Effect of static and dynamic jaw positions on postural stability among people with blindness

Background:In comparison with the people with normal sight, the mean center of gravity (COG) velocity is significantly higher among blind people. A strong relationship has been shown between jaw and neck sensorimotor and postural control. The purpose of this study was to determine the effect of different static and dynamic jaw positions on postural stability among subjects with blindness. Methods: Postural stability was measured as COG velocity in 39 blind subjects under the following five conditions: resting jaw (natural jaw position with no instructions, control), open jaw (teeth of both jaws slightly apart), clenched jaw (teeth tightly closed across each other), chewing (a standard bolus of gum at the natural palace), and tongue position (positioned behind the upper incisors) while standing on firm and foam surfaces. Results: The mean COG velocity while standing on the firm surface during resting, open jaw position, clenched jaw position, chewing, and tongue positions were 0.54, 0.50, 0.44, 0.59, and 0.46 deg/s, respectively. The mean COG velocity while standing on the foam surface during resting, open jaw position, clenched jaw position, chewing, andtongue positions were 1.42, 1.23, 1.10, 1.14, and 1.06 deg/s, respectively. Compared to the firm surface, the COG velocity was significantly higher on the foam surface in all five conditions (p < .001). In the comparison between the conditions, there were no significant differences in either the firm or foam surface in all five conditions (p > .05). Conclusion:People with blindness behave in the same way as sighted subjects on firm and foam surfaces. However, changes in static and dynamic jaw positions do not affect postural stability among them.

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Effect of static and dynamic jaw positions on postural stability among people with blindness

Alghadir

Zafar

Iqbal

et al. 2022

Brain and Behavior

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The effect of different jaw positions on upper extremity performance, core endurance, and postural stability: A cross-sectional study

Demirdel

GÜL²,

GÜMÜŞ

et al. 2023

Turkish Journal of Kinesiology

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The jaw sensorimotor system has functional relationships with other parts of the body through neuroanatomical and biomechanical interactions. The aim of this study was to examine the effects of different jaw positions on upper extremity performance, core endurance, and postural stability. This cross-sectional study included 49 healthy young adults aged 18-28 years. Upper extremity performance was evaluated using the push-up test, core endurance was evaluated using the McGill’s Trunk Flexion and Extension Test and postural stability was evaluated using the Balance Error Scoring System. All assessments were made with resting jaw and clenching jaw positions. There was no significant difference in the Push-up test and Balance Error Scoring System scores in different jaw positions (p>0.05). The Mcgill trunk flexion test and extension test performance were found to be better in the clenched jaw position (p=0.017, p=0.035, respectively). The results of this study showed that jaw clenching increases core endurance time. This result should be taken into account when planning an evaluation and rehabilitation program for the core area.

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Impact of Jaw Functional Status on Neck Flexor Endurance among Females

Shafiq

Kiran

Saleem

et al. 2023

J Shalamar Med Dent Coll

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Background: Opening and closing of the mouth, biting, and chewing are all sensory-motor tasks that require both jaw and neck muscles to be contracted simultaneously. The postural stability of healthy people can be modified by changes in the position of the jaw. Objective: To determine the impact of jaw functional status on neck flexor endurance among females and also to determine the association of neck flexion endurance with age and BMI. Methods: It was a cross-sectional study in which the convenient sampling technique was used. It included 32 healthy females between 18-25 years of age. The study was conducted at the skills Lab of Shalamar School of Allied Health Sciences, Lahore. After consent from participants the neck flexor endurance test was performed in two positions: with the resting jaw (position I), and the jaw clenched maximally (position II) in the supine position. Time was recorded by the stopwatch to see how long the participant was able to maintain in these positions. The same test was performed again with five minutes gap in both positions of the jaw. Results: It shows that there was a significant difference in neck holding time between the resting jaw position and clenched jaw position. After five minutes of rest the neck holding time in both positions was decreased but it was statistically not significant. There was weak and inverse relationship between neck flexion endurance and age (r=-0.0264) and weak but direct relationship between neck flexion endurance and BMI (r=0.283) Conclusion: The neck holding time in the clenched jaw position is less than the resting jaw position; this shows that a sensory-motor relationship exists between the neck and jaw. Variation in jaw positioning impacts neck flexor endurance.

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Effect of static and dynamic jaw positions on postural stability among people with blindness

Cited by 3 publications

References 60 publications