User contributions
26 November 2024
Transcutaneous Electric Nerve Stimulation
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−235
Electromyography
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+37
Transcutaneous Electric Nerve Stimulation
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−1,722
25 November 2024
Transverse Hinge Axis
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+37
Jaw movements analysis. Part 1: Electrognathographic Replicator
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+36
Clinic Electromyography
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Member:Clinic Electromyography
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−22
Transcutaneous Electric Nerve Stimulation
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Electromyography
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Transverse Hinge Axis
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+27
Jaw movements analysis. Part 1: Electrognathographic Replicator
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Jaw movements analysis. Part 1: Electrognathographic Replicator
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+3,167
Transverse Hinge Axis
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−258
Transverse Hinge Axis
Replaced content with "{{main menu}} {{ArtBy| | autore = Gianni Frisardi | autore2 = Flavio Frisardi }} This chapter builds on previous critiques of the disconnection between clinical practice and the bioengineering foundations of diagnostic tools. Despite their limitations, devices like the Sirognathograph and Kinesiograph K7 remain relevant for understanding mandibular movements. However, their inability to capture rotational dynamics leads to errors in representing mandibular kine..."
−44,794
Jaw movements analysis. Part 1: Electrognathographic Replicator
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−73
Jaw movements analysis. Part 1: Electrognathographic Replicator
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Jaw movements analysis. Part 1: Electrognathographic Replicator
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Jaw movements analysis. Part 1: Electrognathographic Replicator
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−128
Jaw movements analysis. Part 1: Electrognathographic Replicator
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+36
Jaw movements analysis. Part 1: Electrognathographic Replicator
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−32,262
Member:Neuronal Basis of Neuropathic Pain and Neuroprotective Mechanisms of Antiepileptic Drugs
Created page with "{{Main menu}} {{ArtBy|||autore=Domenico Tropepe|autore2=Diego Centonze|autore3=Paolo Calabrese}} '''Abstract:''' This article explores the use of antiepileptic drugs (AEDs) beyond their traditional role in treating epilepsy, particularly in managing neuropathic pain, trigeminal neuralgia, and as neuroprotective agents in conditions such as stroke and neurodegenerative diseases. These conditions often share pathophysiological mechanisms, including neuronal hyperexcitabi..."
Member:Role of Metabotropic Glutamate Receptors in Pain
Created page with "{{Main menu}} {{ArtBy|||autore=Silvia Natoli|autore2=Cesare Iani|autore3=Massimo Tolu|autore4=Antonio Pisani}} '''Abstract:''' Glutamic acid is the most widespread excitatory neurotransmitter in the Central Nervous System (CNS), playing a critical role in numerous physiological and pathological processes. The discovery of metabotropic glutamate receptors (mGlu), a class of G-protein-coupled receptors, has led to extensive research exploring their function in both normal..."
Member:Transcranial Magnetic Stimulation and Brain Plasticity in Post-Stroke Recovery
Created page with " {{main menu}} {{ArtBy|||autore=Paolo Maria Rossini|autore2=Flavia Pauri}} '''Abstract:''' This article explores the application and mechanisms of Transcranial Magnetic Stimulation (TMS) in studying neuroplasticity, particularly in the context of motor cortex reorganization after stroke. TMS, a non-invasive technique that uses magnetic fields to stimulate specific brain regions, allows researchers to map motor cortical areas and assess neuronal excitability. The s..."
Member:Electrical and Magnetic Stimulation of the Central and Peripheral Nervous System:Modeling of Generated Fields and Data Interpretation
Created page with "{{main menu}} {{ArtBy| | autore = Paolo Ravazzani | autore2 = Gabriella Tognola | autore3 = Marta Parazzini | autore4 = Vincenzo Raschellà | autore5 = Ferdinando Grandori }} '''Abstract:''' Magnetic stimulation of the central and peripheral nervous system is widely used today in clinical neurophysiology to assess the functional status of motor efferent pathways and peripheral nerves. Introduced in the 1980s, this technique is based on the induction of high-intensity..."
Member:Trigeminal Nociceptive Evaluation in TMD Patients by studying CO2-Laser Evoked Potentials and Masseter Laser Silent Periods
Created page with " {{main menu}} {{ArtBy| | autore = Antonietta Romaniello | autore2 = | autore3 = }} '''Abstract:''' Temporomandibular dysfunction (TMD) comprises a group of painful conditions affecting the masticatory muscles and temporomandibular joint (TMJ). Despite extensive research, the pathophysiology and etiology of TMD remain unclear, with hypotheses largely unproven. Electromyographic (EMG) studies have identified alterations in the voluntary or reflex activity of the masti..."
Member:Artificial Neural Networks: Automatic Neuromuscular Diagnostic
Created page with "{{main menu}} {{ArtBy|||autore= Cesare Iani}} '''Abstract:''' In this chapter on clinical electromyography (EMG), we explore the fundamental principles and advanced techniques used to assess motor unit (MU) activity. This section offers a detailed examination of the three primary phases of an EMG exam: spontaneous activity, motor unit analysis, and interference pattern (IP) analysis. The motor unit, comprising a motor neuron, its axon, and innervated muscle fibers, is..."
Member:Clinic Electromyography
Created page with "{{main menu}}{{ArtBy|||autore= Cesare Iani}} '''Abstract:''' In this chapter on clinical electromyography (EMG), we explore the fundamental principles and advanced techniques used to assess motor unit (MU) activity. This section offers a detailed examination of the three primary phases of an EMG exam: spontaneous activity, motor unit analysis, and interference pattern (IP) analysis. The motor unit, comprising a motor neuron, its axon, and innervated muscle fibers, is th..."
Book index
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−2
Member:Transcutaneous Electric Nerve Stimulation
Created page with " {{main menu}}{{ArtBy| | autore = Gianni Frisardi | autore2 = | autore3 = }} Abstract: This chapter delves into the contentious topic of Transcutaneous Electrical Nerve Stimulation (TENS), a method that continues to spark debate within the International Scientific Community. Despite being invalidated by the Research Diagnostic Criteria (RDC) for diagnosing Temporomandibular Disorders (TMD), TENS remains widely discussed and practiced. The RDC ruled that both the freeway..."
Member:Electromyography
Created page with "{{Main menu}} {{ArtBy| | autore= Enrico Maria Staderini | autore2= }} '''Abstract:''' This chapter explores the intricacies of surface electromyography (sEMG), covering its fundamental principles, noise characteristics, electrode mechanics, and amplifier design, as well as the intricacies of signal processing. sEMG is essential for understanding muscle function, but various factors, such as signal-to-noise ratio, distortion, and interference, can complicate the interpre..."
Member:Transverse Hinge Axis
Created page with "{{main menu}} {{ArtBy| | autore = Gianni Frisardi | autore2 = | autore3 = Flavio Frisardi }} '''Abstract:''' This chapter addresses the disconnection between clinicians and the bioengineering aspects of diagnostic tools, focusing on kinematic replicators like the Sirognathograph and Kinesiograph K7. These devices, widely used for analyzing mandibular movements, lose three angular degrees of freedom, undermining their ability to accurately represent the complexity of m..."
Member:Jaw movements analysis. Part 1: Electrognathographic Replicator
Created page with "{{main menu}} {{ArtBy|||autore=Gianni Frisardi|autore2=Flavio Frisardi}} '''Abstract:''' The article delves into the diagnostic tools used for Temporomandibular Disorders (TMDs), emphasizing the limitations of electrognathographic devices like the Sirognathograph. It traces the origins of this research to critical studies from the mid-1990s, such as Lund's work, which criticized the validity of certain TMD diagnostic methods. The Research Diagnostic Criteria (RDC) we..."
12 November 2024
8 November 2024
2 November 2024
Store:ACintroduzione
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File:Figura vHA.jpg
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Store:ACintroduzione
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File:Figura 1 vHA.jpg
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Asse Cerniera verticale
Replaced content with " {{main menu |link to German= Hauptseite |link to Spanish= Pàgina Principal |link to French= Page d'accueil |link to Italian= Introduzione }} {{ArtBy|autore=Gianni Frisardi}} {{:Store:ACintroduzione}} {{:Store:ACcalibrazione}} {{:Store:ACvericale}} {{:Store:LTcondilo}} {{:Store:46laterotrusivo}} {{:Store:ACincisivo}} {{:Store:AC36mediotrusivo}} {{:Store:MTcondilo}} {{:Store:ACVconclusioni}} ---- {{Bib}}"
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Store:ACVconclusioni
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Store:ACVconclusioni
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Store:ACVconclusioni
Created page with "==Discussioni e conclusioni== Per rappresentare matematicamente l'interazione tra i condili e il tracciato del punto molare laterotrusivo, incisale, molare mediotrusivo e condilo mediotrusivo, sviluppiamo un formalismo che modelli i movimenti complessi dei condili e l'effetto risultante sul punto molare laterotrusivo. ===1. Coordinate dei Condili e del Punto Molarare=== Consideriamo le coordinate dei condili e del punto molare laterotrusivo nel sistema di riferimento..."
Store:ACincisivo
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+1
Store:ACvericale
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1 November 2024
Asse Cerniera verticale
Condilo Mediotrusivo (Non Lavorante)
+26
Asse Cerniera verticale
Condilo Laterotrusivo (Lavorante)
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Asse Cerniera verticale
1. Coordinate dei Condili e del Punto Molarare
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Store:MTcondilo
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Store:LTcondilo
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