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Difference between revisions of "Bruxism"
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| autore3 = Flavio Frisardi | | autore3 = Flavio Frisardi | ||
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'''Abstract:'''This chapter explores the neurophysiological mechanisms behind bruxism, a condition commonly viewed as an oral parafunctional activity not related to normal functions like eating or speaking. While the literature reports bruxism prevalence ranging from 8% to 31% in the general population, it remains a complex phenomenon often associated with jaw muscle pain, tooth wear, and headaches. There are ongoing debates about whether bruxism is pathological or a physiological function that enhances masticatory capacity, as suggested by the theory of 'Thegosis.' | |||
Through extensive literature analysis, we question whether bruxism is linked to occlusal factors, stress, anxiety syndromes, or trigeminal motoneuron excitability. Studies reveal that while occlusal factors are frequently discussed, little attention has been given to the functionality of the trigeminal nervous system. Research by İnan et al. and Jessica M. D'Amico et al. highlights the role of decreased inhibitory control in trigeminal motoneurons in individuals with bruxism, suggesting a neurophysiological basis for the condition. | |||
The chapter delves into neurobiological mechanisms, examining persistent internal ionic currents (PIC) in the trigeminal motor neuron pool and the influence of serotonin and norepinephrine during micro-awakenings, which are frequent in bruxist individuals. The relationship between drugs affecting neurotransmitter levels and the involuntary activity seen in bruxism is also discussed. However, despite advancements in understanding the neurophysiological aspects, the full pathophysiology of bruxism remains elusive, often presenting as a symptom of broader neuromotor hyperexcitability. | |||
Finally, the chapter presents a clinical case of a 32-year-old patient suffering from severe bruxism for 15 years, emphasizing the need for a thorough differential diagnosis. Using the same clinical roadmap as in the case of hemimasticatory spasm, the chapter offers insights into how the complexities of neurophysiological systems manifest in conditions like bruxism and stresses the importance of integrating a quantum probability model for a more comprehensive understanding. | |||
== Introduction to the Bruxism == | == Introduction to the Bruxism == | ||