Difference between revisions of "Trigeminal Nervous System Segmentation"

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<translate>As Figure 10 shows, the results of the following work are schematized in accordance with the type of test performed</translate>. <translate>With a laser stimulation in the skin region corresponding to the emergence of the supraorbital nerve (V1), we can have a Blink Reflex as a reflected response (BR) and notice the perfect symmetry of the responses on sides R1 and R2</translate>. <translate>Stimulation in the perioral region will result in a reflex response from the masseterini muscles called Laser Silent Period</translate> (LSP: <translate>Laser Silent Period</translate>). <translate>We might note that, in this test, a slight asymmetry of the track—mainly caused by the different degree of motoneural recruitment in the maximum intercuspidation</translate>. <translate>The registration on the scalp determines the potential laser summers of the trigeminal somatosensory area (LEPs) and measure the negative and positive spikes (N and P)</translate>. <translate>Here too, we witness a high level of symmetry</translate>.  
<translate>As Figure 10 shows, the results of the following work are schematized in accordance with the type of test performed</translate>. <translate>With a laser stimulation in the skin region corresponding to the emergence of the supraorbital nerve (V1), we can have a Blink Reflex as a reflected response (BR) and notice the perfect symmetry of the responses on sides R1 and R2</translate>. <translate>Stimulation in the perioral region will result in a reflex response from the masseterini muscles called Laser Silent Period</translate> (LSP: <translate>Laser Silent Period</translate>). <translate>We might note that, in this test, a slight asymmetry of the track—mainly caused by the different degree of motoneural recruitment in the maximum intercuspidation</translate>. <translate>The registration on the scalp determines the potential laser summers of the trigeminal somatosensory area (LEPs) and measure the negative and positive spikes (N and P)</translate>. <translate>Here too, we witness a high level of symmetry</translate>.  


<translate>The Exposed Laser procedure is very interesting because—as shown in Figure 19—there is evidence of a high symmetry of the blue component of the Blink reflex (R2 right and left) that corresponds to the motor nerve activity of the facial nerve</translate>; <translate>a relative somatosensory symmetry might be detected(N2 and P2, while a clear asymmetry of the MCV masseterin (MIR) is denoted in the width of the motor unit by both stimulus and post-inhibition</translate>. <translate>This introduces an important concept of the neural symmetry that might reveal an extraordinarily fascinating world of neurophysiopathological notions in the field of mastication</translate>.
<translate>The Exposed Laser procedure is very interesting because — as shown in Figure 19 — there is evidence of a high symmetry of the blue component of the Blink reflex (R2 right and left) that corresponds to the motor nerve activity of the facial nerve</translate>; <translate>a relative somatosensory symmetry might be detected (N2 and P2, while a clear asymmetry of the MCV masseterin (MIR) is denoted in the width of the motor unit by both stimulus and post-inhibition</translate>. <translate>This introduces an important concept of the neural symmetry that might reveal an extraordinarily fascinating world of neurophysiopathological notions in the field of mastication</translate>.




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