published in PubMed between 1980 and 2013 was performed. Separate narratives for each of the three reporting contexts in the IDCF were constructed from the data. Results: Six consensus statements and 14 studies reporting on athletics injury epidemiology fulfilled the selection criteria. The narratives on sports performance, clinical examination, and athlete self-report contexts were evenly represented in the eligible studies. The sports performance and athlete self-report narratives covered both professional and community athletes as well as training and competition settings. In the clinical examination narrative, data collection by health service professionals was linked to studies of professional athletes at international championships. Conclusions: From an application of the IDCF in a review of injury reporting in sports epidemiology we observed a parallel usage of reporting contexts in this field of research. The co-existence of reporting methodologies does not necessarily reflect a problematic situation, but only provided that firm precautions are taken when comparing studies performed in the different contexts. © 2014 Sports Medicine Australia.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Brown, J C; Viljoen, W; Lambert, M I; Readhead, C; Fuller, C; Van Mechelen, W; Verhagen, E
The economic burden of time-loss injuries to youth players participating in week-long rugby union tournaments Journal Article
In: Journal of Science & Medicine in Sport, vol. 18, no. 4, pp. 394–399, 2015.
@article{Brown2015b,
title = {The economic burden of time-loss injuries to youth players participating in week-long rugby union tournaments},
author = {Brown, J C and Viljoen, W and Lambert, M I and Readhead, C and Fuller, C and {Van Mechelen}, W and Verhagen, E},
doi = {10.1016/j.jsams.2014.06.015},
year = {2015},
date = {2015-01-01},
journal = {Journal of Science \& Medicine in Sport},
volume = {18},
number = {4},
pages = {394--399},
abstract = {Objectives: Rugby Union ("rugby") is a popular sport with high injury risk. Burden of injury is described by the incidence and severity of injury. However reports have ignored the monetary cost of injuries. Therefore the aim of this study was to describe the monetary cost associated with youth rugby injuries. Design: This descriptive study quantified medical treatments of injured players at the South African Rugby Union Youth tournaments in 2011/2012 and the days of work parents missed as a result of the injuries. A health insurer used these data to calculate associated costs. Methods: Legal guardians of the 421 injured players were contacted telephonically on a weekly basis until they returned to play. Treatments costs were estimated in South African Rands based on 2013 insurance rates and converted to US$ using purchasing power parities. Results: Of the 3652 players, 2% (n=71) sought medical care after the tournament. For these players, average treatment costs were high (US$731 per player, 95% CI: US$425-US$1096), with fractures being the most expensive type of injury. Players with medical insurance had higher costs (US$937, 95% CI: US$486-US$1500) than those without (US$220, 95% CI: US$145-US$302). Conclusions: Although a minority of players sought follow-up treatment after the tournaments, the cost of these injuries was high. Players without medical insurance having lower costs may indicate that these players did not receive adequate treatment for their injuries. Injury prevention efforts should consider injuries with high costs and the treatment of players without medical insurance. © 2014 Sports Medicine Australia.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Sharma, V K; Rango, J; Connaughton, A J; Lombardo, D J; Sabesan, V J
The current state of head and neck injuries in extreme sports Journal Article
In: Orthopaedic Journal of Sports Medicine, vol. 3, no. 1, pp. 1–6, 2015.
@article{Sharma2015,
title = {The current state of head and neck injuries in extreme sports},
author = {Sharma, V K and Rango, J and Connaughton, A J and Lombardo, D J and Sabesan, V J},
doi = {10.1177/2325967114564358},
year = {2015},
date = {2015-01-01},
journal = {Orthopaedic Journal of Sports Medicine},
volume = {3},
number = {1},
pages = {1--6},
abstract = {Background: Since their conception during the mid-1970s, international participation in extreme sports has grown rapidly. The recent death of extreme snowmobiler Caleb Moore at the 2013 Winter X Games has demonstrated the serious risks associated with these sports. Purpose: To examine the incidence and prevalence of head and neck injuries (HNIs) in extreme sports. Study Design: Descriptive epidemiological study. Methods: The National Electronic Injury Surveillance System (NEISS) was used to acquire data from 7 sports (2000-2011) that were included in the Winter and Summer X Games. Data from the NEISS database were collected for each individual sport per year and type of HNI. Cumulative data for overall incidence and injuries over the entire 11-year period were calculated. National estimates were determined using NEISS-weighted calculations. Incidence rates were calculated for extreme sports using data from Outdoor Foundation Participation Reports. Results: Over 4 million injuries were reported between 2000 and 2011, of which 11.3% were HNIs. Of all HNIs, 83% were head injuries and 17% neck injuries. The 4 sports with the highest total incidence of HNI were skateboarding (129,600), snowboarding (97,527), skiing (83,313), and motocross (78,236). Severe HNI (cervical or skull fracture) accounted for 2.5% of extreme sports HNIs. Of these, skateboarding had the highest percentage of severe HNIs. Conclusion: The number of serious injuries suffered in extreme sports has increased as participation in the sports continues to grow. A greater awareness of the dangers associated with these sports offers an opportunity for sports medicine and orthopaedic physicians to advocate for safer equipment, improved on-site medical care, and further research regarding extreme sports injuries. © 2015 The Author(s).},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Gilchrist, I; Moglo, K; Storr, M; Pelland, L
Effects of head flexion posture on the multidirectional static force capacity of the neck Journal Article
In: Clinical Biomechanics, vol. 37, pp. 44–52, 2016.
Abstract | Links | BibTeX | Tags: adult, Article, Biomechanics, BIOPHYSICS, body equilibrium, body posture, Cervical spine, Concussions, contact sport, cross-sectional study, Dynamometry, force, head flexion, head movement, head position, human, human experiment, Male, Muscle, muscle contraction, muscle strength, neck injury, Neck muscle, neck strength, priority journal
@article{Gilchrist2016,
title = {Effects of head flexion posture on the multidirectional static force capacity of the neck},
author = {Gilchrist, I and Moglo, K and Storr, M and Pelland, L},
doi = {10.1016/j.clinbiomech.2016.05.016},
year = {2016},
date = {2016-01-01},
journal = {Clinical Biomechanics},
volume = {37},
pages = {44--52},
abstract = {Background Neck muscle force protects vertebral alignment and resists potentially injurious loading of osteoligamentous structures during head impacts. As the majority of neck muscles generate moments about all three planes of motion, it is not clear how the force capacity of the neck might be modulated by direction of force application and head posture. The aim of our study was to measure the multidirectional moment-generating capacity of the neck and to evaluate effects of 20° of head flexion, a common head position in contact sports, on the measured capacity. Methods We conducted a cross-sectional study, with 25 males, 20-30 years old, performing maximum voluntary contractions, with ballistic intent, along eight directions, set at 45° intervals in the horizontal plane of the head. Three-dimensional moments at C3 and T1 were calculated using equations of static equilibrium. The variable of interest was the impulse of force generated from 0-50 ms. Effects of direction of force application and head posture, neutral and 20° flexion, were evaluated by two-way analysis of variance and linear regression. Findings Impulse of force was lower along diagonal planes, at 45° from the mid-sagittal plane, compared to orthogonal planes (P \< 0.001). Compared to neutral posture, head flexion produced a 55.2% decrease in impulse capacity at C3 and 45.9% at T1. Interpretation The risk of injury with head impact would intrinsically be higher along diagonal planes and with a 20° head down position due to a lower moment generating capacity of the neck in the first 50 ms of force application. © 2015 Elsevier Ltd. All rights reserved.},
keywords = {adult, Article, Biomechanics, BIOPHYSICS, body equilibrium, body posture, Cervical spine, Concussions, contact sport, cross-sectional study, Dynamometry, force, head flexion, head movement, head position, human, human experiment, Male, Muscle, muscle contraction, muscle strength, neck injury, Neck muscle, neck strength, priority journal},
pubstate = {published},
tppubtype = {article}
}
Timpka, T; Jacobsson, J; Ekberg, J; Finch, C F; Bichenbach, J; Edouard, P; Bargoria, V; Branco, P; Alonso, J M
In: Journal of Science & Medicine in Sport, vol. 18, no. 6, pp. 643–650, 2015.
Abstract | Links | BibTeX | Tags: accident, athletic performance, clinical examination, competition, Concussion, Consensus, Epidemiologic Methods, epidemiological data, EPIDEMIOLOGY, football, head injury, health service, human, Humans, information processing, Injuries, Medline, meta analysis, METHODOLOGY, musculoskeletal disease, neck injury, nomenclature, Overuse injuries, physical education, procedures, Qualitative methods, Research Design, Review, self report, sport injury, Sports epidemiology, sports injury, SPORTS medicine, Systematic Review, tennis, Terminology, Terminology as Topic, track and field, training
@article{Timpka2015,
title = {Meta-narrative analysis of sports injury reporting practices based on the Injury Definitions Concept Framework (IDCF): A review of consensus statements and epidemiological studies in athletics (track and field)},
author = {Timpka, T and Jacobsson, J and Ekberg, J and Finch, C F and Bichenbach, J and Edouard, P and Bargoria, V and Branco, P and Alonso, J M},
doi = {10.1016/j.jsams.2014.11.393},
year = {2015},
date = {2015-01-01},
journal = {Journal of Science \& Medicine in Sport},
volume = {18},
number = {6},
pages = {643--650},
abstract = {Objectives: Consistency in routines for reporting injury has been a focus of development efforts in sports epidemiology for a long time. To gain an improved understanding of current reporting practices, we applied the Injury Definitions Concept Framework (IDCF) in a review of injury reporting in a subset of the field. Design: Meta-narrative review. Methods: An analysis of injury definitions reported in consensus statements for different sports and studies of injury epidemiology in athletics (track and field) published in PubMed between 1980 and 2013 was performed. Separate narratives for each of the three reporting contexts in the IDCF were constructed from the data. Results: Six consensus statements and 14 studies reporting on athletics injury epidemiology fulfilled the selection criteria. The narratives on sports performance, clinical examination, and athlete self-report contexts were evenly represented in the eligible studies. The sports performance and athlete self-report narratives covered both professional and community athletes as well as training and competition settings. In the clinical examination narrative, data collection by health service professionals was linked to studies of professional athletes at international championships. Conclusions: From an application of the IDCF in a review of injury reporting in sports epidemiology we observed a parallel usage of reporting contexts in this field of research. The co-existence of reporting methodologies does not necessarily reflect a problematic situation, but only provided that firm precautions are taken when comparing studies performed in the different contexts. © 2014 Sports Medicine Australia.},
keywords = {accident, athletic performance, clinical examination, competition, Concussion, Consensus, Epidemiologic Methods, epidemiological data, EPIDEMIOLOGY, football, head injury, health service, human, Humans, information processing, Injuries, Medline, meta analysis, METHODOLOGY, musculoskeletal disease, neck injury, nomenclature, Overuse injuries, physical education, procedures, Qualitative methods, Research Design, Review, self report, sport injury, Sports epidemiology, sports injury, SPORTS medicine, Systematic Review, tennis, Terminology, Terminology as Topic, track and field, training},
pubstate = {published},
tppubtype = {article}
}
Brown, J C; Viljoen, W; Lambert, M I; Readhead, C; Fuller, C; Van Mechelen, W; Verhagen, E
The economic burden of time-loss injuries to youth players participating in week-long rugby union tournaments Journal Article
In: Journal of Science & Medicine in Sport, vol. 18, no. 4, pp. 394–399, 2015.
Abstract | Links | BibTeX | Tags: Absenteeism, Adolescent, adult, Article, Athletic Injuries, Back Injuries, biokinetics, bone, Child, competition, Concussion, contusion, Craniocerebral Trauma, economic evaluation, economics, follow up, football, Football/economics, Football/economics/cost analysis, Football/injuries (MeSH terms), fracture, Fractures, head injury, Health, health care cost, Health Care Costs, health insurance, human, Humans, Injuries, injury, injury scale, Insurance, laceration, legal guardian, Lower Extremity, lower limb, major clinical study, Male, MEDICAL care, muscle cramp, muscle strain, Neck Injuries, neck injury, Occupational Therapy, Parent, physical medicine, physiotherapy, radiodiagnosis, rugby, skin bruising, SOUTH Africa, sport injury, Trauma Severity Indices, Upper Extremity, upper limb, Wounds and Injuries
@article{Brown2015b,
title = {The economic burden of time-loss injuries to youth players participating in week-long rugby union tournaments},
author = {Brown, J C and Viljoen, W and Lambert, M I and Readhead, C and Fuller, C and {Van Mechelen}, W and Verhagen, E},
doi = {10.1016/j.jsams.2014.06.015},
year = {2015},
date = {2015-01-01},
journal = {Journal of Science \& Medicine in Sport},
volume = {18},
number = {4},
pages = {394--399},
abstract = {Objectives: Rugby Union ("rugby") is a popular sport with high injury risk. Burden of injury is described by the incidence and severity of injury. However reports have ignored the monetary cost of injuries. Therefore the aim of this study was to describe the monetary cost associated with youth rugby injuries. Design: This descriptive study quantified medical treatments of injured players at the South African Rugby Union Youth tournaments in 2011/2012 and the days of work parents missed as a result of the injuries. A health insurer used these data to calculate associated costs. Methods: Legal guardians of the 421 injured players were contacted telephonically on a weekly basis until they returned to play. Treatments costs were estimated in South African Rands based on 2013 insurance rates and converted to US$ using purchasing power parities. Results: Of the 3652 players, 2% (n=71) sought medical care after the tournament. For these players, average treatment costs were high (US$731 per player, 95% CI: US$425-US$1096), with fractures being the most expensive type of injury. Players with medical insurance had higher costs (US$937, 95% CI: US$486-US$1500) than those without (US$220, 95% CI: US$145-US$302). Conclusions: Although a minority of players sought follow-up treatment after the tournaments, the cost of these injuries was high. Players without medical insurance having lower costs may indicate that these players did not receive adequate treatment for their injuries. Injury prevention efforts should consider injuries with high costs and the treatment of players without medical insurance. © 2014 Sports Medicine Australia.},
keywords = {Absenteeism, Adolescent, adult, Article, Athletic Injuries, Back Injuries, biokinetics, bone, Child, competition, Concussion, contusion, Craniocerebral Trauma, economic evaluation, economics, follow up, football, Football/economics, Football/economics/cost analysis, Football/injuries (MeSH terms), fracture, Fractures, head injury, Health, health care cost, Health Care Costs, health insurance, human, Humans, Injuries, injury, injury scale, Insurance, laceration, legal guardian, Lower Extremity, lower limb, major clinical study, Male, MEDICAL care, muscle cramp, muscle strain, Neck Injuries, neck injury, Occupational Therapy, Parent, physical medicine, physiotherapy, radiodiagnosis, rugby, skin bruising, SOUTH Africa, sport injury, Trauma Severity Indices, Upper Extremity, upper limb, Wounds and Injuries},
pubstate = {published},
tppubtype = {article}
}
Sharma, V K; Rango, J; Connaughton, A J; Lombardo, D J; Sabesan, V J
The current state of head and neck injuries in extreme sports Journal Article
In: Orthopaedic Journal of Sports Medicine, vol. 3, no. 1, pp. 1–6, 2015.
Abstract | Links | BibTeX | Tags: Article, AWARENESS, Concussion, Concussions, EPIDEMIOLOGY, extreme sport, Extreme sports, fracture, Head and neck injuries, head and neck injury, head injury, human, Incidence, laceration, major clinical study, neck injury, physician, Prevalence, priority journal, quality of life, skateboarding, skiing, telephone interview
@article{Sharma2015,
title = {The current state of head and neck injuries in extreme sports},
author = {Sharma, V K and Rango, J and Connaughton, A J and Lombardo, D J and Sabesan, V J},
doi = {10.1177/2325967114564358},
year = {2015},
date = {2015-01-01},
journal = {Orthopaedic Journal of Sports Medicine},
volume = {3},
number = {1},
pages = {1--6},
abstract = {Background: Since their conception during the mid-1970s, international participation in extreme sports has grown rapidly. The recent death of extreme snowmobiler Caleb Moore at the 2013 Winter X Games has demonstrated the serious risks associated with these sports. Purpose: To examine the incidence and prevalence of head and neck injuries (HNIs) in extreme sports. Study Design: Descriptive epidemiological study. Methods: The National Electronic Injury Surveillance System (NEISS) was used to acquire data from 7 sports (2000-2011) that were included in the Winter and Summer X Games. Data from the NEISS database were collected for each individual sport per year and type of HNI. Cumulative data for overall incidence and injuries over the entire 11-year period were calculated. National estimates were determined using NEISS-weighted calculations. Incidence rates were calculated for extreme sports using data from Outdoor Foundation Participation Reports. Results: Over 4 million injuries were reported between 2000 and 2011, of which 11.3% were HNIs. Of all HNIs, 83% were head injuries and 17% neck injuries. The 4 sports with the highest total incidence of HNI were skateboarding (129,600), snowboarding (97,527), skiing (83,313), and motocross (78,236). Severe HNI (cervical or skull fracture) accounted for 2.5% of extreme sports HNIs. Of these, skateboarding had the highest percentage of severe HNIs. Conclusion: The number of serious injuries suffered in extreme sports has increased as participation in the sports continues to grow. A greater awareness of the dangers associated with these sports offers an opportunity for sports medicine and orthopaedic physicians to advocate for safer equipment, improved on-site medical care, and further research regarding extreme sports injuries. © 2015 The Author(s).},
keywords = {Article, AWARENESS, Concussion, Concussions, EPIDEMIOLOGY, extreme sport, Extreme sports, fracture, Head and neck injuries, head and neck injury, head injury, human, Incidence, laceration, major clinical study, neck injury, physician, Prevalence, priority journal, quality of life, skateboarding, skiing, telephone interview},
pubstate = {published},
tppubtype = {article}
}