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}
}
Lefebvre, G; Tremblay, S; Théoret, H
Probing the effects of mild traumatic brain injury with transcranial magnetic stimulation of the primary motor cortex Journal Article
In: Brain Injury, vol. 29, no. 9, pp. 1032–1043, 2015.
Abstract | Links | BibTeX | Tags: 4 aminobutyric acid B receptor, adult, aged, Article, brain concussion, brain cortex, Brain Injuries, central motor conduction time, clinical assessment, Concussion, cortical excitability, electrostimulation, evoked muscle response, Evoked Potentials, Female, human, Humans, Inhibition, latent inhibition, latent period, long interval intracortical inhibition, magnetic stimulation, Male, Medline, middle aged, Motor, motor cortex, motor evoked potential, motor nerve conduction, muscle contraction, nerve cell excitability, nerve cell plasticity, neuromuscular facilitation, Neuronal Plasticity, outcome assessment, paired associative stimulation, Pathophysiology, PHYSIOLOGY, postsynaptic inhibition, primary motor cortex, procedures, short interval intracortical inhibition, short latency afferent inhibition, sport injury, stimulus response, Systematic Review, therapy effect, theta burst stimulation, TRANSCRANIAL magnetic stimulation, traumatic brain injury, Young Adult
@article{Lefebvre2015,
title = {Probing the effects of mild traumatic brain injury with transcranial magnetic stimulation of the primary motor cortex},
author = {Lefebvre, G and Tremblay, S and Th\'{e}oret, H},
doi = {10.3109/02699052.2015.1028447},
year = {2015},
date = {2015-01-01},
journal = {Brain Injury},
volume = {29},
number = {9},
pages = {1032--1043},
abstract = {Primary objective: The present paper systematically reviews studies using transcranial magnetic stimulation (TMS) over the primary motor cortex (M1) to assess cortical excitability, intra-cortical inhibition/facilitation and synaptic plasticity following mild traumatic brain injury (mTBI).Methods: Articles using TMS over M1 in patients with mTBI or sport-related concussion indexed in PubMed and published between 1998 and September 2014 were included in the present review.Main outcomes and results: From the 17 articles that matched search criteria, results from various TMS paradigms were summarized and divided in three main areas of interest: motor cortical excitability/facilitation, motor cortical inhibition and cortical plasticity. Although studies suggest a trend of abnormal intra-cortical inhibition following mTBI, no clear and specific pattern emerges from the surveyed data.Conclusions: At this time and with the possible exception of intra-cortical inhibitory measures, TMS cannot reliably detect changes in M1 excitability in individuals with mTBI or a concussion at both the acute and chronic stages of injury. This may be explained by the small number of studies and large variety of stimulation parameters. Additional longitudinal and multimodal studies are needed to better understand the nature of the excitability changes that may occur within M1 following mTBI. © 2015 Taylor \& Francis Group, LLC.},
keywords = {4 aminobutyric acid B receptor, adult, aged, Article, brain concussion, brain cortex, Brain Injuries, central motor conduction time, clinical assessment, Concussion, cortical excitability, electrostimulation, evoked muscle response, Evoked Potentials, Female, human, Humans, Inhibition, latent inhibition, latent period, long interval intracortical inhibition, magnetic stimulation, Male, Medline, middle aged, Motor, motor cortex, motor evoked potential, motor nerve conduction, muscle contraction, nerve cell excitability, nerve cell plasticity, neuromuscular facilitation, Neuronal Plasticity, outcome assessment, paired associative stimulation, Pathophysiology, PHYSIOLOGY, postsynaptic inhibition, primary motor cortex, procedures, short interval intracortical inhibition, short latency afferent inhibition, sport injury, stimulus response, Systematic Review, therapy effect, theta burst stimulation, TRANSCRANIAL magnetic stimulation, traumatic brain injury, Young Adult},
pubstate = {published},
tppubtype = {article}
}
Keishiro, Narimatsu; Tomotaka, Takeda; Kazunori, Nakajima; Michiyo, Konno; Takamitsu, Ozawa; Keiichi, Ishigami
Effect of clenching with a mouthguard on head acceleration during heading of a soccer ball Journal Article
In: General Dentistry, vol. 63, no. 6, pp. 41–47, 2015, ISBN: 0363-6771.
BibTeX | Tags: ACCELERATION (Physiology), ADOLESCENCE, Athletes, Brain Concussion -- Prevention and Control, Continuing (Credit), Data Analysis Software, DESCRIPTIVE statistics, Education, Head, High School -- United States, human, Male, Masseter Muscle -- Physiology, Mouthguards -- Utilization, muscle contraction, P-Value, Paired T-Tests, Soccer, Sternocleidomastoid Muscles -- Physiology, UNITED States, Waveforms
@article{Keishiro2015,
title = {Effect of clenching with a mouthguard on head acceleration during heading of a soccer ball},
author = {Keishiro, Narimatsu and Tomotaka, Takeda and Kazunori, Nakajima and Michiyo, Konno and Takamitsu, Ozawa and Keiichi, Ishigami},
isbn = {0363-6771},
year = {2015},
date = {2015-01-01},
journal = {General Dentistry},
volume = {63},
number = {6},
pages = {41--47},
publisher = {Academy of General Dentistry},
address = {Chicago, Illinois},
keywords = {ACCELERATION (Physiology), ADOLESCENCE, Athletes, Brain Concussion -- Prevention and Control, Continuing (Credit), Data Analysis Software, DESCRIPTIVE statistics, Education, Head, High School -- United States, human, Male, Masseter Muscle -- Physiology, Mouthguards -- Utilization, muscle contraction, P-Value, Paired T-Tests, Soccer, Sternocleidomastoid Muscles -- Physiology, UNITED States, Waveforms},
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}
}
Lefebvre, G; Tremblay, S; Théoret, H
Probing the effects of mild traumatic brain injury with transcranial magnetic stimulation of the primary motor cortex Journal Article
In: Brain Injury, vol. 29, no. 9, pp. 1032–1043, 2015.
@article{Lefebvre2015,
title = {Probing the effects of mild traumatic brain injury with transcranial magnetic stimulation of the primary motor cortex},
author = {Lefebvre, G and Tremblay, S and Th\'{e}oret, H},
doi = {10.3109/02699052.2015.1028447},
year = {2015},
date = {2015-01-01},
journal = {Brain Injury},
volume = {29},
number = {9},
pages = {1032--1043},
abstract = {Primary objective: The present paper systematically reviews studies using transcranial magnetic stimulation (TMS) over the primary motor cortex (M1) to assess cortical excitability, intra-cortical inhibition/facilitation and synaptic plasticity following mild traumatic brain injury (mTBI).Methods: Articles using TMS over M1 in patients with mTBI or sport-related concussion indexed in PubMed and published between 1998 and September 2014 were included in the present review.Main outcomes and results: From the 17 articles that matched search criteria, results from various TMS paradigms were summarized and divided in three main areas of interest: motor cortical excitability/facilitation, motor cortical inhibition and cortical plasticity. Although studies suggest a trend of abnormal intra-cortical inhibition following mTBI, no clear and specific pattern emerges from the surveyed data.Conclusions: At this time and with the possible exception of intra-cortical inhibitory measures, TMS cannot reliably detect changes in M1 excitability in individuals with mTBI or a concussion at both the acute and chronic stages of injury. This may be explained by the small number of studies and large variety of stimulation parameters. Additional longitudinal and multimodal studies are needed to better understand the nature of the excitability changes that may occur within M1 following mTBI. © 2015 Taylor \& Francis Group, LLC.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Keishiro, Narimatsu; Tomotaka, Takeda; Kazunori, Nakajima; Michiyo, Konno; Takamitsu, Ozawa; Keiichi, Ishigami
Effect of clenching with a mouthguard on head acceleration during heading of a soccer ball Journal Article
In: General Dentistry, vol. 63, no. 6, pp. 41–47, 2015, ISBN: 0363-6771.
@article{Keishiro2015,
title = {Effect of clenching with a mouthguard on head acceleration during heading of a soccer ball},
author = {Keishiro, Narimatsu and Tomotaka, Takeda and Kazunori, Nakajima and Michiyo, Konno and Takamitsu, Ozawa and Keiichi, Ishigami},
isbn = {0363-6771},
year = {2015},
date = {2015-01-01},
journal = {General Dentistry},
volume = {63},
number = {6},
pages = {41--47},
publisher = {Academy of General Dentistry},
address = {Chicago, Illinois},
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}
}
Lefebvre, G; Tremblay, S; Théoret, H
Probing the effects of mild traumatic brain injury with transcranial magnetic stimulation of the primary motor cortex Journal Article
In: Brain Injury, vol. 29, no. 9, pp. 1032–1043, 2015.
Abstract | Links | BibTeX | Tags: 4 aminobutyric acid B receptor, adult, aged, Article, brain concussion, brain cortex, Brain Injuries, central motor conduction time, clinical assessment, Concussion, cortical excitability, electrostimulation, evoked muscle response, Evoked Potentials, Female, human, Humans, Inhibition, latent inhibition, latent period, long interval intracortical inhibition, magnetic stimulation, Male, Medline, middle aged, Motor, motor cortex, motor evoked potential, motor nerve conduction, muscle contraction, nerve cell excitability, nerve cell plasticity, neuromuscular facilitation, Neuronal Plasticity, outcome assessment, paired associative stimulation, Pathophysiology, PHYSIOLOGY, postsynaptic inhibition, primary motor cortex, procedures, short interval intracortical inhibition, short latency afferent inhibition, sport injury, stimulus response, Systematic Review, therapy effect, theta burst stimulation, TRANSCRANIAL magnetic stimulation, traumatic brain injury, Young Adult
@article{Lefebvre2015,
title = {Probing the effects of mild traumatic brain injury with transcranial magnetic stimulation of the primary motor cortex},
author = {Lefebvre, G and Tremblay, S and Th\'{e}oret, H},
doi = {10.3109/02699052.2015.1028447},
year = {2015},
date = {2015-01-01},
journal = {Brain Injury},
volume = {29},
number = {9},
pages = {1032--1043},
abstract = {Primary objective: The present paper systematically reviews studies using transcranial magnetic stimulation (TMS) over the primary motor cortex (M1) to assess cortical excitability, intra-cortical inhibition/facilitation and synaptic plasticity following mild traumatic brain injury (mTBI).Methods: Articles using TMS over M1 in patients with mTBI or sport-related concussion indexed in PubMed and published between 1998 and September 2014 were included in the present review.Main outcomes and results: From the 17 articles that matched search criteria, results from various TMS paradigms were summarized and divided in three main areas of interest: motor cortical excitability/facilitation, motor cortical inhibition and cortical plasticity. Although studies suggest a trend of abnormal intra-cortical inhibition following mTBI, no clear and specific pattern emerges from the surveyed data.Conclusions: At this time and with the possible exception of intra-cortical inhibitory measures, TMS cannot reliably detect changes in M1 excitability in individuals with mTBI or a concussion at both the acute and chronic stages of injury. This may be explained by the small number of studies and large variety of stimulation parameters. Additional longitudinal and multimodal studies are needed to better understand the nature of the excitability changes that may occur within M1 following mTBI. © 2015 Taylor \& Francis Group, LLC.},
keywords = {4 aminobutyric acid B receptor, adult, aged, Article, brain concussion, brain cortex, Brain Injuries, central motor conduction time, clinical assessment, Concussion, cortical excitability, electrostimulation, evoked muscle response, Evoked Potentials, Female, human, Humans, Inhibition, latent inhibition, latent period, long interval intracortical inhibition, magnetic stimulation, Male, Medline, middle aged, Motor, motor cortex, motor evoked potential, motor nerve conduction, muscle contraction, nerve cell excitability, nerve cell plasticity, neuromuscular facilitation, Neuronal Plasticity, outcome assessment, paired associative stimulation, Pathophysiology, PHYSIOLOGY, postsynaptic inhibition, primary motor cortex, procedures, short interval intracortical inhibition, short latency afferent inhibition, sport injury, stimulus response, Systematic Review, therapy effect, theta burst stimulation, TRANSCRANIAL magnetic stimulation, traumatic brain injury, Young Adult},
pubstate = {published},
tppubtype = {article}
}
Keishiro, Narimatsu; Tomotaka, Takeda; Kazunori, Nakajima; Michiyo, Konno; Takamitsu, Ozawa; Keiichi, Ishigami
Effect of clenching with a mouthguard on head acceleration during heading of a soccer ball Journal Article
In: General Dentistry, vol. 63, no. 6, pp. 41–47, 2015, ISBN: 0363-6771.
BibTeX | Tags: ACCELERATION (Physiology), ADOLESCENCE, Athletes, Brain Concussion -- Prevention and Control, Continuing (Credit), Data Analysis Software, DESCRIPTIVE statistics, Education, Head, High School -- United States, human, Male, Masseter Muscle -- Physiology, Mouthguards -- Utilization, muscle contraction, P-Value, Paired T-Tests, Soccer, Sternocleidomastoid Muscles -- Physiology, UNITED States, Waveforms
@article{Keishiro2015,
title = {Effect of clenching with a mouthguard on head acceleration during heading of a soccer ball},
author = {Keishiro, Narimatsu and Tomotaka, Takeda and Kazunori, Nakajima and Michiyo, Konno and Takamitsu, Ozawa and Keiichi, Ishigami},
isbn = {0363-6771},
year = {2015},
date = {2015-01-01},
journal = {General Dentistry},
volume = {63},
number = {6},
pages = {41--47},
publisher = {Academy of General Dentistry},
address = {Chicago, Illinois},
keywords = {ACCELERATION (Physiology), ADOLESCENCE, Athletes, Brain Concussion -- Prevention and Control, Continuing (Credit), Data Analysis Software, DESCRIPTIVE statistics, Education, Head, High School -- United States, human, Male, Masseter Muscle -- Physiology, Mouthguards -- Utilization, muscle contraction, P-Value, Paired T-Tests, Soccer, Sternocleidomastoid Muscles -- Physiology, UNITED States, Waveforms},
pubstate = {published},
tppubtype = {article}
}