Vibrations on mastoid process alter the gait characteristics during walking on different inclines

Sun, Yuxiao; Zhu, Dejun; Song, Huiyan; Chien, Jung Hung

doi:10.7717/peerj.15111

Cited by 5 publications

(2 citation statements)

References 45 publications

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“…1 Optokinetic stimulation (OKS) reflexively activates the vestibular system in response to visual input that creates the perception of movement. 2 Likewise caloric thermal stimulation (CVS) 3 and skull vibrations (VSV) of different types and at various anatomical locations [4][5][6][7][8] have also been shown to noninvasively activate the vestibular system.…”

Section: Introductionmentioning

confidence: 99%

“…Demonstrating improved spatial-temporal parameters including step length, step time, foot clearance, and foot clearance variability while walking on inclines. All of which indicate improved gait associated with skull vibration-induced vestibular stimulation 7 While observations of transiently improved neurological function associated with various forms vestibular stimulation are increasingly reported, questions about the long-term durability of this improved function remain unanswered.…”

Section: Introductionmentioning

confidence: 99%

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The Emerging Role of Vestibular Stimulation in Brain Rehabilitation: A Representative Case Report

Kukurin,

Audren

2023

MRAJ

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The number of literature reports suggesting that various types of electrical, optokinetic, caloric, and mechanical vestibular stimulation may enhance recovery of function in patients suffering from traumatic and degenerative brain disorders is growing. This case report describes the integration of vestibular stimulation techniques into a rehabilitation treatment plan of a traumatically brain injured 16-year-old patient who had failed to sustain recovery after a course of standard care. His intractable signs and symptoms included headache, brain fog/mild cognitive impairment and disequilibrium which made participation in his chosen sport, hockey, virtually impossible. His symptoms developed following a concussion while playing hockey. He was treated by the team’s designated sports specialist and eventually cleared to return to play, however he was rapidly re-concussed. At the time he presented for evaluation, a battery of tests was conducted and clearly supported the reoccurrence of his symptoms. His baseline scores were Graded Symptom Checklist symptom severity 46, Standard Assessment of Concussion 25/30, BESS Balance Score 14, Trails Test A 15.0, Trails Test B 27.4, Processing Speed Task 63, Reaction time simple 255 and Reaction time choice 469. Standard methods of rehabilitation including Gaze Stabilization Exercises and Progressive Balance Exercises were augmented with vestibular stimulation through the use of skull vibrations and optokinetic stimulation. After 18 treatments over approximately six weeks of rehabilitation augmented with vestibular stimulation, findings associated with mTBI normalized and he was able to resume his full participation in sporting activities. His post treatment scores were. Graded Symptom Checklist symptom severity 1, Standard Assessment of Concussion 24/30, BESS Balance Score 5, Trails Test A 12.4, Trails Test B 34.0, Processing Speed Task 64, Reaction time simple 245 and Reaction time choice 385. He remained asymptomatic at 4 months follow-up post discharge and is participating fully in team hockey activities. This case report describes the integration of vestibular stimulation into neurorehabilitation protocols which appeared to be associated with sustained reduction in disability and improved treatment-refractory symptoms in a patient with traumatic brain injury. It adds to the growing knowledgebase supporting the role of vestibular stimulation as an adjunct modality in the rehabilitation of brain disorders.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The Emerging Role of Vestibular Stimulation in Brain Rehabilitation: A Representative Case Report

Kukurin,

Audren

2023

MRAJ

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Comparison Between Effects of Galvanic and Vibration-Based Vestibular Stimulation on Postural Control and Gait Performance in Healthy Participants: A Systematic Review of Cross-Sectional Studies

Xie,

Liang,

et al. 2023

Ann Biomed Eng

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The effect of mastoid vibration on joint angles of lower extremities during walking: implication for sensorimotor training for future spaceflight

Xie,

Wang,

Wang

et al. 2024

Preprint

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A spaceflight in microgravity unloads the peripheral vestibular organs and disturbs the vestibular system of astronauts. This disruption of the vestibular system forces astronauts to use different strategies to walk, such as flexing more on their knee joints to increase force to propel their bodies forward on the Moon. It should be noted that this vestibular disruption observed in microgravity cannot easily be replicated on Earth. However, mastoid vibration (MV) has been shown to be an effective alternative method for disrupting vestibular function. The application of MV during walking has been demonstrated to alter gait characteristics regardless of the different terrains. Could these changes in gait characteristics induced by MV also affect joint angle patterns in a similar manner? Therefore, the purpose of this study was to fill this knowledge gap. This study involved fifteen young adults and ten older adults. Two motion capture cylinders were used to record the trajectory of 10 body land markers. Two electromechanical vibrotactile transducers were placed on bilateral mastoid processes to generate the MV at 100Hz. A reduced-light intensity goggle was used to reduce the visual capability during walking. A total of six 2-minute walking trials were randomly assigned to each participant (3 MV: bilateral/unilateral/no MV x 2 vision levels: full/reduced vision). Dependent variables included peak values, range of motion (ROM), and respective hip, knee, and ankle joint variabilities. A significant interaction between the effects of aging, vision level, and different types of MV was observed in the peak hip flexion angle (p = 0.001). Post hoc comparisons indicated that 1) applying bilateral MV significantly decreased peak hip flexion of healthy young but increased peak hip flexion of healthy young in reduced vision condition, and 2) applying bilateral MV induced a greater effect on decreasing hip flexion than applying unilateral MV in all participants regardless of whether vision was full or reduced. The findings of this study revealed the important role of hip joints in balance control during gait under vestibular and/or visual perturbation. Also, MV could be used to simulate a vestibular-disrupted environment for astronauts for future sensorimotor training.

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Vibrations on mastoid process alter the gait characteristics during walking on different inclines

Cited by 5 publications

References 45 publications

The Emerging Role of Vestibular Stimulation in Brain Rehabilitation: A Representative Case Report

The Emerging Role of Vestibular Stimulation in Brain Rehabilitation: A Representative Case Report

Comparison Between Effects of Galvanic and Vibration-Based Vestibular Stimulation on Postural Control and Gait Performance in Healthy Participants: A Systematic Review of Cross-Sectional Studies

The effect of mastoid vibration on joint angles of lower extremities during walking: implication for sensorimotor training for future spaceflight

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