Repeatability of a Novel Prototype Surrogate Neck Model Developed for Omni-directional Head Impacts PDF Download
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Author: Gabriella Faith Wynn
Publisher:
ISBN:
Category : Head
Languages : en
Pages : 0
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Book Description
Head impacts, both concussive and sub-concussive, are common in sports and can lead to adverse side effects. Since head kinematics are thought to correlate with brain injury, the implementation of protective headgear aimed to mitigate kinematics of the head during impacts. While fatal brain injuries have been reduced, concussions and other long-term effects of repetitive head impacts are still prevalent in football players at all levels. Physical surrogate models of the human head and neck are often used to assess impact severity in sports and infer the risk of brain injury, and in helmet certifications to explore the efficacy of helmets. The surrogate models can be instrumented with accelerometers to measure resultant head kinematics. Since the neck is thought to partially govern head kinematics during impact, the surrogate necks must demonstrate several performance characteristics to produce accurate results. Commercially available necks have acceptable repeatability and reproducibility, but they were not developed for the direct, multiplane loading in sports. As such, a novel prototype surrogate neck was developed for omni-directional direct head impacts. The objective of this work was to assess the repeatability and reproducibility of the neck. Three copies of the prototype surrogate neck and one Hybrid III neck were attached to the same Hybrid III head and repeatedly impacted at 3.5 m/s using a pendulum impactor. Both the helmeted and the unhelmeted head were impacted at the front and the front boss locations. The within-neck coefficient of variation (CVW) of the prototype surrogate neck kinematics for all impact conditions was 10% or less, which satisfies standard requirements for surrogates and is comparable to work on several standardized surrogate models. While differences between the three prototype surrogate necks were generally statistically significant, the normalized absolute differences between the neck copies were usually less than 10% and less than 20% in all cases except one. Most head and neck certifications for current standardized models provide corridors that allow a range of ±10% on mean peak kinematics to be considered within specification - the normalized absolute differences of the prototype surrogate neck kinematics fall within that range. Further, the normalized absolute differences for other neck models were similar to what was calculated for the prototype surrogate neck. The reproducibility coefficient of variation (CVB) values for the prototype surrogate necks were less than 15% for all kinematics and usually 10% or less, which is considered acceptable and is comparable to the reproducibility of commercially available surrogate models. The prototype surrogate neck had CVW values equivalent to the Hybrid III, but definitive conclusions cannot be made as to whether the kinematics differ. The Hybrid III kinematics were significantly different from the prototype surrogate neck kinematics for unprotected impacts, and the normalized absolute differences were greater than the differences calculated between the three copies of the prototype surrogate neck. In contrast, the helmeted impacts resulted in kinematics that were less significantly different between the Hybrid III and the prototype surrogate neck, with the normalized absolute differences commensurate in magnitude for the Hybrid III comparison and the prototype surrogate neck reproducibility assessment. However, the Hybrid III neck almost always had kinematics consistently greater than or less than all three of the prototype surrogate necks. Thus, the signs on the kinematics allow observation of actual differences between necks. In summary, the prototype surrogate neck fit to a Hybrid III head and subject to multi-directional direct head impacts resulted in repeatable and reproducible kinematics. Although more testing is needed to quantify differences between the prototype surrogate neck and the Hybrid III, the prototype surrogate neck may be an effective tool for sports impact assessments.
Author: Gabriella Faith Wynn
Publisher:
ISBN:
Category : Head
Languages : en
Pages : 0
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Book Description
Head impacts, both concussive and sub-concussive, are common in sports and can lead to adverse side effects. Since head kinematics are thought to correlate with brain injury, the implementation of protective headgear aimed to mitigate kinematics of the head during impacts. While fatal brain injuries have been reduced, concussions and other long-term effects of repetitive head impacts are still prevalent in football players at all levels. Physical surrogate models of the human head and neck are often used to assess impact severity in sports and infer the risk of brain injury, and in helmet certifications to explore the efficacy of helmets. The surrogate models can be instrumented with accelerometers to measure resultant head kinematics. Since the neck is thought to partially govern head kinematics during impact, the surrogate necks must demonstrate several performance characteristics to produce accurate results. Commercially available necks have acceptable repeatability and reproducibility, but they were not developed for the direct, multiplane loading in sports. As such, a novel prototype surrogate neck was developed for omni-directional direct head impacts. The objective of this work was to assess the repeatability and reproducibility of the neck. Three copies of the prototype surrogate neck and one Hybrid III neck were attached to the same Hybrid III head and repeatedly impacted at 3.5 m/s using a pendulum impactor. Both the helmeted and the unhelmeted head were impacted at the front and the front boss locations. The within-neck coefficient of variation (CVW) of the prototype surrogate neck kinematics for all impact conditions was 10% or less, which satisfies standard requirements for surrogates and is comparable to work on several standardized surrogate models. While differences between the three prototype surrogate necks were generally statistically significant, the normalized absolute differences between the neck copies were usually less than 10% and less than 20% in all cases except one. Most head and neck certifications for current standardized models provide corridors that allow a range of ±10% on mean peak kinematics to be considered within specification - the normalized absolute differences of the prototype surrogate neck kinematics fall within that range. Further, the normalized absolute differences for other neck models were similar to what was calculated for the prototype surrogate neck. The reproducibility coefficient of variation (CVB) values for the prototype surrogate necks were less than 15% for all kinematics and usually 10% or less, which is considered acceptable and is comparable to the reproducibility of commercially available surrogate models. The prototype surrogate neck had CVW values equivalent to the Hybrid III, but definitive conclusions cannot be made as to whether the kinematics differ. The Hybrid III kinematics were significantly different from the prototype surrogate neck kinematics for unprotected impacts, and the normalized absolute differences were greater than the differences calculated between the three copies of the prototype surrogate neck. In contrast, the helmeted impacts resulted in kinematics that were less significantly different between the Hybrid III and the prototype surrogate neck, with the normalized absolute differences commensurate in magnitude for the Hybrid III comparison and the prototype surrogate neck reproducibility assessment. However, the Hybrid III neck almost always had kinematics consistently greater than or less than all three of the prototype surrogate necks. Thus, the signs on the kinematics allow observation of actual differences between necks. In summary, the prototype surrogate neck fit to a Hybrid III head and subject to multi-directional direct head impacts resulted in repeatable and reproducible kinematics. Although more testing is needed to quantify differences between the prototype surrogate neck and the Hybrid III, the prototype surrogate neck may be an effective tool for sports impact assessments.
Author: Melanie Franklyn
Publisher: CRC Press
ISBN: 1498742831
Category : Medical
Languages : en
Pages : 431
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Book Description
Military Injury Biomechanics: The Cause and Prevention of Impact Injuries is a reference manual where information and data from a large number of sources, focussing on injuries related to military events, has been critically reviewed and discussed. The book covers the cause and prevention of impact injuries to all the major body regions, while topics such as the historical background of military impact biomechanics, the history and use of anthropomorphic test devices for military applications and the medical management of injuries are also discussed. An international team of experts have been brought together to examine and review the topics. The book is intended for researchers, postgraduate students and others working or studying defence and impact injuries.
Author: Narayan Yoganandan
Publisher: Springer
ISBN: 1493917323
Category : Medical
Languages : en
Pages : 855
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Book Description
This book provides a state-of-the-art look at the applied biomechanics of accidental injury and prevention. The editors, Drs. Narayan Yoganandan, Alan M. Nahum and John W. Melvin are recognized international leaders and researchers in injury biomechanics, prevention and trauma medicine. They have assembled renowned researchers as authors for 29 chapters to cover individual aspects of human injury assessment and prevention. This third edition is thoroughly revised and expanded with new chapters in different fields. Topics covered address automotive, aviation, military and other environments. Field data collection; injury coding/scaling; injury epidemiology; mechanisms of injury; human tolerance to injury; simulations using experimental, complex computational models (finite element modeling) and statistical processes; anthropomorphic test device design, development and validation for crashworthiness applications in topics cited above; and current regulations are covered. Risk functions and injury criteria for various body regions are included. Adult and pediatric populations are addressed. The exhaustive list of references in many areas along with the latest developments is valuable to all those involved or intend to pursue this important topic on human injury biomechanics and prevention. The expanded edition will interest a variety of scholars and professionals including physicians, biomedical researchers in many disciplines, basic scientists, attorneys and jurists involved in accidental injury cases and governmental bodies. It is hoped that this book will foster multidisciplinary collaborations by medical and engineering researchers and academicians and practicing physicians for injury assessment and prevention and stimulate more applied research, education and training in the field of accidental-injury causation and prevention.
Author: Dennis R. Jenkins
Publisher: Government Printing Office
ISBN: 9780160901102
Category : Antiques & Collectibles
Languages : en
Pages : 540
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Book Description
"Since its earliest days, flight has been about pushing the limits of technology and, in many cases, pushing the limits of human endurance. The human body can be the limiting factor in the design of aircraft and spacecraft. Humans cannot survive unaided at high altitudes. There have been a number of books written on the subject of spacesuits, but the literature on the high-altitude pressure suits is lacking. This volume provides a high-level summary of the technological development and operational use of partial- and full-pressure suits, from the earliest models to the current high altitude, full-pressure suits used for modern aviation, as well as those that were used for launch and entry on the Space Shuttle. The goal of this work is to provide a resource on the technology for suits designed to keep humans alive at the edge of space."--NTRS Web site.
Author:
Publisher:
ISBN:
Category : Bedsores
Languages : en
Pages : 43
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Author: Cristina Morganti-Kossmann
Publisher: Cambridge University Press
ISBN: 1107007437
Category : Medical
Languages : en
Pages : 361
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Book Description
Presents the most up-to-date clinical and experimental research in neurotrauma in an illustrated, accessible, comprehensive volume.
Author: Talat Kiris
Publisher: Springer Science & Business Media
ISBN: 321175718X
Category : Medical
Languages : en
Pages : 454
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Book Description
This comprehensive volume is the current final word on the subject. It contains more than 90 papers, giving a summary of clinical and basic studies on cerebral vasospasm. It includes reviews by leading researchers in the field. Several new subjects are proposed for future research that will not only promote research from neurosurgery and neurology but also from other interconnecting fields of emergency medicine, electrophysiology, molecular biology, and vascular biology.
Author:
Publisher:
ISBN:
Category : Motor vehicles
Languages : en
Pages : 120
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Book Description
Reports for 1975- include activities under the National traffic and motor vehicle safety act of 1966 and the Motor vehicle information and cost savings act of 1972.
Author: Kevin Kelly
Publisher: Basic Books
ISBN: 078674703X
Category : Science
Languages : en
Pages : 528
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Book Description
Out of Control chronicles the dawn of a new era in which the machines and systems that drive our economy are so complex and autonomous as to be indistinguishable from living things.
Author: Shabbir Syed-Abdul
Publisher: MDPI
ISBN: 3039363506
Category : Medical
Languages : en
Pages : 498
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Book Description
This book provides a collection of comprehensive research articles on data analytics and applications of wearable devices in healthcare. This Special Issue presents 28 research studies from 137 authors representing 37 institutions from 19 countries. To facilitate the understanding of the research articles, we have organized the book to show various aspects covered in this field, such as eHealth, technology-integrated research, prediction models, rehabilitation studies, prototype systems, community health studies, ergonomics design systems, technology acceptance model evaluation studies, telemonitoring systems, warning systems, application of sensors in sports studies, clinical systems, feasibility studies, geographical location based systems, tracking systems, observational studies, risk assessment studies, human activity recognition systems, impact measurement systems, and a systematic review. We would like to take this opportunity to invite high quality research articles for our next Special Issue entitled “Digital Health and Smart Sensors for Better Management of Cancer and Chronic Diseases” as a part of Sensors journal.
