Difference between revisions of "System logic"
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| autore7 = Irene Minciacchi | | autore7 = Irene Minciacchi | ||
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'''Abstract:''' The transition to "System Logic" in medical science, particularly within the dental field, is guided by two fundamental elements: dental clinical indices and the logic of medical language. Clinical indices, such as the Henderson-Hasselbalch equation, offer objective reference points critical for accurate diagnoses, yet their validity is often debated. While indices provide measurable data, subjective interpretations have historically influenced clinical outcomes. In orthodontics, indices like the Peer Assessment Rating (PAR) have been adopted to assess treatment success, but concerns arise over their ability to fully capture the complexity of dental occlusion and function. | |||
The logic of medical language also faces scrutiny for its limitations in addressing the dynamic, complex nature of living systems. Classical logic and probabilistic models, while useful, often fall short when dealing with the uncertainties inherent in medical diagnoses. This has led to the introduction of "fuzzy logic" as a more flexible approach that can handle gradations of truth and uncertainty in clinical decision-making. | |||
Furthermore, this work delves into Systems Theory as a framework for understanding biological and clinical phenomena. The masticatory system is examined through this lens, using electrophysiological tests such as Root-MEPs (Motor Evoked Potentials) to demonstrate the practical application of systems logic. By integrating bioengineering models with clinical practice, this approach aims to enhance diagnostic accuracy, reduce errors, and allow for early detection of pathologies, thereby improving patient outcomes. | |||
==Foreword== | ==Foreword== | ||
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A test, a normative reference datum or an 'Index' (as well as a 'Constant') are strategies related to mathematical-statistical models that generate data. These data are mandatory for the accuracy of the diagnosis, for the differential diagnosis as well as for the therapeutic guidelines. On these reference data, in the times of scientific dental history, implementations and modifications have been generated but also uncertainties and beliefs that in the form of axioms or schools of thought have set guidelines that are not always scientifically justifiable, and sometimes untrue. | A test, a normative reference datum or an 'Index' (as well as a 'Constant') are strategies related to mathematical-statistical models that generate data. These data are mandatory for the accuracy of the diagnosis, for the differential diagnosis as well as for the therapeutic guidelines. On these reference data, in the times of scientific dental history, implementations and modifications have been generated but also uncertainties and beliefs that in the form of axioms or schools of thought have set guidelines that are not always scientifically justifiable, and sometimes untrue. | ||
===In literature=== | === In literature=== | ||
We can take into consideration the data reported in the literature regarding the 'Indices' studied on patients suffering from 'Temporomandibular Disorders'<ref>Results in [https://pubmed.ncbi.nlm.nih.gov PubMed] for "[https://pubmed.ncbi.nlm.nih.gov/?term=%22temporomandibular+disorders+index%22&filter=datesearch.y_1 Temporomandibular disorders Index]"</ref> or enter more specifically about masticatory rehabilitations and verify the 'Clinical Indices' topic in orthodontic disciplines.<ref>Results in [https://pubmed.ncbi.nlm.nih.gov PubMed] for "[https://pubmed.ncbi.nlm.nih.gov/?term=%22orthodontics%20index%22&filter=simsearch2.ffrft&filter=datesearch.y_1 Orthodontics Indexes]"</ref> | We can take into consideration the data reported in the literature regarding the 'Indices' studied on patients suffering from 'Temporomandibular Disorders'<ref>Results in [https://pubmed.ncbi.nlm.nih.gov PubMed] for "[https://pubmed.ncbi.nlm.nih.gov/?term=%22temporomandibular+disorders+index%22&filter=datesearch.y_1 Temporomandibular disorders Index]"</ref> or enter more specifically about masticatory rehabilitations and verify the 'Clinical Indices' topic in orthodontic disciplines.<ref>Results in [https://pubmed.ncbi.nlm.nih.gov PubMed] for "[https://pubmed.ncbi.nlm.nih.gov/?term=%22orthodontics%20index%22&filter=simsearch2.ffrft&filter=datesearch.y_1 Orthodontics Indexes]"</ref> | ||
In a recent article by Andrea Scribante and collaborators,<ref>{{cita libro | In a recent article by Andrea Scribante and collaborators,<ref>{{cita libro | ||
| autore = | | autore = Sfondrini MF | ||
| autore2 = | | autore2 = Zampetti P | ||
| autore3 = | | autore3 = Luscher G | ||
| autore4 = | | autore4 = Gandini P | ||
| autore5 = | | autore5 = Gandía-Franco JL | ||
| autore6 = | | autore6 = Scribante A | ||
| autore7 = | | autore7 = | ||
| titolo = Orthodontic Treatment and Healthcare Goals: Evaluation of Multibrackets Treatment Results Using PAR Index (Peer Assessment Rating) | | titolo = Orthodontic Treatment and Healthcare Goals: Evaluation of Multibrackets Treatment Results Using PAR Index (Peer Assessment Rating) | ||
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| autore3 = Hurst D | | autore3 = Hurst D | ||
| titolo = Orthodontic outcomes assessment using the peer assessment rating index | | titolo = Orthodontic outcomes assessment using the peer assessment rating index | ||
| url = https:// | | url = https://meridian.allenpress.com/angle-orthodontist/article/71/3/164/57522/Orthodontic-Outcomes-Assessment-Using-the-Peer | ||
| volume = | | volume = | ||
| opera = Angle Orthod | | opera = Angle Orthod | ||
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| LCCN = | | LCCN = | ||
| OCLC = | | OCLC = | ||
}} - [https://grortho.gr/associations-between-pretreatment-age-and-treatment-time-with-orthodontic-treatment-outcome-a-comparison-by-means-of-two-orthodontic-indices/?lang=en see also]</ref> and to improve the quality of future treatments.<ref>{{cita libro | }} - ''[https://grortho.gr/associations-between-pretreatment-age-and-treatment-time-with-orthodontic-treatment-outcome-a-comparison-by-means-of-two-orthodontic-indices/?lang=en see also]''</ref> and to improve the quality of future treatments.<ref>{{cita libro | ||
| autore = Hickman JH | | autore = Hickman JH | ||
| titolo = Directional edgewise orthodontic approach. 5 | | titolo = Directional edgewise orthodontic approach. 5 | ||
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| url = https://www.researchgate.net/publication/6389456_PAR_Index_in_the_Evaluation_of_the_Stability_of_the_Orthodontic_Treatment_Results_A_Review/fulltext/5adbdc64a6fdcc29358a3491/PAR-Index-in-the-Evaluation-of-the-Stability-of-the-Orthodontic-Treatment-Results-A-Review.pdf?origin=publication_detail | | url = https://www.researchgate.net/publication/6389456_PAR_Index_in_the_Evaluation_of_the_Stability_of_the_Orthodontic_Treatment_Results_A_Review/fulltext/5adbdc64a6fdcc29358a3491/PAR-Index-in-the-Evaluation-of-the-Stability-of-the-Orthodontic-Treatment-Results-A-Review.pdf?origin=publication_detail | ||
| volume = | | volume = | ||
| opera = Acta Medica (Hradec | | opera = Acta Medica (Hradec Králové) | ||
| anno = 2006 | | anno = 2006 | ||
| editore = | | editore = | ||
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Spyridon N. Papageorgiou<ref>{{cita libro | Spyridon N. Papageorgiou<ref>{{cita libro | ||
| autore = | | autore = Angst C | ||
| autore2 = | | autore2 = Eliades T | ||
| autore3 = | | autore3 = Papageorgiou SN | ||
| titolo = Stability of occlusal outcome during long-term retention: the time-dependent variation of the American Board of Orthodontics index | | titolo = Stability of occlusal outcome during long-term retention: the time-dependent variation of the American Board of Orthodontics index | ||
| url = https://www.zora.uzh.ch/id/eprint/194364/1/p01_ok.pdf | | url = https://www.zora.uzh.ch/id/eprint/194364/1/p01_ok.pdf | ||
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Other authors state that relapse after orthodontic treatment can also occur in cases with good functional occlusion.<ref>{{cita libro | Other authors state that relapse after orthodontic treatment can also occur in cases with good functional occlusion.<ref>{{cita libro | ||
| autore = | | autore = Lyotard N | ||
| autore2 = | | autore2 = Hans M | ||
| autore3 = | | autore3 = Nelson S | ||
| autore4 = | | autore4 = Valiathan M | ||
| titolo = Short-term postorthodontic changes in the absence of retention | | titolo = Short-term postorthodontic changes in the absence of retention | ||
| url = https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8929484/pdf/i0003-3219-80-6-1045.pdf | | url = https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8929484/pdf/i0003-3219-80-6-1045.pdf | ||
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| opera = Angle Orthod | | opera = Angle Orthod | ||
| anno = 2010 | | anno = 2010 | ||
| editore = | | editore = The EH Angle Education and Research Foundation, Inc. | ||
| città = | | città = | ||
| ISBN = | | ISBN = | ||
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| autore = Reitan K | | autore = Reitan K | ||
| autore2 = Kvam E | | autore2 = Kvam E | ||
| titolo = Comparative behavior of human and animal tissue during experimental tooth movement | | titolo = Comparative behavior of human and animal tissue during experimental tooth movement | ||
| url = https://meridian.allenpress.com/angle-orthodontist/article-pdf/41/1/1/1368969/0003-3219(1971)041_0001_cbohaa_2_0_co_2.pdf | | url = https://meridian.allenpress.com/angle-orthodontist/article-pdf/41/1/1/1368969/0003-3219(1971)041_0001_cbohaa_2_0_co_2.pdf | ||
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| OCLC = | | OCLC = | ||
}}</ref> physiological maturation of the human dentition which affects its width, length or perimeter<ref>{{cita libro | }}</ref> physiological maturation of the human dentition which affects its width, length or perimeter<ref>{{cita libro | ||
| autore = | | autore = Thilander B | ||
| titolo = Dentoalveolar development in subjects with normal occlusion. A longitudinal study between the ages of 5 and 31 years | | titolo = Dentoalveolar development in subjects with normal occlusion. A longitudinal study between the ages of 5 and 31 years | ||
| url = https://academic.oup.com/ejo/article-pdf/31/2/109/1273020/cjn124.pdf | | url = https://academic.oup.com/ejo/article-pdf/31/2/109/1273020/cjn124.pdf | ||
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| OCLC = | | OCLC = | ||
}}</ref> and parafunctions.<ref>{{cita libro | }}</ref> and parafunctions.<ref>{{cita libro | ||
| autore = | | autore = Lang G | ||
| autore2 = | | autore2 = Alfter G | ||
| autore3 = | | autore3 = Göz G | ||
| autore4 = | | autore4 = Lang GH | ||
| titolo = Retention and stability--taking various treatment parameters into account | | titolo = Retention and stability--taking various treatment parameters into account | ||
| url = https://pubmed.ncbi.nlm.nih.gov/11974450/ | | url = https://pubmed.ncbi.nlm.nih.gov/11974450/ | ||
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Retention of treatment results is therefore considered to be one of the most difficult problems in orthodontics, and relapses, especially of the mandibular incisors, could also be observed with the use of retention devices after debonding.<ref>{{cita libro | Retention of treatment results is therefore considered to be one of the most difficult problems in orthodontics, and relapses, especially of the mandibular incisors, could also be observed with the use of retention devices after debonding.<ref>{{cita libro | ||
| autore = | | autore = Steinnes J | ||
| autore2 = | | autore2 = Johnsen G | ||
| autore3 = | | autore3 = Kerosuo H | ||
| titolo = Stability of orthodontic treatment outcome in relation to retention status: An 8-year follow-up | | titolo = Stability of orthodontic treatment outcome in relation to retention status: An 8-year follow-up | ||
| url = https://pubmed.ncbi.nlm.nih.gov/28554448/ | | url = https://pubmed.ncbi.nlm.nih.gov/28554448/ | ||
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| OCLC = | | OCLC = | ||
}}</ref> Most of the existing post-treatment stability studies evaluate short-term relapses of the anterior region by primarily measuring the irregularity of the incisors after extractive or non-extractive treatment and compare different retention patterns. These studies largely use the Peer Assessment Rating (PAR) index<ref>{{cita libro | }}</ref> Most of the existing post-treatment stability studies evaluate short-term relapses of the anterior region by primarily measuring the irregularity of the incisors after extractive or non-extractive treatment and compare different retention patterns. These studies largely use the Peer Assessment Rating (PAR) index<ref>{{cita libro | ||
| autore = | | autore = de Freitas KM | ||
| autore2 = | | autore2 = Janson G | ||
| autore3 = | | autore3 = de Freitas MR | ||
| autore4 = | | autore4 = Pinzan A | ||
| autore5 = | | autore5 = Henriques JF | ||
| autore6 = | | autore6 = Pinzan-Vercelino CR | ||
| autore7 = | | autore7 = | ||
| titolo = Influence of the quality of the finished occlusion on postretention occlusal relapse | | titolo = Influence of the quality of the finished occlusion on postretention occlusal relapse | ||
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| LCCN = | | LCCN = | ||
| OCLC = | | OCLC = | ||
}} | }}</ref> which is not a trigeminal electrophysiological analysis approach in considering 'Normocclusion' much less the details of a well balanced occlusion (such as contacts, inclinations and alignment of each tooth) or changes in retention only in the short term.<ref>{{cita libro | ||
| autore = Hoybjerg AJ | |||
| autore2 = Currier GF | |||
| autore3 = Kadioglu O | |||
| titolo = Evaluation of 3 retention protocols using the American Board of Orthodontics cast and radiograph evaluation | |||
| url = https://pubmed.ncbi.nlm.nih.gov/23810041/ | |||
| volume = | |||
| opera = Am J Orthod Dentofacial Orthop | |||
| anno = 2013 | |||
| editore = | |||
| città = | |||
| ISBN = | |||
| DOI = 10.1016/j.ajodo.2013.02.022 | |||
| PMID = 23810041 | |||
| PMCID = | |||
| oaf = <!-- qualsiasi valore --> | |||
| LCCN = | |||
| OCLC = | |||
}}</ref> | |||
To the authors' knowledge at the time of publication of their study, only one study<ref>Nett | To the authors' knowledge at the time of publication of their study, only one study<ref>{{cita libro | ||
| autore = Nett BC | |||
| autore2 = Huang GJ | |||
| titolo = Long-term posttreatment changes measured by the American Board of Orthodontics objective grading system | |||
| url = https://pubmed.ncbi.nlm.nih.gov/15821689 | |||
| volume = | |||
| opera = Am J Orthod Dentofacial Orthop | |||
| anno = 2005 | |||
| editore = Elsevier Inc | |||
| città = | |||
| ISBN = | |||
| DOI = 10.1016/j.ajodo.2004.03.029 | |||
| PMID = 15821689 | |||
| PMCID = | |||
| oaf = <!-- qualsiasi valore --> | |||
| LCCN = | |||
| OCLC = | |||
}}</ref> used the American Board of Orthodontics (ABO)<ref>{{cita libro | |||
| autore = Casko JS | |||
| autore2 = Vaden JL | |||
| autore3 = Kokich VG | |||
| autore4 = Damone J | |||
| autore5 = James RD | |||
| autore6 = Cangialosi TJ | |||
| autore7 = Riolo ML | |||
| author8 = Owens SE Jr | |||
| author9 = Bills ED | |||
| titolo = Objective grading system for dental casts and panoramic radiographs | |||
| url = https://pubmed.ncbi.nlm.nih.gov/9810056 | |||
| volume = | |||
| opera = Am J Orthod Dentofacial Orthop | |||
| anno = 1998 | |||
| editore = | |||
| città = | |||
| ISBN = | |||
| DOI = 10.1016/s0889-5406(98)70179-9 | |||
| PMID = 9810056 | |||
| PMCID = | |||
| oaf = <!-- qualsiasi valore --> | |||
| LCCN = | |||
| OCLC = | |||
}}</ref> detailed objective classification system for models and radiographs which measures the details of a well-finished and well-balanced occlusion. | |||
{{q2|The aforementioned study is not only interesting but also stimulating, from a scientific point of view, as it states that relapses could occur even in the presence of adequate functional occlusion. |Constructive criticism, however, is inherent in the statement itself: how is an efficient masticatory function and, therefore, a 'Normocclusion' defined? }} | {{q2|The aforementioned study is not only interesting but also stimulating, from a scientific point of view, as it states that relapses could occur even in the presence of adequate functional occlusion. |Constructive criticism, however, is inherent in the statement itself: how is an efficient masticatory function and, therefore, a 'Normocclusion' defined? }} | ||
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==Systems Theory== | ==Systems Theory== | ||
In the scientific field, systems theory, more properly general system theory (definition by Ludwig von Bertalanffy),<ref>{{Cita libro | In the scientific field, systems theory, more properly general system theory (definition by Ludwig von Bertalanffy),<ref>{{Cita libro | ||
|autore = | |autore = von Bertalanffy L | ||
|titolo = General System Theory: Foundations, Development, Applications | |titolo = General System Theory: Foundations, Development, Applications | ||
|url = https://archive.org/details/generalsystemthe0000bert|anno = 1968 | |url = https://archive.org/details/generalsystemthe0000bert | ||
|anno = 1968 | |||
|opera = Arch Gen Psychiatry | |opera = Arch Gen Psychiatry | ||
|editore = George Braziller | |editore = George Braziller | ||
Line 528: | Line 571: | ||
}}</ref> is an often interdisciplinary field of study, straddling mathematics and natural sciences, which deals with the analysis of properties and the constitution of a system. It is essentially composed of the theory of dynamic systems (simple and complex) and of the theory of control: it is the basis of various disciplines such as automation, robotics and cybernetic physics, as well as the technical-scientific study of systems in general as much as in biology and medicine. | }}</ref> is an often interdisciplinary field of study, straddling mathematics and natural sciences, which deals with the analysis of properties and the constitution of a system. It is essentially composed of the theory of dynamic systems (simple and complex) and of the theory of control: it is the basis of various disciplines such as automation, robotics and cybernetic physics, as well as the technical-scientific study of systems in general as much as in biology and medicine. | ||
Systems theory is the interdisciplinary study of systems, that could be described as cohesive groups of interconnected and interdependent parts that can be natural or man-made. Each system is bounded by space and time, influenced by its environment, defined by its structure and expressed through its functioning. A system can be more than the sum of its parts if it expresses emerging synergies or behaviors.<ref>[https://pubmed.ncbi.nlm.nih.gov/?term=%22emergent+behaviour%22&filter=datesearch.y_10 Emergent Behaviour]</ref> | Systems theory is the interdisciplinary study of systems, that could be described as cohesive groups of interconnected and interdependent parts that can be natural or man-made. Each system is bounded by space and time, influenced by its environment, defined by its structure and expressed through its functioning. A system can be more than the sum of its parts if it expresses emerging synergies or behaviors.<ref>[https://pubmed.ncbi.nlm.nih.gov/?term=%22emergent+behaviour%22&filter=datesearch.y_10 Emergent Behaviour] on PubMed</ref> | ||
Changing one part of a system might affect other parts or the whole system. It may be possible to predict these changes in behavior patterns. Some systems support other systems, keeping the others to prevent failure. The goals of systems theory are to model the dynamics, constraints, conditions of a system and to clarify the principles (such as purpose, measure, methods, tools) that can be identified and applied to other systems at any level of nesting and in a 'wide range of fields to achieve optimized equifinality.<ref>[[wikipedia:Equifinality|Equifinality]]</ref> | Changing one part of a system might affect other parts or the whole system. It may be possible to predict these changes in behavior patterns. Some systems support other systems, keeping the others to prevent failure. The goals of systems theory are to model the dynamics, constraints, conditions of a system and to clarify the principles (such as purpose, measure, methods, tools) that can be identified and applied to other systems at any level of nesting and in a 'wide range of fields to achieve optimized equifinality.<ref>Wikipedia article for ''[[wikipedia:Equifinality|Equifinality]]''</ref> | ||
To be practical and effective in the description of the concept 'System logic' we consider an approach to a part of the trigeminal motor system, since it is the cornerstone of this scientific work, in which the conceptual connection with the 'Theory of Systems'. | To be practical and effective in the description of the concept 'System logic' we consider an approach to a part of the trigeminal motor system, since it is the cornerstone of this scientific work, in which the conceptual connection with the 'Theory of Systems'. | ||
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===Masticatory System Logic=== | ===Masticatory System Logic=== | ||
Regarding the analysis of the state of the masticatory system, the EMG technique has been widely used but there are still a number of concerns regarding the reliability of the measures based on the interferential EMG. <ref>Reaz MB | Regarding the analysis of the state of the masticatory system, the EMG technique has been widely used but there are still a number of concerns regarding the reliability of the measures based on the interferential EMG.<ref>{{cita libro | ||
| autore = Reaz MB | |||
| autore2 = Hussain MS | |||
| autore3 = Mohd-Yasin F | |||
| titolo = Techniques of EMG signal analysis: detection, processing, classification and applications (Correction) | |||
| url = https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1455479/pdf/bpo_v8_p11_m115.pdf | |||
| volume = | |||
| opera = Biol Proced Online | |||
| anno = 2006 | |||
| editore = | |||
| città = | |||
| ISBN = | |||
| DOI = 10.1251/bpo115 | |||
| PMID = 16799694 | |||
| PMCID = PMC1455479 | |||
| oaf = <!-- qualsiasi valore --> | |||
| LCCN = | |||
| OCLC = | |||
}}</ref> | |||
This is why most of the studies performed so far aimed at showing a possible correlation between EMG signals with Temporomandibular Disorders (TMD), Orofacial Pain (OP) or Malocclusion (IO), but they have not yielded convincing results.<ref>Masci C | This is why most of the studies performed so far aimed at showing a possible correlation between EMG signals with Temporomandibular Disorders (TMD), Orofacial Pain (OP) or Malocclusion (IO), but they have not yielded convincing results.<ref>{{cita libro | ||
| autore = Masci C | |||
| autore2 = Ciarrocchi I | |||
| autore3 = Spadaro A | |||
| autore4 = Necozione S | |||
| autore5 = Marci MC | |||
| autore6 = Monaco A | |||
| titolo = Does orthodontic treatment provide a real functional improvement? A case control study | |||
| url = https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3827987/pdf/1472-6831-13-57.pdf | |||
| volume = | |||
| opera = BMC Oral Health | |||
| anno = 2013 | |||
| editore = BioMed Central Ltd | |||
| città = | |||
| ISBN = | |||
| DOI = 10.1186/1472-6831-13-57 | |||
| PMID = 24152806 | |||
| PMCID = PMC3827987 | |||
| oaf = CC-BY 2<!-- qualsiasi valore --> | |||
| LCCN = | |||
| OCLC = | |||
}}</ref> | |||
In an unknown percentage of OP patients visited by specialist dentists, some neurological diseases such as intracranial tumours, multiple sclerosis, etc. are the underlying symptoms cause of TMD or OP. | In an unknown percentage of OP patients visited by specialist dentists, some neurological diseases such as intracranial tumours, multiple sclerosis, etc. are the underlying symptoms cause of TMD or OP. | ||
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| autore = Moazzam AA | | autore = Moazzam AA | ||
| autore2 = Habibian M | | autore2 = Habibian M | ||
| titolo = Patients appearing to dental professionals with orofacial pain arising from intracranial tumors: a literature review | | titolo = Patients appearing to dental professionals with orofacial pain arising from intracranial tumors: a literature review | ||
| url = https://pubmed.ncbi.nlm.nih.gov/23036798/ | | url = https://pubmed.ncbi.nlm.nih.gov/23036798/ | ||
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}}</ref> | }}</ref> | ||
{{q2|When approaching the modeling of a diagnostic 'Index' it is essential to consider the 'Fundamental Unit' of the system to be studied mathematically.|... as said, the 'Observable' cannot be the occlusal element because it is hierarchically lower than the Trigeminal Nervous System.}} | {{q2|When approaching the modeling of a diagnostic 'Index' it is essential to consider the 'Fundamental Unit' of the system to be studied mathematically.|... as said, the 'Observable' cannot be the occlusal element because it is hierarchically lower than the Trigeminal Nervous System.}} | ||
[[File:Bilateral Root-MEPs.jpg|thumb | [[File:Bilateral Root-MEPs.jpg|thumb|center|500px|'''Figure 4:''' Virtual segmentation of the Trigeminal Nervous System and annotation of the motor Root level from which the trigeminal Motor Evoked Potentials (R-MEPs) are evoked |alt=]] | ||
Cortical projections to the trigeminal motor neurons are generally believed to be bilateral and symmetrical and can be electrophysiologically analyzed by electrical or magnetic brain stimulation through the intact scalp.<ref>{{cita libro | Cortical projections to the trigeminal motor neurons are generally believed to be bilateral and symmetrical and can be electrophysiologically analyzed by electrical or magnetic brain stimulation through the intact scalp.<ref>{{cita libro | ||
| autore = Merton PA | | autore = Merton PA | ||
| autore2 = Morton HB | | autore2 = Morton HB | ||
| titolo = Stimulation of the cerebral cortex in the intact human subject | |||
| titolo = | |||
| url = https://www.nature.com/articles/285227a0.pdf | | url = https://www.nature.com/articles/285227a0.pdf | ||
| volume = | | volume = | ||
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To make the understanding of 'Systems Theory' more suitable for the context of the masticatory system, we report some trigeminal electrophysiological procedures and implement them with the mathematical models of the theory. | To make the understanding of 'Systems Theory' more suitable for the context of the masticatory system, we report some trigeminal electrophysiological procedures and implement them with the mathematical models of the theory. | ||
====Mathematical formalism in 'Systems Theory'==== | ==== Mathematical formalism in 'Systems Theory'==== | ||
The "systems theory" studies oriented systems, in which it becomes possible to classify the quantities of interest into two categories: | The "systems theory" studies oriented systems, in which it becomes possible to classify the quantities of interest into two categories: | ||
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A real system can have multiple inputs and multiple outputs. In particular, we indicate with: | A real system can have multiple inputs and multiple outputs. In particular, we indicate with: | ||
*<math>u(t)= (u_1(t),..., u_r(t))</math>the vector of the inputs at time <math>{t}</math> | * <math>u(t)= (u_1(t),..., u_r(t))</math>the vector of the inputs at time <math>{t}</math> | ||
*<math>y(t)= (y_1(t),..., u_m(t))</math>the vector of the output at time <math>{t}</math> | *<math>y(t)= (y_1(t),..., u_m(t))</math>the vector of the output at time <math>{t}</math> | ||
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In the engineering field, various mathematical modeling of a system are possible, depending on whether or not they explicitly consider the state variables. | In the engineering field, various mathematical modeling of a system are possible, depending on whether or not they explicitly consider the state variables. | ||
[[File:Finite Elements - electric field within the intracranial brain tissue - FEM.jpg|thumb | [[File:Finite Elements - electric field within the intracranial brain tissue - FEM.jpg|thumb|center|'''Figure 5:''' A. Positioning of the electrodes for the delivery of the electrical stimulus. B. Representation of the electric field within the brain structure. C. Localization of the induced electric field at the level of the trigeminal roots ]] | ||
====Mathematical formalism of the Trigeminal System Logic==== | ====Mathematical formalism of the Trigeminal System Logic==== | ||
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[[File:Potenziale Evocato della Radice Trigeminale.jpg|thumb|'''Figure 6:'''Ipsilateral trigeminal motor evoked potential|alt=|378px|right]] | [[File:Potenziale Evocato della Radice Trigeminale.jpg|thumb|'''Figure 6:'''Ipsilateral trigeminal motor evoked potential|alt=|378px|right]] | ||
==Conclusion== | == Conclusion== | ||
[[File:FIGU01.jpg|alt=|left|thumb|'''Figura 7:''' The figure shows three ways of analyzing the system. In A the interferential EMG trace, in B the bilateral Root-MEPs and in C the jaw jerk..|200px]] | [[File:FIGU01.jpg|alt=|left|thumb|'''Figura 7:''' The figure shows three ways of analyzing the system. In A the interferential EMG trace, in B the bilateral Root-MEPs and in C the jaw jerk..|200px]] |
Latest revision as of 16:42, 19 October 2024
System logic
Article by Gianni Frisardi · Giorgio Cruccu · Alice Bisirri · Pier Paolo Valentini · Flavio Frisardi · Irene Minciacchi
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Abstract: The transition to "System Logic" in medical science, particularly within the dental field, is guided by two fundamental elements: dental clinical indices and the logic of medical language. Clinical indices, such as the Henderson-Hasselbalch equation, offer objective reference points critical for accurate diagnoses, yet their validity is often debated. While indices provide measurable data, subjective interpretations have historically influenced clinical outcomes. In orthodontics, indices like the Peer Assessment Rating (PAR) have been adopted to assess treatment success, but concerns arise over their ability to fully capture the complexity of dental occlusion and function.
The logic of medical language also faces scrutiny for its limitations in addressing the dynamic, complex nature of living systems. Classical logic and probabilistic models, while useful, often fall short when dealing with the uncertainties inherent in medical diagnoses. This has led to the introduction of "fuzzy logic" as a more flexible approach that can handle gradations of truth and uncertainty in clinical decision-making.
Furthermore, this work delves into Systems Theory as a framework for understanding biological and clinical phenomena. The masticatory system is examined through this lens, using electrophysiological tests such as Root-MEPs (Motor Evoked Potentials) to demonstrate the practical application of systems logic. By integrating bioengineering models with clinical practice, this approach aims to enhance diagnostic accuracy, reduce errors, and allow for early detection of pathologies, thereby improving patient outcomes.
Foreword
Why did we come to the 'System Logic'? The steps are neither trivial, nor personal, and in order to perceive the added value of the 'System Logic' we cannot help but mention two essential reasons that have marked this path: that of dental clinical indices and of logic of medical language.
Dental clinical indices
There are 'Indices' that can be considered elements of System Logic as objective data, such as the 'Henderson-Hasselbalch equation' (for blood pH analysis) and other 'Indices' developed in the medical field in disparate disciplines.[1][2][3]
A test, a normative reference datum or an 'Index' (as well as a 'Constant') are strategies related to mathematical-statistical models that generate data. These data are mandatory for the accuracy of the diagnosis, for the differential diagnosis as well as for the therapeutic guidelines. On these reference data, in the times of scientific dental history, implementations and modifications have been generated but also uncertainties and beliefs that in the form of axioms or schools of thought have set guidelines that are not always scientifically justifiable, and sometimes untrue.
In literature
We can take into consideration the data reported in the literature regarding the 'Indices' studied on patients suffering from 'Temporomandibular Disorders'[4] or enter more specifically about masticatory rehabilitations and verify the 'Clinical Indices' topic in orthodontic disciplines.[5]
In a recent article by Andrea Scribante and collaborators,[6] for example, the following paragraphs are deduced:
- The introduction states that the evaluation of the outcomes of orthodontic treatment has traditionally been carried out using the experience and subjective opinions of clinicians.[7] In this first paragraph the limit of the concept expressed is understood and that is a diagnostic test and / or therapeutic guideline should never be scientifically weighed using subjective parameters.
- However, since the 1990s, specific indices have been developed to objectively evaluate health outcomes by analyzing the quality of treatment.[8] These indices compare pre- and post-treatment data to determine the outcome of orthodontic therapy[9] and to improve the quality of future treatments.[10] This second scientifically acceptable paragraph highlights the purpose of the 'Indices' and that is the pre- and post-comparison - but who says that the post is in a state of 'normocclusion' and the pre in 'malocclusion', the dental alignment?
- The most commonly used index for evaluating orthodontic success is the Peer Assessment Rating Index (PAR), which was developed to measure how far a patient deviates from normal occlusion and alignment.[8] This index was used to evaluate the effects of therapy in different circumstances: the use of fixed and mobile devices,[11] the comparison of orthodontic treatment between private practices and orthodontic schools,[12] the evaluation of occlusal stability after orthodontic treatment,[13] early treatments[14] and results of orthognathic surgery.[15] We have to consider that PAR would not indicate the healthy or the sick, normocclusion or malocclusion depending on whether it moves away from the cutoff but in the face of a series of incoming characteristics it would return a broad spectrum response (Index), valid for orthodontic treatments and orthognathic. This state of mind is legitimate but the clinicians have to be careful because the input variables (the 'Constructors') of the model or input, may not be related to the reference context or there may be other hidden variables that would invalidate the result itself. We will appreciate these assertions more strongly in the exposition of the chapters of Masticationpedia.
The fact is that the primum movens of the studio of Andrea Scribante and collaborators is concentrated in the following point:
(Limitative .... the index can have an accuracy and truthfulness in dental alignment but not to validate a normocclusion, this latter assertion is much more complex to formulate and certainly cannot be reduced exclusively to an 'Occlusal observable'.)
Spyridon N. Papageorgiou[16] in a very interesting study exposes a corageous statement that confirms what has just been exposed:
- Noticeable long-term occlusal changes are observed in the post-debond, which mostly favor better settlement. The higher quality finish at the debond significantly influenced the possibilities for improvement. However, setting a cutoff score to denote treatment excellence has shown considerable instability over time.
Other authors state that relapse after orthodontic treatment can also occur in cases with good functional occlusion.[17]
Further considerations
The etiology of recurrence is neither fully understood nor can it be fully predicted from a single factor,[18] but includes factors such as the response of the traction and deconstructed periodontal fibers,[19] physiological maturation of the human dentition which affects its width, length or perimeter[20], alterations of the craniofacial complex[21] and parafunctions.[22]
Retention of treatment results is therefore considered to be one of the most difficult problems in orthodontics, and relapses, especially of the mandibular incisors, could also be observed with the use of retention devices after debonding.[23] Most of the existing post-treatment stability studies evaluate short-term relapses of the anterior region by primarily measuring the irregularity of the incisors after extractive or non-extractive treatment and compare different retention patterns. These studies largely use the Peer Assessment Rating (PAR) index[24] which is not a trigeminal electrophysiological analysis approach in considering 'Normocclusion' much less the details of a well balanced occlusion (such as contacts, inclinations and alignment of each tooth) or changes in retention only in the short term.[25]
To the authors' knowledge at the time of publication of their study, only one study[26] used the American Board of Orthodontics (ABO)[27] detailed objective classification system for models and radiographs which measures the details of a well-finished and well-balanced occlusion.
(Constructive criticism, however, is inherent in the statement itself: how is an efficient masticatory function and, therefore, a 'Normocclusion' defined?)
In Masticationpedia, we would like to launch interesting and constructive provocations to answer the question we just set out: 'How is an efficient chewing function and therefore a Normocclusion defined?'
Let's look at the two cases below, in figure 1 and in figure 2: which of the two clinical cases do you think is affected by malocclusion?
It seems irreverent for the canons of orthodox orthodoxy not to share the diagnosis of 'malocclusion', but we leave the reader in a little suspense. We intend to resume extensively in a few chapters, after deepening the topic of 'System Logic' and 'Systems Theory'. We only anticipate that the patient in figure 1 has already been proposed in the chapter 'Introduction', so we already know our clinical scientific opinion but if he gives us so much, also.....
(... be patient and you will see)
Medical language logic
In the previous chapters we highlighted the extreme difficulties we met in defining an exact, detailed and timely diagnosis in the right time; and this is not only due to the 'Complexity' of the living system, but also to a questionable and vague logic of medical language. If classical logic is too selective (true
or false
, and therefore 'there is no third answer' - principle of the excluded third), it is also true that probabilistic logic language, which trivially indicates the presence of a specific disease, breaks down in the 'significativity' parameter that acquires a certain value only in a 'specialist context'.
We perceived the need for a more elastic model called "fuzzy logic" that could translate the uncertainty inherent in some human language data into mathematical formalism, codifying the "elastic" concepts (such as almost high, fairly good, etc), in order to make them understandable and manageable by computers.
We have therefore frozen a much debated and approached concept in the chapter 'Introduction': not determining a clear separation between specialist know-how, but superimposing interdisciplinary knowledge, instead, through a 'Fuzzy' approach (see fuzzy logic language).
Systems Theory
In the scientific field, systems theory, more properly general system theory (definition by Ludwig von Bertalanffy),[28] is an often interdisciplinary field of study, straddling mathematics and natural sciences, which deals with the analysis of properties and the constitution of a system. It is essentially composed of the theory of dynamic systems (simple and complex) and of the theory of control: it is the basis of various disciplines such as automation, robotics and cybernetic physics, as well as the technical-scientific study of systems in general as much as in biology and medicine.
Systems theory is the interdisciplinary study of systems, that could be described as cohesive groups of interconnected and interdependent parts that can be natural or man-made. Each system is bounded by space and time, influenced by its environment, defined by its structure and expressed through its functioning. A system can be more than the sum of its parts if it expresses emerging synergies or behaviors.[29]
Changing one part of a system might affect other parts or the whole system. It may be possible to predict these changes in behavior patterns. Some systems support other systems, keeping the others to prevent failure. The goals of systems theory are to model the dynamics, constraints, conditions of a system and to clarify the principles (such as purpose, measure, methods, tools) that can be identified and applied to other systems at any level of nesting and in a 'wide range of fields to achieve optimized equifinality.[30]
To be practical and effective in the description of the concept 'System logic' we consider an approach to a part of the trigeminal motor system, since it is the cornerstone of this scientific work, in which the conceptual connection with the 'Theory of Systems'.
Masticatory System Logic
Regarding the analysis of the state of the masticatory system, the EMG technique has been widely used but there are still a number of concerns regarding the reliability of the measures based on the interferential EMG.[31]
This is why most of the studies performed so far aimed at showing a possible correlation between EMG signals with Temporomandibular Disorders (TMD), Orofacial Pain (OP) or Malocclusion (IO), but they have not yielded convincing results.[32]
In an unknown percentage of OP patients visited by specialist dentists, some neurological diseases such as intracranial tumours, multiple sclerosis, etc. are the underlying symptoms cause of TMD or OP.
These patients, who actually suffer from neurological symptoms superimposed on dental-facial ones, may undergo unnecessary dental interventions before the correct diagnosis is made, sometimes too late.[33]
(... as said, the 'Observable' cannot be the occlusal element because it is hierarchically lower than the Trigeminal Nervous System.)
Cortical projections to the trigeminal motor neurons are generally believed to be bilateral and symmetrical and can be electrophysiologically analyzed by electrical or magnetic brain stimulation through the intact scalp.[34]
In the ipsilateral masseter, the transcranial electrical stimulation (eTCS) is capable of evoking a large short-latency potential in relaxed and active muscles. The characteristics of ipsilateral Motor Evoked Potentials (MEPs) do not change under relaxed or active conditions. Mean onset latency is approximately 2 ms, peak latency of 3.9 ms and amplitude of 5.4 mV, and there is no latency variability in similar pacing conditions. These motor potentials, considered secondary to trigeminal motor root excitation, have been called Root-MEP (Root-MEP or simplified into R-MEPs) to differentiate them from M-waves and Cortex-MEPs.[35]
To make the understanding of 'Systems Theory' more suitable for the context of the masticatory system, we report some trigeminal electrophysiological procedures and implement them with the mathematical models of the theory.
Mathematical formalism in 'Systems Theory'
The "systems theory" studies oriented systems, in which it becomes possible to classify the quantities of interest into two categories:
- quantities that vary over time independently from the others (inputs)
- quantities whose evolution over time is to be studied, depending on the inputs, called outputs.
A real system can have multiple inputs and multiple outputs. In particular, we indicate with:
- the vector of the inputs at time
- the vector of the output at time
It is also generally defined as the state vector of the system in a generic instant the information instantly necessary to uniquely determine the output for each once the entrance has been assigned .
We denote the state vector, whose components are defined as state variables, with the notation .
The inputs act on the state of the system and modify its characteristics at a given moment in time; these changes are recorded by the state variables. The values of the system outputs, usually the only measurable variables, in turn depend on the system state variables and the inputs.
The input, status and output quantities are functions of the time variable.
This takes values in an ordered subset , which can be continuous or discrete. In the following discussion we will consider a discrete subset of times:
Therefore, given a set of times , we can formally define a system as the pair of equations
with , where is called generating function e is called the output transformation.
In the field of biosignals, the () models are used to analyze EEG and vibration systems in vehicles, human hearing systems and vascular systems, and so on. While much is still unknown about the physiological mechanism or pattern of internal changes in the tested system, the output transfer or transformation function in our context allows us to reconstruct a wave function by interpolating the points detected by the instrument which has its own particular sampling frequency. This function, for our purposes, is a reconstruction of a wave function on which to search for latencies, amplitudes and integral areas and make the necessary conclusions,[36][37] and, obviously, by retesting the system in subsequent epochs, the integrity of the system itself can be compared.
In the engineering field, various mathematical modeling of a system are possible, depending on whether or not they explicitly consider the state variables.
Mathematical formalism of the Trigeminal System Logic
We consider the Trigeminal Motor System as a black box with inputs (figure 5) and outputs (figure 6), and we try to adapt to it the above described theory.
Figure 6 shows the neuromotor responses to the electrical transcranial stimulation of the trigeminal root of the right hemilate. We wanted to set up the test following the mathematical model of 'systems theory' to better understand the difference between the information obtained from a now almost inflated test such as the interferential EMG, and a more complex test such as a motor and/or somatosensory evoked potential; the evoked potential has the prerogative of a system response to an external input called 'trigger', which in this context is of an electrical type.
We divided the test by delivering a series of progressively greater electrical stimuli in the ordered times corresponding to.
In our context, we will have one input, i.e. the electrical stimulation amperage and two outputs, i.e. latency and amplitude.
We will therefore have:
mA.
Two state variables will correspond to each of these inputs: latency and amplitude .
ms
mV
All these variables generate a plotting of multiple mediated traces as in figure 6, in which some important considerations can be made, such as the decrease in latency and the increase in amplitude as the amperage increases.
Conclusion
It is plausible that the reader, or a colleague not accustomed to particular trigeminal electrophysiological procedures, may consider this type of bioengineering diagnostic models exaggerated, both for the difficulty in the execution (that can make the methodology seem dangerous - the Root-MEPs delivers an electric current of 100 V with an amperage of 100mA), and for the feeling he might have that the cost benefit is unjustified; so, he might prefer to continue with the now routine methodology in dentistry, such as performing a simple, fast and inexpensive interferential EMG (Figure 7A). We certainly accept the opinion of our hypothetical colleague, but we do not share it because, to save a human life, competence is always and critically required, together with dedication and both intellectual and economic investment.
The irrefutable step forward made in diagnostics in most medical disciplines, as already mentioned, lies precisely in bioengineering, technological progress; specifically, systems theory has allowed us to verify the system state by comparing output variables generated by variables incoming payments which are basically triggers of various types.
Figure 7 is a way of demonstrating this. Notably, like the interferential EMG test shows (Figure 7A), only a sort of interferential asymmetry typical of clinical situations of malocclusion can be observed, while through a trigger model (specifically, the bilateral transcranial electrical stimulation of the trigeminal roots) the system responds with a large amplitude asymmetry (Figure 7B) and even with an absence of the jaw jerk response (evoked with a mechanical trigger by striking the chin with a neurological piezoelectric hammer). (Figure 7C) The diagnostic conclusion of this patient was of skull base menygoma.
For the experts, of course, a glance is enough to understand whether the trigeminal motor system evoked through electrical transcranial stimulation of the motor roots is in a physiological or pathological state; but, as we will see in the next chapters, the biological reality is so complex and paradoxically indeterministic, that a bioengineering model paired with an adequate statistical mathematician will allow us to approach more accurately the real physiopathological state of the system, reduce the uncertainty of the measurement and consequently the differential diagnostic error but above all make early diagnosis.
In any case, if this patient had undergone the described diagnostic model, he would not have died, because the growth of the tumor mass of a meningioma is extraencephalic, and slow, and would have shown an electrophysiologically documentable destructuring many years before the vertiginous symptomatology.(see: 3° Clinical case: Meningioma )
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This is an Open Access resource!
particularly focusing on the field of the neurophysiology of the masticatory system