Wang, H; Wang, B; Jackson, K; Miller, C M; Hasadsri, L; Llano, D; Rubin, R; Zimmerman, J; Johnson, C; Sutton, B
A novel head-neck cooling device for concussion injury in contact sports Journal Article
In: Translational Neuroscience, vol. 6, pp. 20–31, 2015.
Abstract | Links | BibTeX | Tags: Acceleration, Article, brain concussion, Brain hypothermia, brain perfusion, brain temperature, brain tissue, clinical study, cognition, contact sport, cooling, diving, exercise, exercise induced hyperthermia, experimental study, government, head neck cooling device, Head-neck cooling, human, hyperthermia, induced hypothermia, mild traumatic brain injury, nonhuman, priority journal, randomized controlled trial (topic), sport injury, Sports, surface property, thermal regulating system, thermal stimulation, thermoregulation, traumatic brain injury
@article{Wang2015a,
title = {A novel head-neck cooling device for concussion injury in contact sports},
author = {Wang, H and Wang, B and Jackson, K and Miller, C M and Hasadsri, L and Llano, D and Rubin, R and Zimmerman, J and Johnson, C and Sutton, B},
doi = {10.1515/tnsci-2015-0004},
year = {2015},
date = {2015-01-01},
journal = {Translational Neuroscience},
volume = {6},
pages = {20--31},
abstract = {Emerging research on the long-term impact of concussions on athletes has allowed public recognition of the potentially devastating effects of these and other mild head injuries. Mild traumatic brain injury (mTBI) is a multifaceted disease for which management remains a clinical challenge. Recent pre-clinical and clinical data strongly suggest a destructive synergism between brain temperature elevation and mTBI; conversely, brain hypothermia, with its broader, pleiotropic effects, represents the most potent neuro-protectant in laboratory studies to date. Although well-established in selected clinical conditions, a systemic approach to accomplish regional hypothermia has failed to yield an effective treatment strategy in traumatic brain injury (TBI). Furthermore, although systemic hypothermia remains a potentially valid treatment strategy for moderate to severe TBIs, it is neither practical nor safe for mTBIs. Therefore, selective head-neck cooling may represent an ideal strategy to provide therapeutic benefits to the brain. Optimizing brain temperature management using a National Aeronautics and Space Administration (NASA) spacesuit spinoff head-neck cooling technology before and/or after mTBI in contact sports may represent a sensible, practical, and effective method to potentially enhance recover and minimize post-injury deficits. In this paper, we discuss and summarize the anatomical, physiological, preclinical, and clinical data concerning NASA spinoff head-neck cooling technology as a potential treatment for mTBIs, particularly in the context of contact sports. © 2015 Huan Wang et al., licensee De Gruyter Open.},
keywords = {Acceleration, Article, brain concussion, Brain hypothermia, brain perfusion, brain temperature, brain tissue, clinical study, cognition, contact sport, cooling, diving, exercise, exercise induced hyperthermia, experimental study, government, head neck cooling device, Head-neck cooling, human, hyperthermia, induced hypothermia, mild traumatic brain injury, nonhuman, priority journal, randomized controlled trial (topic), sport injury, Sports, surface property, thermal regulating system, thermal stimulation, thermoregulation, traumatic brain injury},
pubstate = {published},
tppubtype = {article}
}
Wang, H; Wang, B; Jackson, K; Miller, C M; Hasadsri, L; Llano, D; Rubin, R; Zimmerman, J; Johnson, C; Sutton, B
A novel head-neck cooling device for concussion injury in contact sports Journal Article
In: Translational Neuroscience, vol. 6, pp. 20–31, 2015.
@article{Wang2015a,
title = {A novel head-neck cooling device for concussion injury in contact sports},
author = {Wang, H and Wang, B and Jackson, K and Miller, C M and Hasadsri, L and Llano, D and Rubin, R and Zimmerman, J and Johnson, C and Sutton, B},
doi = {10.1515/tnsci-2015-0004},
year = {2015},
date = {2015-01-01},
journal = {Translational Neuroscience},
volume = {6},
pages = {20--31},
abstract = {Emerging research on the long-term impact of concussions on athletes has allowed public recognition of the potentially devastating effects of these and other mild head injuries. Mild traumatic brain injury (mTBI) is a multifaceted disease for which management remains a clinical challenge. Recent pre-clinical and clinical data strongly suggest a destructive synergism between brain temperature elevation and mTBI; conversely, brain hypothermia, with its broader, pleiotropic effects, represents the most potent neuro-protectant in laboratory studies to date. Although well-established in selected clinical conditions, a systemic approach to accomplish regional hypothermia has failed to yield an effective treatment strategy in traumatic brain injury (TBI). Furthermore, although systemic hypothermia remains a potentially valid treatment strategy for moderate to severe TBIs, it is neither practical nor safe for mTBIs. Therefore, selective head-neck cooling may represent an ideal strategy to provide therapeutic benefits to the brain. Optimizing brain temperature management using a National Aeronautics and Space Administration (NASA) spacesuit spinoff head-neck cooling technology before and/or after mTBI in contact sports may represent a sensible, practical, and effective method to potentially enhance recover and minimize post-injury deficits. In this paper, we discuss and summarize the anatomical, physiological, preclinical, and clinical data concerning NASA spinoff head-neck cooling technology as a potential treatment for mTBIs, particularly in the context of contact sports. © 2015 Huan Wang et al., licensee De Gruyter Open.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Wang, H; Wang, B; Jackson, K; Miller, C M; Hasadsri, L; Llano, D; Rubin, R; Zimmerman, J; Johnson, C; Sutton, B
A novel head-neck cooling device for concussion injury in contact sports Journal Article
In: Translational Neuroscience, vol. 6, pp. 20–31, 2015.
Abstract | Links | BibTeX | Tags: Acceleration, Article, brain concussion, Brain hypothermia, brain perfusion, brain temperature, brain tissue, clinical study, cognition, contact sport, cooling, diving, exercise, exercise induced hyperthermia, experimental study, government, head neck cooling device, Head-neck cooling, human, hyperthermia, induced hypothermia, mild traumatic brain injury, nonhuman, priority journal, randomized controlled trial (topic), sport injury, Sports, surface property, thermal regulating system, thermal stimulation, thermoregulation, traumatic brain injury
@article{Wang2015a,
title = {A novel head-neck cooling device for concussion injury in contact sports},
author = {Wang, H and Wang, B and Jackson, K and Miller, C M and Hasadsri, L and Llano, D and Rubin, R and Zimmerman, J and Johnson, C and Sutton, B},
doi = {10.1515/tnsci-2015-0004},
year = {2015},
date = {2015-01-01},
journal = {Translational Neuroscience},
volume = {6},
pages = {20--31},
abstract = {Emerging research on the long-term impact of concussions on athletes has allowed public recognition of the potentially devastating effects of these and other mild head injuries. Mild traumatic brain injury (mTBI) is a multifaceted disease for which management remains a clinical challenge. Recent pre-clinical and clinical data strongly suggest a destructive synergism between brain temperature elevation and mTBI; conversely, brain hypothermia, with its broader, pleiotropic effects, represents the most potent neuro-protectant in laboratory studies to date. Although well-established in selected clinical conditions, a systemic approach to accomplish regional hypothermia has failed to yield an effective treatment strategy in traumatic brain injury (TBI). Furthermore, although systemic hypothermia remains a potentially valid treatment strategy for moderate to severe TBIs, it is neither practical nor safe for mTBIs. Therefore, selective head-neck cooling may represent an ideal strategy to provide therapeutic benefits to the brain. Optimizing brain temperature management using a National Aeronautics and Space Administration (NASA) spacesuit spinoff head-neck cooling technology before and/or after mTBI in contact sports may represent a sensible, practical, and effective method to potentially enhance recover and minimize post-injury deficits. In this paper, we discuss and summarize the anatomical, physiological, preclinical, and clinical data concerning NASA spinoff head-neck cooling technology as a potential treatment for mTBIs, particularly in the context of contact sports. © 2015 Huan Wang et al., licensee De Gruyter Open.},
keywords = {Acceleration, Article, brain concussion, Brain hypothermia, brain perfusion, brain temperature, brain tissue, clinical study, cognition, contact sport, cooling, diving, exercise, exercise induced hyperthermia, experimental study, government, head neck cooling device, Head-neck cooling, human, hyperthermia, induced hypothermia, mild traumatic brain injury, nonhuman, priority journal, randomized controlled trial (topic), sport injury, Sports, surface property, thermal regulating system, thermal stimulation, thermoregulation, traumatic brain injury},
pubstate = {published},
tppubtype = {article}
}