Abstract
Sensory information from periodontal mechanoreceptors (PMRs) surrounding the roots of natural teeth is important for optimizing the positioning of food and adjustment of force vectors during precision biting. The present experiment was designed to test the hypothesis; that reduction of afferent inputs from the PMRs, by anesthesia, perturbs the oral fine motor control and related jaw movements during intraoral manipulation of morsels of food. Thirty healthy volunteers with a natural dentition were equally divided into experimental and control groups. The participants in both groups were asked to manipulate and split a spherical candy into two equal halves with the front teeth. An intervention was made by anesthetizing the upper and lower incisors of the experimental group while the control group performed the task without intervention. Performance of the split was evaluated and the jaw movement recorded. The experimental group demonstrated a significant decrease in measures of performance following local anesthesia. However, there was no significant changes in the duration or position of the jaw during movements in the experimental and control group. In conclusion, transient deprivation of sensory information from PMRs perturbs oral fine motor control during intraoral manipulation of food, however, no significant alterations in duration or positions of the jaw during movements can be observed.
Highlights
Sensory information from periodontal mechanoreceptors (PMRs) surrounding the roots of natural teeth is important for optimizing the positioning of food and adjustment of force vectors during precision biting
We hypothesized that sensory information from the PMRs surrounding the roots of natural teeth is important for optimizing the positioning of food and adjustment of force vectors during precision biting
In the present study we investigated the perturbation caused by the transient deprivation of sensory input to the PMRs on oral fine motor control and associated jaw movements during a standardized intraoral manipulation of food
Summary
Sensory information from periodontal mechanoreceptors (PMRs) surrounding the roots of natural teeth is important for optimizing the positioning of food and adjustment of force vectors during precision biting. The present experiment was designed to test the hypothesis; that reduction of afferent inputs from the PMRs, by anesthesia, perturbs the oral fine motor control and related jaw movements during intraoral manipulation of morsels of food. Transient deprivation of sensory information from PMRs perturbs oral fine motor control during intraoral manipulation of food, no significant alterations in duration or positions of the jaw during movements can be observed. The aim of the present experiment was to test the hypothesis; that decreased inputs from the PMRs, due to local anesthesia, would perturb the oral fine motor control and the related jaw movements, during intraoral manipulation of food morsels
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