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| subtitle = ‘The progress of Science is essentially an anarchic process’<br/>Paul Karl Feyerabend
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<span class="colour-button">[https://docs.google.com/forms/d/e/1FAIpQLSd8SDy_Z-TAPscNufK2JIHyCN9AuSbbadLc2tioWfzDbDV-OQ/viewform?usp=sf_link Member Communication Hub ]</span>
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As can be seen from the 'Book Index', the scientific editorial work is what that Gianni Frisardi, who gave the idea of founding Masticationpedia, would have liked to find 40 years ago when he began to take an interest in 'Masticatory Rehabilitation'. At the same time, the project is also a pharaonic adventure given the vastness of the topics covered.   


This requires the participation of the whole 'Scientific Community' to hope to reach the paradigmatic conclusion of normalizing the 'Masticatory function' to the Central Nervous System responses rather than to the gnathological axioms. 


For these reasons the work has been divided according to Kuhn's phases which are most decisive for the paradigmatic changes in science which are, in fact, phase 2 which corresponds to '''Normal Science'''; phase 4 which corresponds to the '''Crisis of the Paradigm''' and phase 5 which kicks off the scientific revolution called '''Extraordinary Science.'''  </blockquote>




{|
<div class="book-index-columns">
|+
<div>
! colspan="12" |NORMAL SCIENCE
<p style="font-size: 150%; color: black;">'''Normal Science'''</p>
|-
<p style="font-size:  100%; color: black;">(''Public Open Access''{{Tooltip|2=This section is open to all users and represents the most inclusive part of the project, offering information and resources accessible to everyone.}})</p>
!
----
!
'''[[Introduction]]'''
!
!
!
!
!
!
!
!
!
!
|-
|
|'''[https://wiki.masticationpedia.org/index.php/Introduction_-_en Introduction]'''
|
|
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|
|'''Bruxism'''
|
|
|
|
|'''Orofacial Pain'''
|-
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|[https://wiki.masticationpedia.org/index.php/The_logic_of_medical_language_-_en Logic of medical language]


[https://wiki.masticationpedia.org/index.php/The_logic_of_classical_language_-_en The logic of Classical language]
*[[Logic of medical language]]
**[[The logic of the classical language|The logic of classical language]]
**[[The logic of the probabilistic language]]
**[[Fuzzy language logic]]
**[[System logic]]
*[[Complex Systems|The Complex Systems]]
*[[Logic of medical language: Introduction to quantum-like probability in the masticatory system]]
*[[Conclusions on the status quo in the logic of medical language regarding the masticatory system]]


[https://wiki.masticationpedia.org/index.php/The_logic_of_probabilistic_language_-_en The logic of Probabilistic language]
'''[[Hemimasticatory spasm]]'''


[https://wiki.masticationpedia.org/index.php/Fuzzy_logic_language_-_en Fuzzy logic]
*[[1° Clinical case: Hemimasticatory spasm|1° Clinical case: Emimasticatory spasm]]
**[[Encrypted code: Ephaptic transmission]]


[https://wiki.masticationpedia.org/index.php/System_logic_-_en System logic]
'''[[Bruxism]]'''


[https://wiki.masticationpedia.org/index.php/Complex_Systems_-_en The Complex Systems].   
*[[2° Clinical case: Pineal Cavernoma]]
**[[Encrypted code: Hyperexcitability of the trigeminal system]]


[https://wiki.masticationpedia.org/index.php/Logic_of_medical_language:_Introduction_to_quantum-like_probability_in_the_masticatory_system_-_en Logic of medical language: Introduction to quantum-like probability in the masticatory system]
'''[[Occlusion and Posture]]'''


* <small>[https://wiki.masticationpedia.org/index.php/Exploring%EF%BB%BF_electroencephalography_with_a_model_inspired_by_quantum_mechanics_-_en Exploring electroencephalography with a model inspired by quantum mechanics].</small>
*[[3° Clinical case: Meningioma]]
**[[Encrypted code: Bilateral Motor Evoked Potentials of trigeminal root]]


* [https://wiki.masticationpedia.org/index.php/Quantum-like_modeling_in_biology_with_open_quantum_systems_and_instruments_-_en <small>Quantum-like modeling in biology with open quantum systems and instruments</small>]
'''[[Orofacial Pain]]'''


[https://wiki.masticationpedia.org/index.php/Conclusions_on_the_status_quo_in_the_logic_of_medical_language_regarding_the_masticatory_system_-_en Conclusions on the status quo in the logic of medical language regarding the masticatory system]
*[[4° Clinical case: Temporomandibular disorders]]
*[[5° Clinical case: Spontaneous Electromyographic Activity]]


|
'''[[Are we sure to know everything?]]'''
|
|
|
|2° Clinical case: Pineal Cavernoma


* <small>The neuro-pathophysiology of temporomandibular disorders-related pain: a systematic review of structural and functional MRI studies</small>
*[[6° Clinical case: Facial onset sensory and motor neuronopathy]]
*[[7° Clinical case: Brainstem neoplasm in Orofacial pain]]
'''[[Conclusion of the ‘Normal Science’ section]]'''
</div>
<div>
<p style="font-size: 150%; color: black;">'''Crisis of Paradigm'''</p>
<p style="font-size:  100%; color: black;">(''Members only access''{{Tooltip|2=This section is reserved exclusively for users who have received a personal invitation to register on Masticationpedia. This invitation is sent only to carefully selected colleagues, chosen for their professional value, scientific interest, and distinctive qualities. If you find the topics interesting and have not received an invitation, you can request one by submitting a request through the 'Member Account request form'. (a Google Account is needed to request the Member Account).''


* <small>The neurophysiological basis of bruxism*</small>
<span class="colour-button-small" style="float: right; margin-top: 1rem;">[https://docs.google.com/forms/d/e/1FAIpQLSfNPOFCBl8twuPIzhil1frbeBrgmcTzcxkXUu_f5OktuEX4Yw/viewform?vc=0&c=0&w=1&flr=0 Member Account request]</span>}})</p>
----


<small>Is dopaminergic medication dose associated with self-reported bruxism in Parkinson’s disease? A cross-sectional, questionnaire-based study*</small>
<div class="crisis-of-paradigm-for-all">
'''[[Research Diagnostic Criteria (RDC)]]'''


* <small>Interdisciplinary recognizing and managing of drug‐induced tardive oromandibular dystonia: two case reports</small>
* [[Jaw movements analysis. Part 1: Electrognathographic Replicator|Jaw movements analysis: Electrognathographic Replicator]]
** [[Transverse Hinge Axis]]
** Vertical Hinge Axis
**The Magic of the Condylar Sphere


Encrypted code: Hyperexcitability of the trigeminal system2° Clinical case: Pineal Cavernoma
*'''Jaw movements analysis:Pantographic Replicator'''
**Intercondylar Distance
**Advantage and Limit of Pantography


|
* '''Jaw movements analysis:Axiographic Replicator'''
|
**Interfacial Distance
|
**Advantage and Limit of Axiography
|
|4° Clinical case: Temporomandibular disorders


* <small>Temporomandibular Syndrome</small>
*'''[[Electromyography|Electromyography (EMG)]]'''
**EMG  Interferential pattern
**EMG at rest position
**Quantitative Analysis of EMG
**Fourier transform
**Wavelett


* <small>Clinical, psychological, and sensory characteristics associated with headache attributed to temporomandibular disorder in people with chronic myogenous temporomandibular disorder and primary headaches</small>
* '''[[Transcutaneous Electric Nerve Stimulation]]'''
**Intraocclusal free way space
***The mysterious "Muscle tone"
** Closing trajectory from TENS


* <small>An artificially intelligent (or algorithm-enhanced) electronic medical record in orofacial pain</small> 5° Clinical case: Spontaneous Electromyographic Activity 
'''Beyond the RDC'''


* <small>Abnormal Spontaneous Electromyographic Activity*</small>
* [[Clinic Electromyography|Clinical Electromyography]]
* [[Artificial Neural Networks: Automatic Neuromuscular Diagnostic]]
* Trigeminal Neurophysiopathology
* [[Trigeminal Nociceptive Evaluation in TMD Patients by studying CO2-Laser Evoked Potentials and Masseter Laser Silent Periods]]
* [[Electrical and Magnetic Stimulation of the Central and Peripheral Nervous System:Modeling of Generated Fields and Data Interpretation]]
* [[Transcranial Magnetic Stimulation and Brain Plasticity in Post-Stroke Recovery]]
* Pain Pathophysiology
* [[Role of Metabotropic Glutamate Receptors in Pain]]
* [[Neuronal Basis of Neuropathic Pain and Neuroprotective Mechanisms of Antiepileptic Drugs]]
* Use of Functional Magnetic Resonance Imaging (fMRI) in Pain Research
* Neuroradiology in Craniofacial Pain


* <small>Demystifying the spontaneous phenomena of motor hyperexcitability</small>
'''Conclusions to the Paradigm crisis section'''
</div>
<div class="crisis-of-paradigm-for-members">
'''[[Member:Research Diagnostic Criteria (RDC)|Research Diagnostic Criteria (RDC)]]'''


Encrypted code: The trigeminal symmetry
* [[Member:Jaw movements analysis. Part 1: Electrognathographic Replicator|Jaw movements analysis: Electrognathographic Replicator]]
** [[Member:Transverse Hinge Axis|Transverse Hinge Axis]]
** Vertical Hinge Axis
**The Magic of the Condylar Sphere


|-
*'''Jaw movements analysis:Pantographic Replicator'''
|
**Intercondylar Distance
|'''[https://wiki.masticationpedia.org/index.php/Hemimasticatory_spasm_-_en Hemimasticatory spasm]'''
**Advantage and Limit of Pantography
|
|
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|'''Occlusion and Posture'''
|
|
|
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|'''Are we sure to know everything?'''
|-
|
|[https://wiki.masticationpedia.org/index.php/1°_Clinical_case:_Hemimasticatory_spasm_-_en 1° Clinical case: Emimasticatory spasm]
* [https://wiki.masticationpedia.org/index.php/Physiological_Dynamics_in_Demyelinating_Diseases:_Unraveling_Complex_Relationships_through_Computer_Modeling_-_en <small>Physiological Dynamics in Demyelinating Diseases: Unraveling Complex Relationships through Computer Modeling</small>]


* [https://wiki.masticationpedia.org/index.php/Intermittent_facial_spasms_as_the_presenting_sign_of_a_recurrent_pleomorphic_adenoma_-_en <small>Intermittent facial spasms as the presenting sign of a recurrent pleomorphic adenoma</small>] 
* '''Jaw movements analysis:Axiographic Replicator'''
**Interfacial Distance
**Advantage and Limit of Axiography


[https://www.masticationpedia.org/encrypted-code-ephaptic-transmission Encrypted code: Ephaptic transmission]
*'''[[Member:Electromyography|Electromyography (EMG)]]'''
|
**EMG  Interferential pattern
|
**EMG at rest position
|
**Quantitative Analysis of EMG
|
**Fourier transform
|3° Clinical case: Meningioma
**Wavelett


* <small>Association between constitution, axiography, analysis of dental casts, and postural control in women aged between 41 and 50 years</small>
* '''[[Member:Transcutaneous Electric Nerve Stimulation|Transcutaneous Electric Nerve Stimulation]]'''
**Intraocclusal free way space
***The mysterious "Muscle tone"
** Closing trajectory from TENS


* <small>Effect of dental malocclusion on cerebellar neuron activation via the dorsomedial part of the principal sensory trigeminal nucleus</small>
'''Beyond the RDC'''


Encrypted code: Motor Evoked Myogenic potentials
* [[Member:Clinic Electromyography|Clinic Electromyography]]
|
* [[Member:Artificial Neural Networks: Automatic Neuromuscular Diagnostic|Artificial Neural Networks: Automatic Neuromuscular Diagnostic]]
|
* Trigeminal Neurophysiopathology
|
* [[Member:Trigeminal Nociceptive Evaluation in TMD Patients by studying CO2-Laser Evoked Potentials and Masseter Laser Silent Periods|Trigeminal Nociceptive Evaluation in TMD Patients by studying CO2-Laser Evoked Potentials and Masseter Laser Silent Periods]]
|
* [[Member:Electrical and Magnetic Stimulation of the Central and Peripheral Nervous System:Modeling of Generated Fields and Data Interpretation|Electrical and Magnetic Stimulation of the Central and Peripheral Nervous System:Modeling of Generated Fields and Data Interpretation]]
|6° Clinical case: Brainstem neoplasm in Orofacial pain
* [[Member:Transcranial Magnetic Stimulation and Brain Plasticity in Post-Stroke Recovery|Transcranial Magnetic Stimulation and Brain Plasticity in Post-Stroke Recovery]]
* Pain Pathophysiology
* [[Member:Role of Metabotropic Glutamate Receptors in Pain|Role of Metabotropic Glutamate Receptors in Pain]]
* [[Member:Neuronal Basis of Neuropathic Pain and Neuroprotective Mechanisms of Antiepileptic Drugs|Neuronal Basis of Neuropathic Pain and Neuroprotective Mechanisms of Antiepileptic Drugs]]
* Use of Functional Magnetic Resonance Imaging (fMRI) in Pain Research
* Neuroradiology in Craniofacial Pain


7° Clinical case: Trigeminal neurodegenerative pathology
'''Conclusions to the Paradigm crisis section'''
</div>


* [[Kuhnian revolutions in neuroscience: the role of tool development|<small>Kuhnian revolutions in neuroscience: the role of tool development*</small>]]
</div>
 
<div>
* <small>Diagnostic Delay and Its Predictors in Cluster Headache*</small>
<p style="font-size: 150%;">'''Extraordinary science'''</p>
 
<p style="font-size:  100%; color: black;">(''in Progress'')</p>
* [[Revolutionary Science|<small>Revolutionary Science*</small>]]
----
 
<div class="extraordinary-science-for-all">
 
'''Introduction to the New Paradigm'''
Conclusion about Normal Science chapter
 
|}
{|
! colspan="12" |CRISIS OF PARADIGM
|-
!
!
!
!
!
!
!
!
!
!
!
!
|-
|
|'''Research Diagnostic Criteria (RDC)'''
|
|
|
|
|'''Mandibular kinematic replicators'''
|
|
|
|
|'''Electromyography (EMG)'''
|-
|
|
 
 
​Masticatory cycles
 
Jaw opening width
 
Speed of mandibular movement
 
Complexity of chewing kinematics
 
|
|
|
|
|Advantages and limits of  Kinematic replicators
 
Pantography
 
Axiography
 
Electrognatography
 
|
|
|
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|EMG  Interferential pattern
 
EMG at rest position
 
Quantitative analysis of the EMG
 
Fourier transform
 
Wavelett
 
|-
|
|'''Temporomandibular Joint'''
|
|
|
|
|'''Transcutaneous Electric Nerve Stimulation'''
|
|
|
|
|'''Conclusions to the Paradigm crisis chapter'''
|-
|
|Computerized Tomography of the TMJ
 
Magnetic resonance imaging of the TMJ
|
|
|
|
|Free way space before stimulation
 
Free way space after stimulation
 
Closing trajectory from TENS
|
|
|
|
|Incompleteness in the 'Research Diagnostic Criteria'
 
Need for a new paradigm
 
|}
 
 
 
 
{|
! colspan="12" |EXTRAORDINARY SCIENCE
|-
!
!
!
!
!
!
!
!
!
!
!
!
|-
|
|'''Masticatory Neurophysiology'''
|
|'''Sensory network'''
|
|
|'''Electrophysiological overall view of the Masticatory System'''
|
|
|
|
|'''Trigeminal System Connectivity'''
|-
|
|
 
 
 
Center of the Masticatory Pattern
 
Mesencephalic mechanisms
 
Trigeminal Motor nucleus
 
|
|Proprioceptive mechanisms
Neuromuscular spindles
 
Sensory mechanisms from the depressor muscles
 
Golgi Tendon Organs
 
Role of impulses from the neck muscles
 
Periodontal and Oral Sensory Factors
 
Pharyngeal sensory factors
 
Reflex of mandibular closure
 
Sensory factors of the TMJ
|
|
|Overall view of the Masticatory System​
 
Trigeminal electrophysiological segmentation
 
Electric Motors Evoked Potentials
 
Magnetic Motors Evoked Potentials
 
Jaw jerk reflex
 
M-wave
 
Masseteric Mechanical Silent Period
 
Masseteric Electric Silent Period


Masseteric Laser Silent Period
'''Connectivity'''


Recovery Cycle of Masseteric Inhibitory reflex
*Defining the Fundamental Unit
*Separating Structural Connectivity and Functional Connectivity
*Understanding emergent behaviour
*Measuring connectivity


|
'''Introduction to trigeminal electrophysiology'''
|
|
|
|Definition of the Fundamental Unit


Structural and functional connectivity Separation
*General Context
*Electrical Stimulation
*Recording Electrical Activity
*Electrodes for Stimulation and Recording
*Analysis Software
*Synchronization and Latency
* Optional Modules
*


Understanding of "Emergent Behavior"
'''Trigeminal Structural Connectivity (SC)'''


Connectivity measurement
*Trigeminal Root Motor Evoked Potentials (R-MEPS)
**Description
**Characteristics


Maximal Neuronal Energy Evoked
'''Trigeminal Functional Connectivity (FC)'''


Bilateral Trigeminal neuromotor organic symmetry
*Jaw jerk
*Masseter tendon silent period
* Masseter electrical silent period
* Recovery cycle of the masseter inhibitory reflex
*H-wave


Functional motor symmetry
'''Index''' <math>\Psi</math>


Normalization
*Model description
**Role of trigeminal motor evoked potentials (R-MEPS) in evaluating SC
**Role of trigeminal reflexes in evaluating FC
**Separation between Structural Connectivity (SC) and Functional Connectivity (FC)
**Emergent Behaviour
*Quantum Modelling of the Index <math>\Psi</math>
**Quantum Bayes Theorem (QBayes)
**Differences from the classical approach
*Expectation Value and model description
** Mathematical Formalism of QBayes
**Cosine of <math>\psi</math> as a measure of the overlap between concomitant pathologies


Muscle activation during maximum voluntary contraction and m-wave related in healthy but not in injured conditions: Implications when normalizing electromyography​
'''Indices''' <math>\Psi</math> in the masticatory rehabilitation'''


Organic vs Functional Symmetry
*Orthodontic field
*Orofacial.pain
*Implant-Prosthetics field
*Prosthetic field
</div>
<div class="extraordinary-science-for-affiliates">
'''Connectivity'''


Neuro Gnathological Functions paradigm
*Defining the Fundamental Unit
*Separating Structural Connectivity and Functional Connectivity
* Understanding emergent behaviour
*Measuring connectivity


Psi Index
'''Introduction to trigeminal electrophysiology'''


*General Context
*Electrical Stimulation
* Recording Electrical Activity
*Electrodes for Stimulation and Recording
*Analysis Software
*Synchronization and Latency
*Optional Modules
*


'''Trigeminal Structural Connectivity (SC)'''


*Trigeminal Root Motor Evoked Potentials (R-MEPS)
**Description
**Characteristics


'''Trigeminal Functional Connectivity (FC)'''


|-
*Jaw jerk
|
*Masseter tendon silent period
|'''Sensory network'''
*Masseter electrical silent period
|
*Recovery cycle of the masseter inhibitory reflex
|
*H-wave
|
|
|
|
|
|
|
|
|-
|
|Proprioceptive mechanisms


Neuromuscular spindles
'''Index''' <math>\Psi</math>


Sensory mechanisms from the depressor muscles
*Model description
**Role of trigeminal motor evoked potentials (R-MEPS) in evaluating SC
**Role of trigeminal reflexes in evaluating FC
**Separation between Structural Connectivity (SC) and Functional Connectivity (FC)
**Emergent Behaviour
*Quantum Modelling of the Index '''<math>\Psi</math>'''
**Quantum Bayes Theorem (QBayes)
**Differences from the classical approach
*Expectation Value and model description
**Mathematical Formalism of QBayes
**Cosine of <math>\psi</math> as a measure of the overlap between concomitant pathologies


Golgi Tendon Organs
'''Indices''' <math>\Psi</math> in the masticatory rehabilitation


Role of impulses from the neck muscles
*Orthodontic field
 
*Orofacial.pain
Periodontal and Oral Sensory Factors
*Implant-Prosthetics field
 
*Prosthetic field
Pharyngeal sensory factors
</div>
 
</div>
Reflex of mandibular closure
</div>
 
Sensory factors of the TMJ
|
|
|
|
|
|
|
|
|
|
 
|}
 
 
----

Latest revision as of 11:55, 7 March 2025

Book index

‘The progress of Science is essentially an anarchic process’
Paul Karl Feyerabend


Member Communication Hub



Normal Science

(Public Open Access Info.pngThis section is open to all users and represents the most inclusive part of the project, offering information and resources accessible to everyone.)

Introduction

Hemimasticatory spasm

Bruxism

Occlusion and Posture

Orofacial Pain

Are we sure to know everything?

Conclusion of the ‘Normal Science’ section

Crisis of Paradigm

(Members only access Info.pngThis section is reserved exclusively for users who have received a personal invitation to register on Masticationpedia. This invitation is sent only to carefully selected colleagues, chosen for their professional value, scientific interest, and distinctive qualities. If you find the topics interesting and have not received an invitation, you can request one by submitting a request through the 'Member Account request form'. (a Google Account is needed to request the Member Account). Member Account request)

Research Diagnostic Criteria (RDC)

  • Jaw movements analysis:Pantographic Replicator
    • Intercondylar Distance
    • Advantage and Limit of Pantography
  • Jaw movements analysis:Axiographic Replicator
    • Interfacial Distance
    • Advantage and Limit of Axiography
  • Electromyography (EMG)
    • EMG  Interferential pattern
    • EMG at rest position
    • Quantitative Analysis of EMG
    • Fourier transform
    • Wavelett

Beyond the RDC

Conclusions to the Paradigm crisis section

Research Diagnostic Criteria (RDC)

  • Jaw movements analysis:Pantographic Replicator
    • Intercondylar Distance
    • Advantage and Limit of Pantography
  • Jaw movements analysis:Axiographic Replicator
    • Interfacial Distance
    • Advantage and Limit of Axiography
  • Electromyography (EMG)
    • EMG  Interferential pattern
    • EMG at rest position
    • Quantitative Analysis of EMG
    • Fourier transform
    • Wavelett

Beyond the RDC

Conclusions to the Paradigm crisis section

Extraordinary science

(in Progress)

Introduction to the New Paradigm

Connectivity

  • Defining the Fundamental Unit
  • Separating Structural Connectivity and Functional Connectivity
  • Understanding emergent behaviour
  • Measuring connectivity

Introduction to trigeminal electrophysiology

  • General Context
  • Electrical Stimulation
  • Recording Electrical Activity
  • Electrodes for Stimulation and Recording
  • Analysis Software
  • Synchronization and Latency
  • Optional Modules

Trigeminal Structural Connectivity (SC)

  • Trigeminal Root Motor Evoked Potentials (R-MEPS)
    • Description
    • Characteristics

Trigeminal Functional Connectivity (FC)

  • Jaw jerk
  • Masseter tendon silent period
  • Masseter electrical silent period
  • Recovery cycle of the masseter inhibitory reflex
  • H-wave

Index

  • Model description
    • Role of trigeminal motor evoked potentials (R-MEPS) in evaluating SC
    • Role of trigeminal reflexes in evaluating FC
    • Separation between Structural Connectivity (SC) and Functional Connectivity (FC)
    • Emergent Behaviour
  • Quantum Modelling of the Index
    • Quantum Bayes Theorem (QBayes)
    • Differences from the classical approach
  • Expectation Value and model description
    • Mathematical Formalism of QBayes
    • Cosine of as a measure of the overlap between concomitant pathologies

Indices in the masticatory rehabilitation

  • Orthodontic field
  • Orofacial.pain
  • Implant-Prosthetics field
  • Prosthetic field

Connectivity

  • Defining the Fundamental Unit
  • Separating Structural Connectivity and Functional Connectivity
  • Understanding emergent behaviour
  • Measuring connectivity

Introduction to trigeminal electrophysiology

  • General Context
  • Electrical Stimulation
  • Recording Electrical Activity
  • Electrodes for Stimulation and Recording
  • Analysis Software
  • Synchronization and Latency
  • Optional Modules

Trigeminal Structural Connectivity (SC)

  • Trigeminal Root Motor Evoked Potentials (R-MEPS)
    • Description
    • Characteristics

Trigeminal Functional Connectivity (FC)

  • Jaw jerk
  • Masseter tendon silent period
  • Masseter electrical silent period
  • Recovery cycle of the masseter inhibitory reflex
  • H-wave

Index

  • Model description
    • Role of trigeminal motor evoked potentials (R-MEPS) in evaluating SC
    • Role of trigeminal reflexes in evaluating FC
    • Separation between Structural Connectivity (SC) and Functional Connectivity (FC)
    • Emergent Behaviour
  • Quantum Modelling of the Index
    • Quantum Bayes Theorem (QBayes)
    • Differences from the classical approach
  • Expectation Value and model description
    • Mathematical Formalism of QBayes
    • Cosine of as a measure of the overlap between concomitant pathologies

Indices in the masticatory rehabilitation

  • Orthodontic field
  • Orofacial.pain
  • Implant-Prosthetics field
  • Prosthetic field
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