Vainoras, Alfonsas

(1) Background: The increasing contribution of anthropogenic electromagnetic radiation has altered the Earth’s electromagnetic landscape and poses a serious problem for electromagnetic ecology and medicine. The aim of this study was to develop a working theoretical framework to describe the current state of interaction between the human body and electromagnetic fields in the external environment and to facilitate transdisciplinary collaboration among scientists in studying and addressing this problem. (2) Methods: Extensive research has been conducted in the literature to provide a comprehensive presentation of data, enabling a working concept of the interaction between the human body and electromagnetic fields in the external environment. (3) Results: General data, theoretical foundations, mechanisms, and results of the interaction of external electromagnetic fields with the human body were presented. (4) Conclusions: There is a proven interaction between the human body and external electromagnetic fields, as the body is part of the Earth’s electromagnetic landscape and has biophysical mechanisms for coupling with it. The increase in anthropogenic electromagnetic radiation is an electromagnetic environmental problem, and this requires further study of the safety issues and the impact of anthropogenic electromagnetic fields on the human body, and a reassessment of their biological impact on the human body, tightening the standards and requirements for electromagnetic safety in places where people live, a moratorium on further deployment of 5G, urgent application of the precautionary principle, and stricter exposure limits, especially for Wireless Communication Electromagnetic Fields.

This is a review of the first lecture in the "Bioelectronic Medicine or Look at Medicine Differently" series, which presents and substantiates its key concepts, meanings, and relevance. This is an educational and scientific project for the further progress of medicine and its quantum fields. The goal is the scientific development and popularization of the Magnetoelectrochemical Theory of Metabolism and Life, which unites existing medical knowledge with modern biophysical understanding of the organization and functioning of the human body at the nanoscale and deeper. Conclusions: 1) A new layer of fundamental knowledge in quantum physics has formed a promising new transdisciplinary scientific field – "Bioelectronic Medicine." This is the latest trend in the development of medical science and education that modern medical scientists must pursue. 2) The Magnetoelectrochemical Theory of Metabolism and Life is a biological theory that adapts knowledge of quantum physics to medical needs and serves as the theoretical basis for the further practical implementation of quantum medicine in educational and scientific medical fields. 3) The educational, scientific, and practical project "Bioelectronic Medicine" is a promising new "tool" for further developing the latest scientific medical perspective in medical students and doctors, as a guarantee of future progress in the medical field.

The results of a theoretical study of the possibilities and prospects for solving the problem of non-communicable diseases (NCDs) are reported in the article. The authors present the ideas of the educational and scientific project “Bioelectronic Medicine or Look at Medicine Differently”, which is the result of the research. The aim of the study was to introduce the ideas of bioelectronic medicine as a promising direction for solving the problem of NCDs. This study is a fragment of the research work on "The development of algorithms and technologies for implementing a healthy lifestyle in patients with non-communicable diseases based on the study of functional status" (state registration number 0121U108237: UDC 613 616-056-06: 616.1/9-03). General scientific methods and theoretical methods were used in this theoretical study. Conclusions: Bioelectronic medicine is a promising direction for the further development of medicine and for solving the problem of NCDs because its ideas integrate modern biophysical knowledge about the structure and functioning of the nanolevel of living matter in vivo into knowledge about the functioning of the human body. This opens up new perspectives for studying the pathology of NCDs. Bioelectronic medicine, as a promising direction for solving the problem of NCDs, needs to be further developed and its ideas need to be popularized among the world’s scientific community.

This perspective piece extrapolates knowledge of mitochondriology to the clinical aspects of cardiovascular disease (CVDs) development. The aim was to deepen the understanding of the etiopathogenesis of CVDs by conceptualizing the systemic involvement of mitochondrial dysfunction mechanisms in their follow-up. A theoretical comparison of mitochondrial status and mitochondrial dysfunction across stages of the cardiovascular continuum was performed based on a systematic analysis of the scientific literature data using general scientific, theoretical, and logical methods and normative rules. Conceptual aspects of the involvement of mitochondrial dysfunction (MD) mechanisms at each stage of the CVDs continuum were identified. MD is a dynamic, complex, multifactorial process that is characterized by quantitative and qualitative changes in the mitochondrial pool of human body cells during the development of CVDs. MD is a fundamental participant in the pathogenesis of CVDs, predetermining the nature and features of the clinical manifestation and course of the disease in each patient. MD has distinctive features at each stage of the catamnesis of CVDs and can be classified according to this principle. The development of objective methods for assessing the degree of MD and its classification criteria is a promising task for future scientific research.

Abstract. The review is devoted to the search for new directions for solving the problem of chronic non-communicable diseases in the future. The term "Non-communicable diseases" (NCDs) refers to chronic diseases of internal human organs that are not transmitted from one person to another. This term was first used by the medical academic community and the World Health Organization at the end of the 20th century after the understanding of the common pathogenesis of all non-communicable diseases deepened. All non-communicable diseases have a long duration of course/catamnesis and are the result of a combination of genetic, physiological, environmental, and behavioral factors. Results. As a result of the theoretical study, the following promising scientific directions for solving the problem of NCDs in the future were identified: Mitochondrial dysfunction as a new trend in the pathogenesis of NCDs and a new therapeutic target; Continuum of NCDs is a new model for their catamnesis; The Theory of Complex Systems of the human body is a new approach to the systemic study of NCDs; The promising role of Magnetobiology in the search for new mechanisms of the pathogenesis of NCDs; Frequency-wave model of the human body structure is a promising direction in the search for new methods of diagnosis and treatment of NCDs; Kinesiotherapy and regular exercise are scientifically based ways to overcome mitochondrial dysfunction and NCDs. The purpose of this perspective review was to identify new promising directions in solving the problem of chronic non-communicable diseases from the standpoint of modern biophysical knowledge. Materials and methods: general scientific and theoretical methods were used in the theoretical study. The results of the system analysis of existing new scientific knowledge, which can form the basis for new approaches to solving the problem of chronic non-communicable diseases, are presented in the review. Conclusions. The most promising areas were identified as areas related to deepening knowledge of the pathogenesis of chronic non-communicable diseases as the basis of pathology. These are studies devoted to the role of mitochondria, the creation of new ideas about the continuum of chronic non-communicable diseases, the search for new mechanisms of pathogenesis of chronic non-communicable diseases based on new knowledge of magnetobiology, and deepening knowledge about the role of the myofascial system in the energy supply of the human body. Of fundamental importance is the development of ideas of the theory of the human body as a complex system by the professor. A. Vainoras. A promising direction is the study of the possibilities of instrumental diagnostic complexes based on the Vega test and bioresonance therapy in the complex management and treatment of patients with chronic non-communicable diseases.

In 2018, research was initiated to investigate the role of electromagnetic processes in human metabolism. This theoretical research is part of the research work of the Department of Internal Medicine and Emergency Medicine of Poltava State Medical University (23, Shevchenko St., 36011, Poltava, Ukraine) on “Development of algorithms and technologies for implementing a Healthy Lifestyle in patients with Non-Communicable Diseases (NCDs) based on the study of functional status” (state registration number 0121U108237: UDC 613 616-056-06: 616.1/9-03). The results of this work were embodied in the conceptualization of the Magnetoelectrochemical Theory of Metabolism and Life. The purpose of this article is to present to the academic community brief information about the results of the research work carried out in this direction for the further development of these scientific ideas and their integration into the scientific paradigm. Conclusions: 1) Magnetoelectrochemical Theory of Metabolism and Life is a new trend in Complexity in Health Sciences. 2) The biophysical direction of development of modern medicine opens up new ways to solve the problems of diseases of internal organs. 3) Knowledge of the fundamental aspects of electromagnetic communication of cells of the human body is a new basis for deepening the fundamental knowledge of the pathogenesis of diseases of internal organs, and this is a new promising direction for further research. 4) Bioelectronic Medicine, as a new component of medical science, is based on and directs therapeutic influence on the quantum levels of the structure and functioning of the human body. 5) The initiative educational and scientific project “Bioelectronic Medicine or Look at Medicine Differently” is a practical attempt in the conditions of the scientific present to find a way to change the scientific paradigm and popularize the latest knowledge among the academic community of the biomedical direction. 6) The practical application of this knowledge opens up new avenues for the further development of Magnetobiology, Internal Medicine, Microbiology, and Traditional Medicine. It can ensure progress in the treatment of diseases of internal organs, whether infectious or non-infectious in origin.