Feelogica Science
When you understand the impact of the brain on life - you take control.
Books:
"Epigenetics, Brain and Behavior"
This volume delves into critical epigenetic regulation and chromatin remodeling events in the nervous system, exploring mechanisms that lead to long-lasting neuronal responses
AMAZON.COM
"Fundamentals of Developmental Cognitive Neuroscience"
This book offers an exploration of brain development, emphasizing the interplay between genes and the environment in shaping neuronal circuits
CAMBRIDGE.ORG
Research Articles
"Epigenetic Signature in Neural Plasticity: The Journey So Far and Future Perspectives"
This article discusses how epigenetic mechanisms like DNA methylation and histone acetylation contribute to neural plasticity, enabling neurons to adapt structurally and functionally to various stimuli
PMC.NCBI.NLM.NIH.GOV
"Epigenetic Influences on Brain Development and Plasticity"
This research highlights the dynamic regulation of gene expression through epigenetic mechanisms, emphasizing their role in shaping neuronal circuits during early brain development
PMC.NCBI.NLM.NIH.GOV
"From Circuits to Chromatin: The Emerging Role of Epigenetics in Mental Health"
The article explores how new genetic tools have uncovered epigenetic processes that lead to long-lasting behavioral changes relevant to mental health and disease
JNEUROSCI.ORG
"Epigenetics of Brain Plasticity and Behavior"
This paper examines how epigenetic processes mediate brain development and plasticity, offering insights into restoring dysfunctional learning and enhancing neuroplasticity in adults
RESEARCHGATE.NET
"Epigenetic Mechanisms Regulating Neural Plasticity"
The editorial discusses the role of epigenetic mechanisms in the adaptive features of the central nervous system, both in physiological and pathological contexts
FRONTIERSIN.ORG
"Epigenetic Modifications and Neuroplasticity in the Pathogenesis of Major Depressive Disorder"
This review collects recent studies supporting the role of epigenetics and neuroplasticity in the development of major depressive disorder, focusing on early life stress
MDPI.COM
"Cell-Type-Specific Epigenetic Effects of Early Life Stress on the Brain"
The study investigates how early life stress induces long-term phenotypic adaptations through epigenetic modifications, contributing to increased vulnerability to neuropsychiatric disorders
NATURE.COM
"The Changing Brain: Neuroscience and the Enduring Import of Neuroplasticity"
This article explores the concept of neuroplasticity and its presence in public discourse, highlighting how novel neuroscience is accepted by various audiences
PMC.NCBI.NLM.NIH.GOV
"Epigenetics and Brain Plasticity: Back to Function"
The paper discusses the functional implications of epigenetic mechanisms in brain plasticity, emphasizing their role in neurobiological and psychological aspects of brain recovery
RESEARCHGATE.NET
"Chopra, Tanzi Share How To Change Neural Pathways And Even Gene Expression Itself" In New Book
This article highlights insights from Deepak Chopra and Rudolph Tanzi on changing neural pathways and gene expression, emphasizing the potential for personal transformation
"Epigenetics, Brain and Behavior"
This volume delves into critical epigenetic regulation and chromatin remodeling events in the nervous system, exploring mechanisms that lead to long-lasting neuronal responses
AMAZON.COM
"Fundamentals of Developmental Cognitive Neuroscience"
This book offers an exploration of brain development, emphasizing the interplay between genes and the environment in shaping neuronal circuits
CAMBRIDGE.ORG
Research Articles
"Epigenetic Signature in Neural Plasticity: The Journey So Far and Future Perspectives"
This article discusses how epigenetic mechanisms like DNA methylation and histone acetylation contribute to neural plasticity, enabling neurons to adapt structurally and functionally to various stimuli
PMC.NCBI.NLM.NIH.GOV
"Epigenetic Influences on Brain Development and Plasticity"
This research highlights the dynamic regulation of gene expression through epigenetic mechanisms, emphasizing their role in shaping neuronal circuits during early brain development
PMC.NCBI.NLM.NIH.GOV
"From Circuits to Chromatin: The Emerging Role of Epigenetics in Mental Health"
The article explores how new genetic tools have uncovered epigenetic processes that lead to long-lasting behavioral changes relevant to mental health and disease
JNEUROSCI.ORG
"Epigenetics of Brain Plasticity and Behavior"
This paper examines how epigenetic processes mediate brain development and plasticity, offering insights into restoring dysfunctional learning and enhancing neuroplasticity in adults
RESEARCHGATE.NET
"Epigenetic Mechanisms Regulating Neural Plasticity"
The editorial discusses the role of epigenetic mechanisms in the adaptive features of the central nervous system, both in physiological and pathological contexts
FRONTIERSIN.ORG
"Epigenetic Modifications and Neuroplasticity in the Pathogenesis of Major Depressive Disorder"
This review collects recent studies supporting the role of epigenetics and neuroplasticity in the development of major depressive disorder, focusing on early life stress
MDPI.COM
"Cell-Type-Specific Epigenetic Effects of Early Life Stress on the Brain"
The study investigates how early life stress induces long-term phenotypic adaptations through epigenetic modifications, contributing to increased vulnerability to neuropsychiatric disorders
NATURE.COM
"The Changing Brain: Neuroscience and the Enduring Import of Neuroplasticity"
This article explores the concept of neuroplasticity and its presence in public discourse, highlighting how novel neuroscience is accepted by various audiences
PMC.NCBI.NLM.NIH.GOV
"Epigenetics and Brain Plasticity: Back to Function"
The paper discusses the functional implications of epigenetic mechanisms in brain plasticity, emphasizing their role in neurobiological and psychological aspects of brain recovery
RESEARCHGATE.NET
"Chopra, Tanzi Share How To Change Neural Pathways And Even Gene Expression Itself" In New Book
This article highlights insights from Deepak Chopra and Rudolph Tanzi on changing neural pathways and gene expression, emphasizing the potential for personal transformation
The New Future: An Epigenetic Revolution Through Novel Mental-Virtual Environments for the Brain
Abstract
Humanity is entering a groundbreaking era, where accumulated knowledge of brain processes and epigenetics creates opportunities for dramatic improvement in quality of life, in various areas of life.
Feelogica brings a futuristic vision in which targeted epigenetic changes, achieved through personalized mental-virtual environments, enable treatment of diseases, strengthening of interpersonal relationships, regulation of body weight, cultivation of inner peace, and improvement of lifespan and quality of life.
Introduction
The human brain is a complex system that combines biological structures and exceptional learning abilities, known as neuroplasticity, which is the brain's ability to change and adapt as a result of exposure to experiences and stimuli. In addition, the field of epigenetics indicates that environment, nutrition, and behavior directly affect gene expression, thereby shaping the function of the body and brain. This understanding opens the door to targeted changes in brain processes, capable of treating the roots of medical, mental, and social problems.
An Epigenetic Revolution Through the Creation of Unknown Mental-Virtual Environments for the Brain
The vision of the future is based on harnessing the principles of neuroplasticity and epigenetics to create mental-virtual environments aimed at leading to targeted changes in the brain.
These environments cause situations or experiences that force the brain to adapt to changes, which leads to the reshaping of neural patterns and changes in gene expression, and with them a change in the physical expression of life.
Principles of the Approach
Designing a personalized environment:
Creating virtual environments based on a personal genetic and epigenetic profile, tailored to the unique challenges and goals of the user.
Controlled and gradual exposure:
The user is exposed to the environment gradually, while monitoring the effect on the brain and body functions, to maximize results and prevent unwanted reactions.
Activation of targeted neuroplasticity:
The virtual stimuli stimulate the brain to create new neural connections and strengthen existing ones, which leads to the correction and upgrading of cognitive functions.
Focused epigenetic change:
The neuroplasticity process leads to changes in gene expression, which affect physiological and mental functions and bring about the correction of problems and changes in physical life.
Improvement in the quality of physical life:
The changes that occur in the brain are integrated into daily life, affecting areas such as health, relationships, emotional stability, success, and personal aspirations.
Practical Applications and Their Contribution to the Future of Humanity
Healing and preventing diseases:
The use of targeted virtual environments to regulate the immune system, repair DNA damage and prevent diseases in which epigenetics is involved (see list on the health page) such as cancer, Alzheimer's, heart disease, and others. Initial studies indicate that epigenetic change may even reduce inflammatory processes and accelerate cell repair.
Improving relationships and relationships:
Environments of emotional interactions, unknown to the brain, contribute to improving empathy, resolving conflicts, and cultivating communication skills, which leads to the creation of more stable and happier relationships.
Regulation of body weight:
Precise and personalized interactive stimuli affect the centers of satiety and hunger in the brain, encouraging regulation of metabolism and maintaining a healthy body weight.
Cultivating peace and mental well-being:
Environments of emotional interactions, unknown to the brain, reduce anxiety, stress, and depression, and encourage emotional balance.
Extending lifespan and quality of life:
The use of targeted virtual environments to regulate the immune system, the rate of cell division, the ability to repair DNA, hormonal balance and improve the functioning of body systems, may lead to slower aging and a longer, healthier and more fulfilling life.
Developing a new generation of drugs
The use of mental-virtual environments in combination with epigenetic understanding allows for the creation of personalized drugs that are integrated into these processes. These drugs will be able to improve the effectiveness of treatment processes by supporting the neuroplastic and epigenetic changes that occur in the brain.
The combination of virtual stimuli with innovative drugs may accelerate the achievement of treatment goals, treat complex chronic diseases and prevent the development of new diseases.
Integration of researchers from various disciplines
To realize this breakthrough, we are collaborating with researchers from diverse fields, including neurology, genetics, psychology, artificial intelligence, and more.
These collaborations are intended to conduct innovative research, in-depth understanding of the interaction between brain and environment, and the advancement of advanced technologies to create personalized mental-virtual environments. In addition, the integration of disciplines will lead to the development of better and better tools as well as to the improvement of epigenetic processes in the brain.
Summary
The epigenetic revolution through mental-virtual environments offers a future in which it is possible to control the factors that affect our health, mind, and relationships. This technology is based on advanced science and insights from neurological and epigenetic studies, and it is expected to change the way we approach health and personal development. The vision describes a world in which humanity not only copes with the challenges of life, but reshapes them for the benefit of maximum quality of life.
Abstract
Humanity is entering a groundbreaking era, where accumulated knowledge of brain processes and epigenetics creates opportunities for dramatic improvement in quality of life, in various areas of life.
Feelogica brings a futuristic vision in which targeted epigenetic changes, achieved through personalized mental-virtual environments, enable treatment of diseases, strengthening of interpersonal relationships, regulation of body weight, cultivation of inner peace, and improvement of lifespan and quality of life.
Introduction
The human brain is a complex system that combines biological structures and exceptional learning abilities, known as neuroplasticity, which is the brain's ability to change and adapt as a result of exposure to experiences and stimuli. In addition, the field of epigenetics indicates that environment, nutrition, and behavior directly affect gene expression, thereby shaping the function of the body and brain. This understanding opens the door to targeted changes in brain processes, capable of treating the roots of medical, mental, and social problems.
An Epigenetic Revolution Through the Creation of Unknown Mental-Virtual Environments for the Brain
The vision of the future is based on harnessing the principles of neuroplasticity and epigenetics to create mental-virtual environments aimed at leading to targeted changes in the brain.
These environments cause situations or experiences that force the brain to adapt to changes, which leads to the reshaping of neural patterns and changes in gene expression, and with them a change in the physical expression of life.
Principles of the Approach
Designing a personalized environment:
Creating virtual environments based on a personal genetic and epigenetic profile, tailored to the unique challenges and goals of the user.
Controlled and gradual exposure:
The user is exposed to the environment gradually, while monitoring the effect on the brain and body functions, to maximize results and prevent unwanted reactions.
Activation of targeted neuroplasticity:
The virtual stimuli stimulate the brain to create new neural connections and strengthen existing ones, which leads to the correction and upgrading of cognitive functions.
Focused epigenetic change:
The neuroplasticity process leads to changes in gene expression, which affect physiological and mental functions and bring about the correction of problems and changes in physical life.
Improvement in the quality of physical life:
The changes that occur in the brain are integrated into daily life, affecting areas such as health, relationships, emotional stability, success, and personal aspirations.
Practical Applications and Their Contribution to the Future of Humanity
Healing and preventing diseases:
The use of targeted virtual environments to regulate the immune system, repair DNA damage and prevent diseases in which epigenetics is involved (see list on the health page) such as cancer, Alzheimer's, heart disease, and others. Initial studies indicate that epigenetic change may even reduce inflammatory processes and accelerate cell repair.
Improving relationships and relationships:
Environments of emotional interactions, unknown to the brain, contribute to improving empathy, resolving conflicts, and cultivating communication skills, which leads to the creation of more stable and happier relationships.
Regulation of body weight:
Precise and personalized interactive stimuli affect the centers of satiety and hunger in the brain, encouraging regulation of metabolism and maintaining a healthy body weight.
Cultivating peace and mental well-being:
Environments of emotional interactions, unknown to the brain, reduce anxiety, stress, and depression, and encourage emotional balance.
Extending lifespan and quality of life:
The use of targeted virtual environments to regulate the immune system, the rate of cell division, the ability to repair DNA, hormonal balance and improve the functioning of body systems, may lead to slower aging and a longer, healthier and more fulfilling life.
Developing a new generation of drugs
The use of mental-virtual environments in combination with epigenetic understanding allows for the creation of personalized drugs that are integrated into these processes. These drugs will be able to improve the effectiveness of treatment processes by supporting the neuroplastic and epigenetic changes that occur in the brain.
The combination of virtual stimuli with innovative drugs may accelerate the achievement of treatment goals, treat complex chronic diseases and prevent the development of new diseases.
Integration of researchers from various disciplines
To realize this breakthrough, we are collaborating with researchers from diverse fields, including neurology, genetics, psychology, artificial intelligence, and more.
These collaborations are intended to conduct innovative research, in-depth understanding of the interaction between brain and environment, and the advancement of advanced technologies to create personalized mental-virtual environments. In addition, the integration of disciplines will lead to the development of better and better tools as well as to the improvement of epigenetic processes in the brain.
Summary
The epigenetic revolution through mental-virtual environments offers a future in which it is possible to control the factors that affect our health, mind, and relationships. This technology is based on advanced science and insights from neurological and epigenetic studies, and it is expected to change the way we approach health and personal development. The vision describes a world in which humanity not only copes with the challenges of life, but reshapes them for the benefit of maximum quality of life.