Entangled Doctor and the Quantum Mechanisms of Similar Phenomena in Nature and Art
Valeriy Revo. MD, Ph.D., Full Professor. Independent. Canada.
Preprint
[email protected]
Statements and Declarations
Funding. This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.
Competing Interests. The author declares that he has no conflict of interest.
The author declares that he does not use AI or AI-based technologies.
Acknowledgment. The author thanks his wife, Zoya Revo, for all possible support in the author’s work when writing this article.
ISBN 978-1-990242-21-2 © Valeriy Revo, 2025
1. Abstract
The manuscript presents some phenomena of quantum nature in the work of a doctor, in art and in Nature as a whole. The purpose of the article is to substantiate the need to use quantum theory in relation to problems of biology and medicine. The task of the article is to substantiate the priorities of a doctor when using the achievements of natural science, biology and clinical practice, rather than template initiatives. The author shows that diseases are phylogenetically conditioned processes of a programmatic nature and quantum nature. The need to train doctors of a new formation is substantiated. The effectiveness of their work will be ensured by clinical experience, interdisciplinary and specialized knowledge, system models - the highest form of meaningful representation of any objects and processes. Quantum features of the organization of life can manifest themselves in specific phenomena. One of them is the quantum entanglement of a doctor, which requires the organization of appropriate monitoring.
Keywords: entangled doctor, quantum challenge, disease management, medical education, life, art.
2. Summary statement
The publication materials are useful for practicing doctors, organizers of the medical education system, ethologists, and representatives of art. The author draws the attention of specialists to several phenomena from different spheres of life, but of the same nature. Some of them are related to the procedural practice of some medical workers, even highly qualified ones. This is their negative impact on the patient, not caused by psychological or other obvious reasons. Other phenomena are peculiar reactions in the system of information relations among animals. Finally, the author also drew attention to the nature of the perception of outstanding works of art. He showed that the nature of the observed connections can be caused by the effect of quantum entanglement.
3. Introduction
Understanding that any living organism has a dual nature has led to attention to the manifestations of this feature of its organization. Biology and medicine have extensive experience in studying the living in the dimension of Newtonian physics. However, the manifestation of the features of the organization and functioning of the living at the quantum level does not yet have its history, although many phenomena at this level are known but not understood. Here, researchers expect interesting findings, understanding the nature of which will allow a sharp increase in the efficiency of managing the body's resources, including the quantum dimension [1, 2].
4. Results
4.1. Fundamental basis of medicine
Medicine has always been and will remain a doctor’s art. Physicians of a new formation, having the relevant knowledge, clinical experience, and modern diagnostic and computer technology, will be able to manage not only the symptoms but also the programs of diseases of any nature and form.
However, some modern trends in medicine, for example, EBM "does not attach importance to intuition, “unsystematic clinical experience” and pathophysiological justifications as sufficient grounds for making clinical decisions" [3].
Such a representation is unacceptable. First, the intuition of an experienced clinician has always been and remains the most powerful intellectual resource of a doctor. Secondly, EBM, having abandoned “unsystematic clinical experience”, has not received systemic experience.
4.2. Systems approach in medicine
Medicine has not become a science yet, because it does not have the necessary attributes for this: fundamental laws and physical constants. Clinical practice has always included a research component. It requires modern scientific instruments. This role is successfully fulfilled by a systems approach. True, subject to proper use. A universal algorithm of the classical systems approach was developed by V. V. Druzhinin and D. S. Kontorov (1983) [4].
Other design options have been proposed for the practice of evidence-based medicine. Thus, D. J. Cook et al. proposed (1992) their version, which they called “Five steps of EBM” [5, 6]. The best known are also three other design options, which their authors attribute to the systems approach in medicine. The content of which corresponds not to the systems, but to the systematic approach. The difference between these approaches is fundamental [7] .
Approaches of Cook D. J. et al. 1992 [8], Kaplan, Gary et al., 2013 [9], Barends E, et al., 2014 [10] and Li, Zelong et al., 2021 [11] demonstrate the dominance of the subjective component in the assessment procedure. Their algorithm reflects the dominance of the semantic, but not the content, component. Finally, in their basic principles lack the deductive component and modeling in the problem-solving phase. The noted circumstances are unacceptable when working with complex systems with unclear properties and a high level of uncertainty. Man is precisely such a system.
EBM apologists also claim that “A NEW paradigm of medical practice is emerging. But EBM does not value intuition, unsystematic clinical experience, and pathophysiological justifications as sufficient grounds for making clinical decisions and emphasizes the study of clinical trial data. EBM requires new skills from the doctor, including effective literature search and application of formal rules for the evidence-based evaluation of clinical literature” [3]. This review mentions a "NEW" paradigm of medical practice and a new strategy. But what EBM offers reflects the natural-philosophical approach to the disease, and there are no traces of the declared "NEW paradigm" in it. We again see only contentless slogans and declarations.
Until now, medicine has been active only in the direction of studying the manifestations of the disease, first of all, the symptoms, with which, in most cases, it has learned to cope. Its technological capabilities today are unprecedented. They make it possible to observe structural or functional changes in tissues of molecular and microsecond dimensions. However, observation is still the level of natural philosophy. The nature and cause of diseases remain unknown to biology and medicine. Great hopes were initially raised by computers. However, today they can only help create analog models of diseases.
To comprehend the program of a disease as a natural phenomenon, it is necessary to build its systemic model since any disease has a systemic nature by definition. The systemic information approach of the author is closer to this goal. Predicting the pathogenesis of the disease in the first approximation allows knowledge of its stereotypical development. But today, it is impossible to predict the moment of the onset of bifurcation in pathogenesis, and it is impossible to predict the outcome of the disease into remission or death. Knowledge of the systemic nature of the disease allows us to obtain the most accurate prognosis. Forecasting, as we know, is the most important element of science.
4.2. Fundamental basis of art
Art is an essential attribute of human existence. It is an area of subject activity that provides a reflection of the personality and the environment, both internal and external, in artistic and figurative forms of human sensuality. In a narrow sense, it presupposes a high level of mastery. Until now, works of art have been assessed by their impact on the consciousness and subconscious of the observer, mainly in the context of the natural philosophical approach. However, a work of art created by a master is not just a set of pigments, sounds, words or tokens, but a certain quantum state that, when "observed" by a viewer/listener/reader, collapses into a specific experience. Moreover, each viewer "measures" the work in his own way, receiving his own unique result. The genius of an artist lies in the ability to create such quantum superpositions of meanings and images.
Art and science are integral attributes of human existence. Art provides a reflection of personality and environment, both internal and external, in artistic and figurative forms of human sensuality. In a narrow sense, it presupposes a high level of skill. Until now, works of art have been assessed by their impact on the consciousness and subconscious of the observer, mainly in the context of the natural philosophical approach. However, a work of art created by a master is not just a set of pigments, sounds, words or signs, but a certain quantum state that, when “observed” by a viewer/listener/reader, collapses into a certain experience. At the same time, each viewer “measures” the work in his own way, receiving his own unique result. The genius of an artist lies in the ability to create ideal forms of representing meanings and images. The common genesis of the bearer of science and art determines their unity. However, the conscious nature of science and, to a large extent, the immanent nature of art, separate these two forms of reflection far from each other, although the imperative of their unification is constant and high. This is the prerogative of culture, which, reflecting the emergence and development of external memory, is a powerful socializing factor of a wide range, from scientific achievements to the aesthetics of everyday life, from developed cult systems to professional techniques, from pictorial writing to complex distributed information systems. Until recently, it was believed that in science, the result of research does not depend on the personality of the researcher. At the same time, his individuality colors the strategy and tactics of scientific research, conducting research, experiment, and understanding its results. In art, the creative process, as well as its final result, is colored by the individual creative features of the creator, despite the fact that the main laws of the creative process are objective in nature, acquiring objective reality. Sometimes, the perception of this reality seriously confused both creators and researchers. Thus, K. Debussy, the founder of impressionism in this art form, characterized the perception of a musical work as a certain elusive organized integrity [12]. Such a holistic instantaneous representation in the consciousness of an entire musical work was demonstrated by other composers, for example, W. A. Mozart, L. van Beethoven, I. Brahms, and S. V. Rachmaninov. In painting and sculpture, M. Buonarroti, L. da Vinci, O. Rodin, E. Greco, and S. Dali were capable of this. In literature, such an ability was possessed by D. Alighieri, I. V. Goethe, A. S. Pushkin, L. N. Tolstoy, and F. M. Dostoevsky. Such a feature of these brilliant creators could be due to only one circumstance. This is the ability to directly access the resources of consciousness at the quantum level, since science does not know of any other information carriers capable of storing and instantly representing in the imagination without distortion the entire required array of data. The ability of some people to remember, to retain in their memory for as long as they want and to immediately present the required data from it does not characterize these persons as geniuses, although the very nature of this memory is the same as that of geniuses. It is geniuses who are capable of exerting a powerful influence on the consciousness of ordinary people with their creativity. And this influence is not always favorable.
5. Discussion
5.1. Phylogenetic memory and diseases
I propose to build a new paradigm of medicine based on the systemic content of a natural phenomenon, which we traditionally call a disease. First of all, any disease is a program process [13]. That is why we can predict the pathogenesis of its development.
The quantum nature of disease programs has determined a similar pathogenesis of each of them for living beings of all subsequent phylogenetic stages. The function of storing disease programs in the body is performed by a specialized apparatus. It has a distributed holographic structure.
The phylogenetic memory of any organism always contains all the programs for its possible diseases (V. Revo, 1986-2023). I called it "Phylopathome" (from the Greek φυλή – tribe, clan, – is read as fyli, + πάθηση – disease, – is read as páthisi + the suffix -om means the commonality of something, – is read as om).
Phylopathom is included in the structure of the phylothek (from Greek φυλή – genus, tribe, – is read as fylí, + αποθήκη – depository, – is read as apothíki). Phylothek is a repository of fundamental systemic biological features of an organism that are passed on to phylogenetic offspring (V. Revo, 2024). These can be basic systemic elements of living organisms that appeared at this and all previous stages of phylogenesis. Disease programs are one of these elements.
Each program reflects the system specificity of the stage of phylogenesis at which it appeared. So, the most ancient class of diseases is proteoses. Then, according to the stages of phylogenesis, programs of genoses, neuroses, and encephaloses arose. Systemic and pathogenetic features of diseases that arose at the previous stage of phylogenesis naturally manifest themselves in diseases that arose at all subsequent stages of phylogenesis. This phenomenon is well-known to experienced clinicians. Thus, manifestations of the immune response always occur at genoses, for example, in tuberculosis. Immune and genetic components always appear in neuroses. For example, in peptic ulcer disease, inhibition of cellular immunity and an increase in the level of circulating immune complexes, as well as the presence of Campylobacter pylori in the ulcerative niche, are observed. The most phylogenetically early stage in the development of living things gave the world modern man (Homo sapiens L.) and the psychoses and socialoses inherent only to him.
The task of medicine is to give doctors the technology to manage the programs of all diseases. True, socialoses, due to objective circumstances, are available for management only at the symptomatic level. The programs of these diseases are transcendental for a person since, according to the theorems on the incompleteness and consistency of Kurt Gödel's formal systems, his own complete and consistent formalization is inaccessible to him.
5.2. Entangled Doctors
The requirements for a practicing physician, operating room nurse or procedural nurse when choosing this field of activity are well known [14]. These are high moral qualities, the ability to empathize, broad and deep erudition in the field of their work, constant improvement of professional art, and satisfaction with the profession. These qualities are difficult to formalize exhaustively and consistently, since there is no scale and the dimension by which to give an assessment is unknown. Therefore, people with no place in this profession often end up in practical medicine. However, even if a practicing physician or a procedural or operating room nurse fully meets the listed parameters, in certain situations, they objectively have no place in this profession. First of all, this applies to those who have physical contact with the patient's body. The manipulations of these medical workers do not benefit patients, sometimes even worsening their condition, although everything is done professionally and conscientiously. For example, surgical wounds heal mostly by secondary intention, and acupuncture by a highly professional specialist only worsens the patient's condition, etc. There are many such examples in clinical practice. This circumstance has a quantum-informational interpretation, which is represented by the Wigner/Proietti paradox [15]. According to Wigner's paradox, the doctor (observer) is part of a quantum system: his consciousness is capable of "collapsing" the superposition of probable outcomes of the patient's illness. In this case, a certain probability becomes dominant and can stably implement a certain (often negative) pattern. The experiment of Proietti's group confirmed the presence of quantum nonlocality caused by the entanglement of states that arose in the past and cannot be eliminated in a classical way. Such “hidden programs” are not local hidden variables according to Einstein. They are quantum-entangled system states due to non-local system coherence, as allowed by modern quantum mechanics. They are fixed in phylogenetic memory. Carriers of such a pattern need to choose a type of activity that does not involve direct physical contact with the patient. A systemically entangled doctor is not a bad specialist, but a carrier of a stable, autonomous program that has become part of his phylogenetic memory. Such workers cannot be punished, but they should not be allowed to do such activities from the very beginning. This should be taken into account when selecting future doctors and nurses. This is the task of cognitive quantum hygiene, which is time to create. So far, the only criterion for selection is monitoring the results of the activities of current specialists. If a stereotypical negative impact of certain routine manipulations on a patient of a conscientious, qualified medical worker is documented, he should be offered the opportunity to change his field of activity. After all, he, like Mephistopheles,
"Part of that Power, not understood,
Which always wills the Bad, and always works the Good." [16].
Some genius representatives of art demonstrate the manifestation of Wigner's paradox without suspecting it. Thus, N. V. Gogol in his mystical story Viy (1835) described a classic situation in which the consciousness of Viy, such is the name of the bearer of evil power, is able to "collapse" the superposition of probable outcomes of the state of the one who meets his gaze. Under normal conditions, Viy's eyelids are closed, but when they were raised at his request, he met the gaze of the hero of the story, for whom this became fatal. Our attentive ancestors were extremely observant. Thus, some techniques of predators when preparing an attack, including the so-called hypnotizing gaze into the victim's eyes, have been known since time immemorial. It is also known that many carnivores perceive direct eye contact as a problem, as a threat of attack. This fact is expressed in iconography, where Judas Iscariot is always depicted in profile, which does not allow believers to meet his gaze.
6. Conclusion
The material of the article allows us to draw several theoretical conclusions and offer practitioners several recommendations on the organization of the strategy and tactics of treatment and prevention of all groups of diseases.
1. Medicine is a sphere of cognition and practice; it has not yet become a science since it does not have the attributes necessary for this: fundamental laws at the macro and quantum levels, fundamental biological constants, and the modern systemic paradigm.
2. Knowledge of the nature of diseases, professional skills, and the art of the doctor are necessary conditions for the successful management of them.
3. Today, elements of the living macro and micro dimensions are available to medicine, and the elements of the quantum dimension, which form the fundamental basis of life, remain outside the field of interest of researchers. Any disease develops according to its phylogenetically determined program.
4. The programs of all diseases reflect their systemic content and a quantum nature.
5. Today, medicine has reached a milestone beyond which it becomes possible to predict the development of diseases and manage programs for their development in each person.
6. The main task of the doctor traditionally consisted in applying his art of effective treatment of the patient, which involves getting rid of any kind of pain and restoring the functions and anatomical structure of the body as a whole and its elements.
7. Today, medicine must recognize the need to transition to a new system-information paradigm, while preserving valuable elements of the previous natural-philosophical paradigm.
It must use the achievements of quantum physics in solving the problems of controlling disease programs in phylogenetic memory at all stages of their development.
8. Knowledge and understanding of the pathogenesis of diseases and their program content are effective intellectual tools for a physician. It allows him to offer an effective person-centred prevention and treatment program that is free from polypharmacy and can stop the development of an iatrogenic pandemic.
9. The medical education system should develop a mechanism for identifying individuals among practicing physicians and procedural and surgical nurses whose work exhibits the phenomenon of quantum entanglement.
7. References
June 15, 2025
Valeriy Revo. MD, Ph.D., Full Professor. Independent. Canada.
Preprint
[email protected]
Statements and Declarations
Funding. This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.
Competing Interests. The author declares that he has no conflict of interest.
The author declares that he does not use AI or AI-based technologies.
Acknowledgment. The author thanks his wife, Zoya Revo, for all possible support in the author’s work when writing this article.
ISBN 978-1-990242-21-2 © Valeriy Revo, 2025
1. Abstract
The manuscript presents some phenomena of quantum nature in the work of a doctor, in art and in Nature as a whole. The purpose of the article is to substantiate the need to use quantum theory in relation to problems of biology and medicine. The task of the article is to substantiate the priorities of a doctor when using the achievements of natural science, biology and clinical practice, rather than template initiatives. The author shows that diseases are phylogenetically conditioned processes of a programmatic nature and quantum nature. The need to train doctors of a new formation is substantiated. The effectiveness of their work will be ensured by clinical experience, interdisciplinary and specialized knowledge, system models - the highest form of meaningful representation of any objects and processes. Quantum features of the organization of life can manifest themselves in specific phenomena. One of them is the quantum entanglement of a doctor, which requires the organization of appropriate monitoring.
Keywords: entangled doctor, quantum challenge, disease management, medical education, life, art.
2. Summary statement
The publication materials are useful for practicing doctors, organizers of the medical education system, ethologists, and representatives of art. The author draws the attention of specialists to several phenomena from different spheres of life, but of the same nature. Some of them are related to the procedural practice of some medical workers, even highly qualified ones. This is their negative impact on the patient, not caused by psychological or other obvious reasons. Other phenomena are peculiar reactions in the system of information relations among animals. Finally, the author also drew attention to the nature of the perception of outstanding works of art. He showed that the nature of the observed connections can be caused by the effect of quantum entanglement.
3. Introduction
Understanding that any living organism has a dual nature has led to attention to the manifestations of this feature of its organization. Biology and medicine have extensive experience in studying the living in the dimension of Newtonian physics. However, the manifestation of the features of the organization and functioning of the living at the quantum level does not yet have its history, although many phenomena at this level are known but not understood. Here, researchers expect interesting findings, understanding the nature of which will allow a sharp increase in the efficiency of managing the body's resources, including the quantum dimension [1, 2].
4. Results
4.1. Fundamental basis of medicine
Medicine has always been and will remain a doctor’s art. Physicians of a new formation, having the relevant knowledge, clinical experience, and modern diagnostic and computer technology, will be able to manage not only the symptoms but also the programs of diseases of any nature and form.
However, some modern trends in medicine, for example, EBM "does not attach importance to intuition, “unsystematic clinical experience” and pathophysiological justifications as sufficient grounds for making clinical decisions" [3].
Such a representation is unacceptable. First, the intuition of an experienced clinician has always been and remains the most powerful intellectual resource of a doctor. Secondly, EBM, having abandoned “unsystematic clinical experience”, has not received systemic experience.
4.2. Systems approach in medicine
Medicine has not become a science yet, because it does not have the necessary attributes for this: fundamental laws and physical constants. Clinical practice has always included a research component. It requires modern scientific instruments. This role is successfully fulfilled by a systems approach. True, subject to proper use. A universal algorithm of the classical systems approach was developed by V. V. Druzhinin and D. S. Kontorov (1983) [4].
Other design options have been proposed for the practice of evidence-based medicine. Thus, D. J. Cook et al. proposed (1992) their version, which they called “Five steps of EBM” [5, 6]. The best known are also three other design options, which their authors attribute to the systems approach in medicine. The content of which corresponds not to the systems, but to the systematic approach. The difference between these approaches is fundamental [7] .
Approaches of Cook D. J. et al. 1992 [8], Kaplan, Gary et al., 2013 [9], Barends E, et al., 2014 [10] and Li, Zelong et al., 2021 [11] demonstrate the dominance of the subjective component in the assessment procedure. Their algorithm reflects the dominance of the semantic, but not the content, component. Finally, in their basic principles lack the deductive component and modeling in the problem-solving phase. The noted circumstances are unacceptable when working with complex systems with unclear properties and a high level of uncertainty. Man is precisely such a system.
EBM apologists also claim that “A NEW paradigm of medical practice is emerging. But EBM does not value intuition, unsystematic clinical experience, and pathophysiological justifications as sufficient grounds for making clinical decisions and emphasizes the study of clinical trial data. EBM requires new skills from the doctor, including effective literature search and application of formal rules for the evidence-based evaluation of clinical literature” [3]. This review mentions a "NEW" paradigm of medical practice and a new strategy. But what EBM offers reflects the natural-philosophical approach to the disease, and there are no traces of the declared "NEW paradigm" in it. We again see only contentless slogans and declarations.
Until now, medicine has been active only in the direction of studying the manifestations of the disease, first of all, the symptoms, with which, in most cases, it has learned to cope. Its technological capabilities today are unprecedented. They make it possible to observe structural or functional changes in tissues of molecular and microsecond dimensions. However, observation is still the level of natural philosophy. The nature and cause of diseases remain unknown to biology and medicine. Great hopes were initially raised by computers. However, today they can only help create analog models of diseases.
To comprehend the program of a disease as a natural phenomenon, it is necessary to build its systemic model since any disease has a systemic nature by definition. The systemic information approach of the author is closer to this goal. Predicting the pathogenesis of the disease in the first approximation allows knowledge of its stereotypical development. But today, it is impossible to predict the moment of the onset of bifurcation in pathogenesis, and it is impossible to predict the outcome of the disease into remission or death. Knowledge of the systemic nature of the disease allows us to obtain the most accurate prognosis. Forecasting, as we know, is the most important element of science.
4.2. Fundamental basis of art
Art is an essential attribute of human existence. It is an area of subject activity that provides a reflection of the personality and the environment, both internal and external, in artistic and figurative forms of human sensuality. In a narrow sense, it presupposes a high level of mastery. Until now, works of art have been assessed by their impact on the consciousness and subconscious of the observer, mainly in the context of the natural philosophical approach. However, a work of art created by a master is not just a set of pigments, sounds, words or tokens, but a certain quantum state that, when "observed" by a viewer/listener/reader, collapses into a specific experience. Moreover, each viewer "measures" the work in his own way, receiving his own unique result. The genius of an artist lies in the ability to create such quantum superpositions of meanings and images.
Art and science are integral attributes of human existence. Art provides a reflection of personality and environment, both internal and external, in artistic and figurative forms of human sensuality. In a narrow sense, it presupposes a high level of skill. Until now, works of art have been assessed by their impact on the consciousness and subconscious of the observer, mainly in the context of the natural philosophical approach. However, a work of art created by a master is not just a set of pigments, sounds, words or signs, but a certain quantum state that, when “observed” by a viewer/listener/reader, collapses into a certain experience. At the same time, each viewer “measures” the work in his own way, receiving his own unique result. The genius of an artist lies in the ability to create ideal forms of representing meanings and images. The common genesis of the bearer of science and art determines their unity. However, the conscious nature of science and, to a large extent, the immanent nature of art, separate these two forms of reflection far from each other, although the imperative of their unification is constant and high. This is the prerogative of culture, which, reflecting the emergence and development of external memory, is a powerful socializing factor of a wide range, from scientific achievements to the aesthetics of everyday life, from developed cult systems to professional techniques, from pictorial writing to complex distributed information systems. Until recently, it was believed that in science, the result of research does not depend on the personality of the researcher. At the same time, his individuality colors the strategy and tactics of scientific research, conducting research, experiment, and understanding its results. In art, the creative process, as well as its final result, is colored by the individual creative features of the creator, despite the fact that the main laws of the creative process are objective in nature, acquiring objective reality. Sometimes, the perception of this reality seriously confused both creators and researchers. Thus, K. Debussy, the founder of impressionism in this art form, characterized the perception of a musical work as a certain elusive organized integrity [12]. Such a holistic instantaneous representation in the consciousness of an entire musical work was demonstrated by other composers, for example, W. A. Mozart, L. van Beethoven, I. Brahms, and S. V. Rachmaninov. In painting and sculpture, M. Buonarroti, L. da Vinci, O. Rodin, E. Greco, and S. Dali were capable of this. In literature, such an ability was possessed by D. Alighieri, I. V. Goethe, A. S. Pushkin, L. N. Tolstoy, and F. M. Dostoevsky. Such a feature of these brilliant creators could be due to only one circumstance. This is the ability to directly access the resources of consciousness at the quantum level, since science does not know of any other information carriers capable of storing and instantly representing in the imagination without distortion the entire required array of data. The ability of some people to remember, to retain in their memory for as long as they want and to immediately present the required data from it does not characterize these persons as geniuses, although the very nature of this memory is the same as that of geniuses. It is geniuses who are capable of exerting a powerful influence on the consciousness of ordinary people with their creativity. And this influence is not always favorable.
5. Discussion
5.1. Phylogenetic memory and diseases
I propose to build a new paradigm of medicine based on the systemic content of a natural phenomenon, which we traditionally call a disease. First of all, any disease is a program process [13]. That is why we can predict the pathogenesis of its development.
The quantum nature of disease programs has determined a similar pathogenesis of each of them for living beings of all subsequent phylogenetic stages. The function of storing disease programs in the body is performed by a specialized apparatus. It has a distributed holographic structure.
The phylogenetic memory of any organism always contains all the programs for its possible diseases (V. Revo, 1986-2023). I called it "Phylopathome" (from the Greek φυλή – tribe, clan, – is read as fyli, + πάθηση – disease, – is read as páthisi + the suffix -om means the commonality of something, – is read as om).
Phylopathom is included in the structure of the phylothek (from Greek φυλή – genus, tribe, – is read as fylí, + αποθήκη – depository, – is read as apothíki). Phylothek is a repository of fundamental systemic biological features of an organism that are passed on to phylogenetic offspring (V. Revo, 2024). These can be basic systemic elements of living organisms that appeared at this and all previous stages of phylogenesis. Disease programs are one of these elements.
Each program reflects the system specificity of the stage of phylogenesis at which it appeared. So, the most ancient class of diseases is proteoses. Then, according to the stages of phylogenesis, programs of genoses, neuroses, and encephaloses arose. Systemic and pathogenetic features of diseases that arose at the previous stage of phylogenesis naturally manifest themselves in diseases that arose at all subsequent stages of phylogenesis. This phenomenon is well-known to experienced clinicians. Thus, manifestations of the immune response always occur at genoses, for example, in tuberculosis. Immune and genetic components always appear in neuroses. For example, in peptic ulcer disease, inhibition of cellular immunity and an increase in the level of circulating immune complexes, as well as the presence of Campylobacter pylori in the ulcerative niche, are observed. The most phylogenetically early stage in the development of living things gave the world modern man (Homo sapiens L.) and the psychoses and socialoses inherent only to him.
The task of medicine is to give doctors the technology to manage the programs of all diseases. True, socialoses, due to objective circumstances, are available for management only at the symptomatic level. The programs of these diseases are transcendental for a person since, according to the theorems on the incompleteness and consistency of Kurt Gödel's formal systems, his own complete and consistent formalization is inaccessible to him.
5.2. Entangled Doctors
The requirements for a practicing physician, operating room nurse or procedural nurse when choosing this field of activity are well known [14]. These are high moral qualities, the ability to empathize, broad and deep erudition in the field of their work, constant improvement of professional art, and satisfaction with the profession. These qualities are difficult to formalize exhaustively and consistently, since there is no scale and the dimension by which to give an assessment is unknown. Therefore, people with no place in this profession often end up in practical medicine. However, even if a practicing physician or a procedural or operating room nurse fully meets the listed parameters, in certain situations, they objectively have no place in this profession. First of all, this applies to those who have physical contact with the patient's body. The manipulations of these medical workers do not benefit patients, sometimes even worsening their condition, although everything is done professionally and conscientiously. For example, surgical wounds heal mostly by secondary intention, and acupuncture by a highly professional specialist only worsens the patient's condition, etc. There are many such examples in clinical practice. This circumstance has a quantum-informational interpretation, which is represented by the Wigner/Proietti paradox [15]. According to Wigner's paradox, the doctor (observer) is part of a quantum system: his consciousness is capable of "collapsing" the superposition of probable outcomes of the patient's illness. In this case, a certain probability becomes dominant and can stably implement a certain (often negative) pattern. The experiment of Proietti's group confirmed the presence of quantum nonlocality caused by the entanglement of states that arose in the past and cannot be eliminated in a classical way. Such “hidden programs” are not local hidden variables according to Einstein. They are quantum-entangled system states due to non-local system coherence, as allowed by modern quantum mechanics. They are fixed in phylogenetic memory. Carriers of such a pattern need to choose a type of activity that does not involve direct physical contact with the patient. A systemically entangled doctor is not a bad specialist, but a carrier of a stable, autonomous program that has become part of his phylogenetic memory. Such workers cannot be punished, but they should not be allowed to do such activities from the very beginning. This should be taken into account when selecting future doctors and nurses. This is the task of cognitive quantum hygiene, which is time to create. So far, the only criterion for selection is monitoring the results of the activities of current specialists. If a stereotypical negative impact of certain routine manipulations on a patient of a conscientious, qualified medical worker is documented, he should be offered the opportunity to change his field of activity. After all, he, like Mephistopheles,
"Part of that Power, not understood,
Which always wills the Bad, and always works the Good." [16].
Some genius representatives of art demonstrate the manifestation of Wigner's paradox without suspecting it. Thus, N. V. Gogol in his mystical story Viy (1835) described a classic situation in which the consciousness of Viy, such is the name of the bearer of evil power, is able to "collapse" the superposition of probable outcomes of the state of the one who meets his gaze. Under normal conditions, Viy's eyelids are closed, but when they were raised at his request, he met the gaze of the hero of the story, for whom this became fatal. Our attentive ancestors were extremely observant. Thus, some techniques of predators when preparing an attack, including the so-called hypnotizing gaze into the victim's eyes, have been known since time immemorial. It is also known that many carnivores perceive direct eye contact as a problem, as a threat of attack. This fact is expressed in iconography, where Judas Iscariot is always depicted in profile, which does not allow believers to meet his gaze.
6. Conclusion
The material of the article allows us to draw several theoretical conclusions and offer practitioners several recommendations on the organization of the strategy and tactics of treatment and prevention of all groups of diseases.
1. Medicine is a sphere of cognition and practice; it has not yet become a science since it does not have the attributes necessary for this: fundamental laws at the macro and quantum levels, fundamental biological constants, and the modern systemic paradigm.
2. Knowledge of the nature of diseases, professional skills, and the art of the doctor are necessary conditions for the successful management of them.
3. Today, elements of the living macro and micro dimensions are available to medicine, and the elements of the quantum dimension, which form the fundamental basis of life, remain outside the field of interest of researchers. Any disease develops according to its phylogenetically determined program.
4. The programs of all diseases reflect their systemic content and a quantum nature.
5. Today, medicine has reached a milestone beyond which it becomes possible to predict the development of diseases and manage programs for their development in each person.
6. The main task of the doctor traditionally consisted in applying his art of effective treatment of the patient, which involves getting rid of any kind of pain and restoring the functions and anatomical structure of the body as a whole and its elements.
7. Today, medicine must recognize the need to transition to a new system-information paradigm, while preserving valuable elements of the previous natural-philosophical paradigm.
It must use the achievements of quantum physics in solving the problems of controlling disease programs in phylogenetic memory at all stages of their development.
8. Knowledge and understanding of the pathogenesis of diseases and their program content are effective intellectual tools for a physician. It allows him to offer an effective person-centred prevention and treatment program that is free from polypharmacy and can stop the development of an iatrogenic pandemic.
9. The medical education system should develop a mechanism for identifying individuals among practicing physicians and procedural and surgical nurses whose work exhibits the phenomenon of quantum entanglement.
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June 15, 2025
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