Difference between revisions of "Logic of medical language: Introduction to quantum-like probability in the masticatory system"

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Logic of medical language: Introduction to quantum-like probability in the masticatory system (view source)

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-[[File:Schrodingers_cat.svg|link=https://cantiere.masticationpedia.org//index.php/File:Schrodingers_cat.svg|right|200x200px]]
+'''Abstract:''' This study addresses the epistemological foundations of the concept of 'Malocclusion,' proposing a neurophysiological reinterpretation that challenges the traditional orthodontic perspective. Through the analysis of clinical cases, the limits of classical macroscopic observation in diagnosing malocclusion are highlighted, introducing a quantum interpretation that considers the superposition of system states. Specifically, Schrödinger’s paradox is explored as a metaphor to describe how a complex system, like the masticatory system, can exist in a mixed state, which cannot be reduced to a simple dichotomy of healthy versus sick.
-'''Abstract:''' This study addresses the epistemological foundations of the concept of 'Malocclusion,' proposing a neurophysiologicalreinterpretation that challenges the traditional orthodontic perspective. Through the analysis of clinical cases, the limits of classical macroscopic observation in diagnosing malocclusion are highlighted, introducing a quantum interpretation that considers the superposition of system states. Specifically, Schrödinger’s paradox is explored as a metaphor to describe how a complex system, like the masticatory system, can exist in a mixed state, which cannot be reduced to a simple dichotomy of healthy versus sick.
 The clinical example of a patient who underwent orthognathic surgery (Figure 2) demonstrates how an apparently "normal" occlusal condition can conceal severe trigeminal system anomalies, revealed only through advanced electrophysiological tests. Conversely, a patient with clear signs of malocclusion (Figure 1) might present a more balanced neurophysiological profile. These findings suggest that macroscopic observable reality may not fully reflect the deeper state of the system.