McIntosh, A S; Lai, A; Schilter, E
Bicycle helmets: head impact dynamics in helmeted and unhelmeted oblique impact tests Journal Article
In: Traffic Injury Prevention, vol. 14, no. 5, pp. 501–508, 2013.
Abstract | BibTeX | Tags: *Accidents, *Bicycling/in [Injuries], *Craniocerebral Trauma/et [Etiology], *Head Protective Devices/ut [Utilization], Acceleration, Biological, Biomechanical Phenomena, Computer simulation, Humans, Male, Manikins, Models, Traffic/sn [Statistics & Numerical Dat
@article{McIntosh2013,
title = {Bicycle helmets: head impact dynamics in helmeted and unhelmeted oblique impact tests},
author = {McIntosh, A S and Lai, A and Schilter, E},
year = {2013},
date = {2013-01-01},
journal = {Traffic Injury Prevention},
volume = {14},
number = {5},
pages = {501--508},
abstract = {OBJECTIVE: To assess the factors, including helmet use, that contribute to head linear and angular acceleration in bicycle crash simulation tests. METHOD: A series of laboratory tests was undertaken using an oblique impact rig. The impact rig included a drop assembly with a Hybrid III head and neck. The head struck a horizontally moving striker plate. Head linear and angular acceleration and striker plate force were measured. The Head Injury Criterion was derived. The following test parameters were varied: drop height to a maximum of 1.5 m, horizontal speed to a maximum of 25 km/h, helmet/no helmet, impact orientation/location, and restraint adjustment. Additional radial impacts were conducted on the same helmet models for comparison purposes. Descriptive statistics were derived and multiple regression was applied to examine the role of each parameter. RESULTS: Helmet use was the most significant factor in reducing the magnitude of all outcome variables. Linear acceleration and the Head Injury Criterion were influenced by the drop height, whereas angular acceleration tended to be influenced by the horizontal speed and impact orientation/location. The restraint adjustment influenced the outcome variables, with lower coefficients of variation observed with the tight restraint. CONCLUSIONS: The study reinforces the benefits of wearing a bicycle helmet in a crash. The study also demonstrates that helmets do not increase angular head acceleration. The study assists in establishing the need for an agreed-upon international oblique helmet test as well as the boundary conditions for oblique helmet testing.},
keywords = {*Accidents, *Bicycling/in [Injuries], *Craniocerebral Trauma/et [Etiology], *Head Protective Devices/ut [Utilization], Acceleration, Biological, Biomechanical Phenomena, Computer simulation, Humans, Male, Manikins, Models, Traffic/sn [Statistics \& Numerical Dat},
pubstate = {published},
tppubtype = {article}
}
Chiu, W T; Huang, S J; Tsai, S H; Lin, J W; Tsai, M D; Lin, T J; Huang, W C
The impact of time, legislation, and geography on the epidemiology of traumatic brain injury Journal Article
In: Journal of Clinical Neuroscience, vol. 14, no. 10, pp. 930–935, 2007.
Abstract | BibTeX | Tags: *Accidents, *Brain Injuries/ep [Epidemiology], *Legislation as Topic/sn [Statistics & Numerical D, *Rural Population/sn [Statistics & Numerical Data], *Urban Population/sn [Statistics & Numerical Data], Accidents, adult, age distribution, aged, Cohort Studies, Female, Head Protective Devices/sn [Statistics & Numerical, Head Protective Devices/st [Standards], Humans, Incidence, Legislation as Topic/td [Trends], Male, middle aged, Motorcycles/lj [Legislation & Jurisprudence], Motorcycles/sn [Statistics & Numerical Data], Motorcycles/st [Standards], Prospective Studies, Rural Population/td [Trends], Sex Distribution, Taiwan/ep [Epidemiology], Time Factors, Traffic/lj [Legislation & Jurisprudence, Traffic/pc [Prevention & Control], Traffic/sn [Statistics & Numerical Dat, Trauma Severity Indices, Urban Population/td [Trends]
@article{Chiu2007,
title = {The impact of time, legislation, and geography on the epidemiology of traumatic brain injury},
author = {Chiu, W T and Huang, S J and Tsai, S H and Lin, J W and Tsai, M D and Lin, T J and Huang, W C},
year = {2007},
date = {2007-01-01},
journal = {Journal of Clinical Neuroscience},
volume = {14},
number = {10},
pages = {930--935},
abstract = {In 1991, a population-based epidemiologic traumatic brain injury (TBI) study was done in urban and rural areas of Taiwan; this was 5 years before the helmet use law was passed and 8 years before the drink driving law was passed. In order to evaluate the impact of three major determinants (time, geography, and legislation) on the epidemiology of TBI, we conducted a prospective study in 2001 and used the 1991 data to examine the differences in TBI distribution in urban and rural Taiwan a decade after these laws were passed. In 2001, 5754 TBI cases were collected from the urban area of Taipei City, and 1474 TBI cases were collected from the rural area of Hualien County. The TBI incidence rate in Taipei City in 2001 was estimated to be 218/100,000 population (285/100,000 for males and 152/100,000 for females). When compared to the 1991 data, the incidence rate in 2001 had increased by 20%. The TBI incidence rate in Hualien County in 2001 was estimated to be 417/100,000 population (516/100,000 for males and 306/100,000 for females); this was a 37% increase over the 1991 data. Our study found that the distribution of causes and age distribution had shifted significantly over the 10-year period. In 2001, the age group with the highest incidence was 20-29 years, while in 1991 it had been the over 70 years age group. While traffic-related TBI had decreased, falls and assaults had increased in 2001. We also found that legislation, such as the helmet law, affects TBI distribution by decreasing the traffic-related TBI rate, decreasing the admission severity of TBI, and reducing TBI-related mortality. Finally, geography plays a crucial role in the outcome of TBI; over the 10 year period, Taipei had an increase in moderately severe outcomes, while Hualien had an increase in more severe outcomes. Comparative studies of TBI in urban and rural areas have shown that time, legislation, and geography are crucial determinants of TBI epidemiology. Although time and legal interventions seem to have more of an impact, geography does affect TBI outcomes.},
keywords = {*Accidents, *Brain Injuries/ep [Epidemiology], *Legislation as Topic/sn [Statistics \& Numerical D, *Rural Population/sn [Statistics \& Numerical Data], *Urban Population/sn [Statistics \& Numerical Data], Accidents, adult, age distribution, aged, Cohort Studies, Female, Head Protective Devices/sn [Statistics \& Numerical, Head Protective Devices/st [Standards], Humans, Incidence, Legislation as Topic/td [Trends], Male, middle aged, Motorcycles/lj [Legislation \& Jurisprudence], Motorcycles/sn [Statistics \& Numerical Data], Motorcycles/st [Standards], Prospective Studies, Rural Population/td [Trends], Sex Distribution, Taiwan/ep [Epidemiology], Time Factors, Traffic/lj [Legislation \& Jurisprudence, Traffic/pc [Prevention \& Control], Traffic/sn [Statistics \& Numerical Dat, Trauma Severity Indices, Urban Population/td [Trends]},
pubstate = {published},
tppubtype = {article}
}
McIntosh, A S; Lai, A; Schilter, E
Bicycle helmets: head impact dynamics in helmeted and unhelmeted oblique impact tests Journal Article
In: Traffic Injury Prevention, vol. 14, no. 5, pp. 501–508, 2013.
@article{McIntosh2013,
title = {Bicycle helmets: head impact dynamics in helmeted and unhelmeted oblique impact tests},
author = {McIntosh, A S and Lai, A and Schilter, E},
year = {2013},
date = {2013-01-01},
journal = {Traffic Injury Prevention},
volume = {14},
number = {5},
pages = {501--508},
abstract = {OBJECTIVE: To assess the factors, including helmet use, that contribute to head linear and angular acceleration in bicycle crash simulation tests. METHOD: A series of laboratory tests was undertaken using an oblique impact rig. The impact rig included a drop assembly with a Hybrid III head and neck. The head struck a horizontally moving striker plate. Head linear and angular acceleration and striker plate force were measured. The Head Injury Criterion was derived. The following test parameters were varied: drop height to a maximum of 1.5 m, horizontal speed to a maximum of 25 km/h, helmet/no helmet, impact orientation/location, and restraint adjustment. Additional radial impacts were conducted on the same helmet models for comparison purposes. Descriptive statistics were derived and multiple regression was applied to examine the role of each parameter. RESULTS: Helmet use was the most significant factor in reducing the magnitude of all outcome variables. Linear acceleration and the Head Injury Criterion were influenced by the drop height, whereas angular acceleration tended to be influenced by the horizontal speed and impact orientation/location. The restraint adjustment influenced the outcome variables, with lower coefficients of variation observed with the tight restraint. CONCLUSIONS: The study reinforces the benefits of wearing a bicycle helmet in a crash. The study also demonstrates that helmets do not increase angular head acceleration. The study assists in establishing the need for an agreed-upon international oblique helmet test as well as the boundary conditions for oblique helmet testing.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Chiu, W T; Huang, S J; Tsai, S H; Lin, J W; Tsai, M D; Lin, T J; Huang, W C
The impact of time, legislation, and geography on the epidemiology of traumatic brain injury Journal Article
In: Journal of Clinical Neuroscience, vol. 14, no. 10, pp. 930–935, 2007.
@article{Chiu2007,
title = {The impact of time, legislation, and geography on the epidemiology of traumatic brain injury},
author = {Chiu, W T and Huang, S J and Tsai, S H and Lin, J W and Tsai, M D and Lin, T J and Huang, W C},
year = {2007},
date = {2007-01-01},
journal = {Journal of Clinical Neuroscience},
volume = {14},
number = {10},
pages = {930--935},
abstract = {In 1991, a population-based epidemiologic traumatic brain injury (TBI) study was done in urban and rural areas of Taiwan; this was 5 years before the helmet use law was passed and 8 years before the drink driving law was passed. In order to evaluate the impact of three major determinants (time, geography, and legislation) on the epidemiology of TBI, we conducted a prospective study in 2001 and used the 1991 data to examine the differences in TBI distribution in urban and rural Taiwan a decade after these laws were passed. In 2001, 5754 TBI cases were collected from the urban area of Taipei City, and 1474 TBI cases were collected from the rural area of Hualien County. The TBI incidence rate in Taipei City in 2001 was estimated to be 218/100,000 population (285/100,000 for males and 152/100,000 for females). When compared to the 1991 data, the incidence rate in 2001 had increased by 20%. The TBI incidence rate in Hualien County in 2001 was estimated to be 417/100,000 population (516/100,000 for males and 306/100,000 for females); this was a 37% increase over the 1991 data. Our study found that the distribution of causes and age distribution had shifted significantly over the 10-year period. In 2001, the age group with the highest incidence was 20-29 years, while in 1991 it had been the over 70 years age group. While traffic-related TBI had decreased, falls and assaults had increased in 2001. We also found that legislation, such as the helmet law, affects TBI distribution by decreasing the traffic-related TBI rate, decreasing the admission severity of TBI, and reducing TBI-related mortality. Finally, geography plays a crucial role in the outcome of TBI; over the 10 year period, Taipei had an increase in moderately severe outcomes, while Hualien had an increase in more severe outcomes. Comparative studies of TBI in urban and rural areas have shown that time, legislation, and geography are crucial determinants of TBI epidemiology. Although time and legal interventions seem to have more of an impact, geography does affect TBI outcomes.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
McIntosh, A S; Lai, A; Schilter, E
Bicycle helmets: head impact dynamics in helmeted and unhelmeted oblique impact tests Journal Article
In: Traffic Injury Prevention, vol. 14, no. 5, pp. 501–508, 2013.
Abstract | BibTeX | Tags: *Accidents, *Bicycling/in [Injuries], *Craniocerebral Trauma/et [Etiology], *Head Protective Devices/ut [Utilization], Acceleration, Biological, Biomechanical Phenomena, Computer simulation, Humans, Male, Manikins, Models, Traffic/sn [Statistics & Numerical Dat
@article{McIntosh2013,
title = {Bicycle helmets: head impact dynamics in helmeted and unhelmeted oblique impact tests},
author = {McIntosh, A S and Lai, A and Schilter, E},
year = {2013},
date = {2013-01-01},
journal = {Traffic Injury Prevention},
volume = {14},
number = {5},
pages = {501--508},
abstract = {OBJECTIVE: To assess the factors, including helmet use, that contribute to head linear and angular acceleration in bicycle crash simulation tests. METHOD: A series of laboratory tests was undertaken using an oblique impact rig. The impact rig included a drop assembly with a Hybrid III head and neck. The head struck a horizontally moving striker plate. Head linear and angular acceleration and striker plate force were measured. The Head Injury Criterion was derived. The following test parameters were varied: drop height to a maximum of 1.5 m, horizontal speed to a maximum of 25 km/h, helmet/no helmet, impact orientation/location, and restraint adjustment. Additional radial impacts were conducted on the same helmet models for comparison purposes. Descriptive statistics were derived and multiple regression was applied to examine the role of each parameter. RESULTS: Helmet use was the most significant factor in reducing the magnitude of all outcome variables. Linear acceleration and the Head Injury Criterion were influenced by the drop height, whereas angular acceleration tended to be influenced by the horizontal speed and impact orientation/location. The restraint adjustment influenced the outcome variables, with lower coefficients of variation observed with the tight restraint. CONCLUSIONS: The study reinforces the benefits of wearing a bicycle helmet in a crash. The study also demonstrates that helmets do not increase angular head acceleration. The study assists in establishing the need for an agreed-upon international oblique helmet test as well as the boundary conditions for oblique helmet testing.},
keywords = {*Accidents, *Bicycling/in [Injuries], *Craniocerebral Trauma/et [Etiology], *Head Protective Devices/ut [Utilization], Acceleration, Biological, Biomechanical Phenomena, Computer simulation, Humans, Male, Manikins, Models, Traffic/sn [Statistics \& Numerical Dat},
pubstate = {published},
tppubtype = {article}
}
Chiu, W T; Huang, S J; Tsai, S H; Lin, J W; Tsai, M D; Lin, T J; Huang, W C
The impact of time, legislation, and geography on the epidemiology of traumatic brain injury Journal Article
In: Journal of Clinical Neuroscience, vol. 14, no. 10, pp. 930–935, 2007.
Abstract | BibTeX | Tags: *Accidents, *Brain Injuries/ep [Epidemiology], *Legislation as Topic/sn [Statistics & Numerical D, *Rural Population/sn [Statistics & Numerical Data], *Urban Population/sn [Statistics & Numerical Data], Accidents, adult, age distribution, aged, Cohort Studies, Female, Head Protective Devices/sn [Statistics & Numerical, Head Protective Devices/st [Standards], Humans, Incidence, Legislation as Topic/td [Trends], Male, middle aged, Motorcycles/lj [Legislation & Jurisprudence], Motorcycles/sn [Statistics & Numerical Data], Motorcycles/st [Standards], Prospective Studies, Rural Population/td [Trends], Sex Distribution, Taiwan/ep [Epidemiology], Time Factors, Traffic/lj [Legislation & Jurisprudence, Traffic/pc [Prevention & Control], Traffic/sn [Statistics & Numerical Dat, Trauma Severity Indices, Urban Population/td [Trends]
@article{Chiu2007,
title = {The impact of time, legislation, and geography on the epidemiology of traumatic brain injury},
author = {Chiu, W T and Huang, S J and Tsai, S H and Lin, J W and Tsai, M D and Lin, T J and Huang, W C},
year = {2007},
date = {2007-01-01},
journal = {Journal of Clinical Neuroscience},
volume = {14},
number = {10},
pages = {930--935},
abstract = {In 1991, a population-based epidemiologic traumatic brain injury (TBI) study was done in urban and rural areas of Taiwan; this was 5 years before the helmet use law was passed and 8 years before the drink driving law was passed. In order to evaluate the impact of three major determinants (time, geography, and legislation) on the epidemiology of TBI, we conducted a prospective study in 2001 and used the 1991 data to examine the differences in TBI distribution in urban and rural Taiwan a decade after these laws were passed. In 2001, 5754 TBI cases were collected from the urban area of Taipei City, and 1474 TBI cases were collected from the rural area of Hualien County. The TBI incidence rate in Taipei City in 2001 was estimated to be 218/100,000 population (285/100,000 for males and 152/100,000 for females). When compared to the 1991 data, the incidence rate in 2001 had increased by 20%. The TBI incidence rate in Hualien County in 2001 was estimated to be 417/100,000 population (516/100,000 for males and 306/100,000 for females); this was a 37% increase over the 1991 data. Our study found that the distribution of causes and age distribution had shifted significantly over the 10-year period. In 2001, the age group with the highest incidence was 20-29 years, while in 1991 it had been the over 70 years age group. While traffic-related TBI had decreased, falls and assaults had increased in 2001. We also found that legislation, such as the helmet law, affects TBI distribution by decreasing the traffic-related TBI rate, decreasing the admission severity of TBI, and reducing TBI-related mortality. Finally, geography plays a crucial role in the outcome of TBI; over the 10 year period, Taipei had an increase in moderately severe outcomes, while Hualien had an increase in more severe outcomes. Comparative studies of TBI in urban and rural areas have shown that time, legislation, and geography are crucial determinants of TBI epidemiology. Although time and legal interventions seem to have more of an impact, geography does affect TBI outcomes.},
keywords = {*Accidents, *Brain Injuries/ep [Epidemiology], *Legislation as Topic/sn [Statistics \& Numerical D, *Rural Population/sn [Statistics \& Numerical Data], *Urban Population/sn [Statistics \& Numerical Data], Accidents, adult, age distribution, aged, Cohort Studies, Female, Head Protective Devices/sn [Statistics \& Numerical, Head Protective Devices/st [Standards], Humans, Incidence, Legislation as Topic/td [Trends], Male, middle aged, Motorcycles/lj [Legislation \& Jurisprudence], Motorcycles/sn [Statistics \& Numerical Data], Motorcycles/st [Standards], Prospective Studies, Rural Population/td [Trends], Sex Distribution, Taiwan/ep [Epidemiology], Time Factors, Traffic/lj [Legislation \& Jurisprudence, Traffic/pc [Prevention \& Control], Traffic/sn [Statistics \& Numerical Dat, Trauma Severity Indices, Urban Population/td [Trends]},
pubstate = {published},
tppubtype = {article}
}