Difference between revisions of "Book index"
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**The Magic of the Condylar Sphere | **The Magic of the Condylar Sphere | ||
*Jaw movements analysis:Pantographic Replicator | *'''Jaw movements analysis:Pantographic Replicator''' | ||
**Intercondylar Distance | **Intercondylar Distance | ||
**Advantage and Limit of Pantography | **Advantage and Limit of Pantography | ||
* Jaw movements analysis:Axiographic Replicator | * '''Jaw movements analysis:Axiographic Replicator''' | ||
**Interfacial Distance | **Interfacial Distance | ||
**Advantage and Limit of Axiography | **Advantage and Limit of Axiography | ||
*'''Electromyography (EMG)''' | *'''[[Electromyography|Electromyography (EMG)]]''' | ||
*EMG Interferential pattern | **EMG Interferential pattern | ||
*EMG at rest position | **EMG at rest position | ||
*Quantitative Analysis of EMG | **Quantitative Analysis of EMG | ||
*Fourier transform | **Fourier transform | ||
*Wavelett | **Wavelett | ||
'''Transcutaneous Electric Nerve Stimulation''' | * '''Transcutaneous Electric Nerve Stimulation''' | ||
*Free way space before stimulation | **Free way space before stimulation | ||
*Free way space after stimulation | **Free way space after stimulation | ||
* Closing trajectory from TENS | ** Closing trajectory from TENS | ||
'''Beyond the RDC''' | '''Beyond the RDC''' | ||
* Clinical Electromyography | * [[Clinic Electromyography|Clinical Electromyography]] | ||
* Artificial Neural Networks:Automatic Neuromuscular Diagnostic | * [[Artificial Neural Networks: Automatic Neuromuscular Diagnostic]] | ||
* Trigeminal Neurophysiopathology | * Trigeminal Neurophysiopathology | ||
* 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]] | ||
* 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]] | ||
* Transcranial Magnetic Stimulation and Brain Plasticity in Post-Stroke Recovery | * [[Transcranial Magnetic Stimulation and Brain Plasticity in Post-Stroke Recovery]] | ||
* Pain Pathophysiology | * Pain Pathophysiology | ||
* Role of Metabotropic Glutamate Receptors in Pain | * Role of Metabotropic Glutamate Receptors in Pain | ||
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* Neuroradiology in Craniofacial Pain | * Neuroradiology in Craniofacial Pain | ||
'''Conclusions to the Paradigm crisis | '''Conclusions to the Paradigm crisis section''' | ||
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<p style="font-size: 150%;">'''Extraordinary science'''</p> | <p style="font-size: 150%;">'''Extraordinary science'''</p> | ||
''' | '''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 | '''Trigeminal Functional Connectivity (FC)''' | ||
* | *Jaw jerk | ||
*Masseter tendon silent period | |||
*Masseter electrical silent period | |||
*Recovery cycle of the masseter inhibitory reflex | |||
*H-wave | |||
'''Index <math>\Psi</math>''' | |||
*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 | |||
'''Indices <math>\Psi</math> in the masticatory rehabilitation''' | |||
*Orthodontic field | |||
*Orofacial.pain | |||
*Implant-Prosthetics field | |||
*Prosthetic field | |||
</div> | </div> | ||
</div> | </div> |
Latest revision as of 17:45, 17 October 2024
Normal Science
- Logic of medical language
- 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
- 4° Clinical case: Temporomandibular disorders
- 5° Clinical case: Spontaneous Electromyographic Activity
Crisis of Paradigm
Research Diagnostic Criteria (RDC)
- Jaw movements analysis: Electrognathographic Replicator
- Transverse Hinge Axis
- Vertical Hinge Axis
- The Magic of the Condylar Sphere
- 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
- Transcutaneous Electric Nerve Stimulation
- Free way space before stimulation
- Free way space after stimulation
- Closing trajectory from TENS
Beyond the RDC
- 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
Conclusions to the Paradigm crisis section
Extraordinary science
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