Overview of the Therapy:
Telomeric Transmission Therapy improves human health through non-pharmaceutical, non-invasive means. This therapy enables synchronous observation and repair at the cellular level without the reliance on instruments.
Through a special mode of observation, we can delve deep into the ultra-microscopic state. In this state, we directly observe telomeric phenomena within the human body and facilitate the transmission of signals within cells and the repair of interactions between the core of the cell and other cells, all coordinated through neuronal transmission in the brain. This extends the telomeres, thereby having a positive impact on health and lifespan.
"I have personally experienced it; it was a profound sensation," "Truly embodying the science of human life," Mr. Saito has told us more than once.
Public disclosure of this therapy, driven by Mr. Saito's vision, has opened new avenues in the scientific community. As a life sciences scholar and beneficiary of the therapy himself, Mr. Saito has played a pivotal role. Together, we have engaged in extensive dialogues and ongoing correspondence, collecting his insights and theoretical assumptions, and integrating them with his personal experiences to thoroughly analyze the unique essences and core concepts of Telomeric Transmission Therapy.
Below is a summary of the discussion between Mr. Saito and Ms. Ella Wang on the therapy. Ms. Wang serves as a representative and a consultant for the Telomeric Transmission Therapy team.
- Telomeric Transmission Consultant Ella Wang:Telomeric Transmission Therapy, offers a unique alternative medical approach, focusing on treating individual cases over many years. Over years, we coined "Ultra-Microscopic State" and "Synchronous Observation" as terms to describe our unique treatment approach to those who have experienced it.
In the treatment, "Synchronous Observation" allows us to enter a domain even more microscopic, termed "Ultra-Microscopic State." In this state, we can directly observe the telomeric effects within the human body that are too subtle to be quantified by conventional instruments.
For twenty years, this therapy has not been exposed in the media. Its public disclosure now opens up a new field of exploration for current scientific technology. Mr. Saito, how do you interpret this therapy?
In my view, "Ultra-Microscopic State" and "Synchronous Observation" represent domains that science has not yet established or explained. Through my arguments, we can discuss these unique phenomena.
• Ultra-Microscopic State:
I believe this telomeric phenomenon goes beyond the microscopic scale observable with traditional microscopes, entering an even more minute microscopic realm. This reveals a deeper direct connection between the events inside cells and the overall process of life.
In the fields of quantum mechanics and cognitive science, the "Ultra-Microscopic State" may also allow for the exploration of the behavior of quantum micro-particles and potentially offer deeper insights into consciousness and perception. As our view shifts deeper into the microscopic, the levels we observe and understand extend to become more macroscopic.
- Dr. Saito, Ph.D:Telomeric Transmission Therapy not only involves the repair mechanisms of cells, but the phenomena of "Ultra-Microscopic State" and "Synchronous Observation" also open up deeper levels of thought for me and were the trigger for me to advocate making this therapy public, hoping to inspire more scientists to generate new ideas and directions.
From a scientific consensus, while we discuss the "microscopic" in life sciences, our human senses are limited. For example, we cannot see beyond the Milky Way or smaller than cells with the naked eye. However, we can compensate for these sensory limitations with instruments like telescopes and microscopes. Here, I have compiled information on "Macro and Micro."(Reference: Macro and Micro: How Scientific Instruments Extend Our View.)
• Synchronous Observation:
From the perspective of neuroscience, this can be characterized as the relationships and activities between neurons and the brain.
Using analogies, I simplify this concept by likening the human brain to a supercomputer. The brain receives commands, reorganizes cellular information, and can directly witness changes and repairs at the ultra-microscopic level within the body. Through "Synchronous Observation" in the "Ultra-Microscopic State", we can observe how telomere elongation is achieved by the interactions between the core of the cell and other cells.
This method of observation across scales belongs to a deeper category of life sciences. Telomeric Transmission Therapy serves as a bridge between the field of life sciences and the human body, expanding our understanding of the mysterious mechanisms by which telomeric transmission sustains life processes. The current scientific research on the complexity of the human brain may find new directions by studying these phenomena related to Telomeric Transmission Therapy.
I am deeply convinced that at this ultra-microscopic level, we can discover the fundamental patterns and laws of life through "Synchronous Observation".
- Telomeric Transmission Consultant Ella Wang:
Due to our adherence to the principles of case privacy protection and the scientific community's focus on data integrity, we repeatedly refused to disclose this therapy. Although modern technology can track data to confirm a therapy's progress in disease treatment, the unique phenomena of Telomeric Transmission Therapy remain unobservable at present, which is one of the reasons we consider not disclosing it.
"Synchronous Observation" can see phenomena that currently cannot be observed through external instruments. We once tried to use a monitoring system to record observations. However, the presence of additional personnel or monitoring equipment interfered, preventing the synchronous observation of Telomeric Transmission phenomena and thus hindering our ability to provide more specific data.
- Dr. Saito, Ph.D: There is a famous phenomenon within the scientific community known as the "Double-Slit Interference Experiment", which has given rise to some worthy discussions.Reference: Double-Slit Interference Experiment: Revealing the Observer Effect in the Quantum World. In this experiment, the behavior of photons changes upon observation. When measurements are taken to record through which slit a photon passes, its behavior exhibits phenomena entirely different from those when it is not observed.
Using a monitoring system to record and intervene in "Synchronous Observation," we found that the behavior of cells within the human body seems to mirror the mechanism observed in the double-slit experiment, where the act of observation itself alters the behavior of photons.
- Telomeric Transmission Consultant Ella Wang:
Through years of therapeutic practice, we have begun to contemplate the possibility of a "hidden order" within the human body. From the ultra-microscopic state of cells, it is evident that this "hiddenness" has a deeper significance.
In conventional medical imaging, X-rays and CT scans provide basic images of the human structure. However, our "Synchronous Observation," which displays drastically different images that seem to reveal phenomena hidden from conventional techniques, may itself be key to understanding a deeper order within the human body.
Although these ideas might initially have been private discussions, based on Mr. Saito’s experience and research, they may have some validity.
- Dr. Saito, Ph.D:
We might consider this situation as "undiscovered dimension or scale," which essentially represents "implicate order."(Reference: The Implicate Order)
I have participated in many biological cell experiments, where I found that biologists and physicists approach the quantification of cell characteristics differently: biologists typically quantify functional development such as nucleic acid expression, whereas physicists quantify physical properties like size changes.
The research methodologies of physics and biology each have their focus: physicists concentrate on observational studies and are accustomed to using theoretical models to explain phenomena; biologists rely more on establishing hypotheses and testing them for validation. My experience shows that collaboration with experts from different fields can stimulate new thoughts and creativity, especially in interdisciplinary projects.
"Rules exist to be broken," and many scientific arguments are subsequently validated because they break the mold and adopt a broader perspective, establishing the logic of hypotheses. Some of our successful research outcomes have been due to the cooperation among team members.
"Rules exist to be broken," and many scientific arguments are subsequently validated because they break the mold and adopt a broader perspective, establishing the logic of hypotheses. Some of our successful research outcomes have been due to the cooperation among team members.
As a researcher involved in cellular experiments and fortunate enough to have access to Telomeric Transmission Therapy, I had the opportunity to conduct in-depth cross-comparisons. During my in-depth research into the "Ultra-Microscopic State," I discovered that the behavior of cells inside the body differs from that observed from outside. This has confirmed that cells exhibit different characteristics in vivo and in vitro.
Reference: Cell Behavior's Environmental Dependency: Exploring In Vivo and In Vitro Discrepancies.
- Telomeric Transmission Consultant Ella Wang:
In addition to the ability to observe ultra-microscopic states synchronously, body perception is also significantly evident in Telomeric Transmission Therapy.
Based on the information gathered from our team's clinical experience with this therapy, we've noted that as the therapy progresses, cases experience various bodily sensations such as microcurrents, warmth, or feelings of soreness and numbness, which vary depending on the individual's physical condition and constitution.
Besides your own experiences, Mr. Saito, is there a scientific consensus to explain these phenomena?
- Dr. Saito, Ph.D:
In my multiple experiences with the therapy, I have been able to observe internal cellular events and simultaneously feel the changes occurring within my body.
These perceptions have led me to realize that discussions on cellular behavior systems in life sciences and biology often rely on analogies or metaphors, even among experts. The therapy has allowed me to further validate these perspectives.
Reference: Exploring "The Selfish Gene": Richard Dawkins' Gene-Centric Perspective
Thus, I deeply feel that this therapy truly embodies the science of human life. It is not only a means to validate theories but also a way to truly understand the mysteries of the human body.
These sensations coincide with internal bodily events. I propose using anthropomorphic metaphors to discuss cellular behavior, a common approach among biologists to explain theories about genes, cells, and the brain. This method not only clarifies complex concepts but also highlights the similarities between cellular and human behaviors.
Some of these bodily sensations, we can imagine, are due to immune cells receiving signals to prepare for battle.
The immune system can be likened to a well-organized army. When the body detects a threat, immune cells quickly assemble to prepare for battle. B cells, like special forces, rapidly deploy antibodies to mark the enemy for attack. T cells act like assault troops, entering the battlefield to eliminate marked targets or directly clear infected cells. Meanwhile, support troops such as macrophages are responsible for cleaning up debris and enemy remains on the battlefield, and logistics units like repair cells ensure that damaged tissues are swiftly repaired and regenerated, maintaining the ongoing combat effectiveness of the troops.
Reference: Basic Structure and Function of the Immune System
In other words, our immune system is constantly hard at work. It continuously identifies and attacks cells that may pose a threat to the body. This is akin to our immune system conducting an internal "war" to protect our body, hence, these bodily sensations are manifestations of cells striving to coexist harmoniously with our bodies, jointly repairing and healing themselves.
Biology encompasses a broad spectrum from cellular behavior to brain function, from individual to group behaviors, which can be described as a hierarchical structure from micro to macro, with similar operational mechanisms.
- Telomeric Transmission Consultant Ella Wang:
When cells work within our bodies, each breath and heartbeat manifests the essence of life. In our therapy, we have adopted non-mathematical methods to describe its effects, recognizing that each organism is unique and displays diverse characteristics, which means the same disease can manifest differently across cases.
- Dr. Saito, Ph.D:
First, I need to clarify that I am not suggesting that cells possess consciousness. Despite my years of receiving Telomeric Transmission Therapy and having a background in scientific research, I believe our current understanding of the world and life itself remains incomplete. The origin of brain consciousness remains a mystery, and debates about human free will persist in academia, let alone the complexity of tiny cells.
The primary goal is to fully express the uniqueness of this therapy, hence the use of metaphors to aid understanding.
Describing the phenomena within our cells in an anthropomorphic way may meet with some scientific opposition. From a physical perspective, cellular activity is simply a function of the body system, and cells should not be anthropomorphized as they do not have intentions. However, my discussion does not imply that cells have mental qualities; rather, I focus on their unique behaviors in nature, which are distinctly fascinating.
My previous work involved extracting cells from organisms to study and then making reasoned conclusions. We have discussed the differences between cells inside and outside the body, but data from quantitative studies of cells within organisms are still relatively scarce.
Cells are part of an organism, and when discussing their internal operational modes, I have repeatedly considered whether to use anthropomorphic descriptions. In my view, this approach still aligns closely with the investigative angle of Telomeric Transmission Therapy.
Through this therapy, I even feel that the human body is like a perfect vessel for life engineering. Cells and humans both strive for survival, hence they share similar operational mechanisms. Years of researching gene encoding, telomeres, cellular division mechanisms, and the ultra-microscopic state of cells have led me to discover the intricacies and mysteries of the human body, akin to a well-designed organism.。
As a scientist, I am committed to these ideas and continuously challenged to think deeply. I hope to keep exploring this perspective and look forward to engaging with other scientists for critique and guidance as we seek to unravel these mysteries together.
- Telomeric Transmission Consultant Ella Wang:
When discussing bodily perception, we note that nearly every case experiences microcurrents, indicating that the body possesses electrical properties. Telomeric Transmission Therapy requires a medium for transmission, and Mr. Wei -Xu Huang uses a method of lightly touching the case's wrist, using the human body as a medium.
We have also learned from medical literature that physiological phenomena such as ions, charges, and electric fields exist within human tissues and play significant roles internally. Microcurrents and other electrophysiological activities are likely closely related to the physiological processes of body tissues, but we currently apply commonly known scientific principles to understand their mechanisms.
The "transmission" phenomena in Telomeric Transmission Therapy involves many factors, including communication between cells in the nerve plexus, molecular transfer, and the permeability of cell membranes. These may be related to differences in internal electrical potential, charge distribution, and communication between cells. However, regarding the specifics of these mechanisms, because we have not established models for study, from our perspective, we only concern ourselves with whether the treatment effectively assists cases with their medical issues.
Therefore, concerning "transmission" phenomena, this discussion with Mr. Saito also aims to explore more perspectives.
- Telomeric Transmission Consultant Ella Wang:
The nervous system plays a crucial role in regulating and coordinating the functions of various parts of the body. Taking amyotrophic lateral sclerosis (ALS) as an example, this disease primarily affects motor neurons, leading to their inability to effectively transmit signals to muscles, thereby causing muscle weakness and atrophy. In such cases, Telomeric Transmission Therapy can address diseases at the cellular level and also provide the necessary support for issues related to the nervous system.
We firmly believe that the human body operates in “more subtle” ways than technological instruments can detect. The brain, as the core of the nervous system, controls various functions of the body, while the nervous system executes the brain's commands, thus promoting coordination and regulation among different parts of the body.
In recent years, we particularly focus on neurological diseases and the needs of individuals related to brain function disorders. Therefore, research and understanding of the brain are increasingly valued by us.
- Dr. Saito, Ph.D:
Various mechanisms exist within the human body for transmitting electrical signals, primarily through the nervous system. The nervous system is a complex network composed of neurons, which transmit information through chemical and electrical signals.
Reference: The Nervous System and Cellular Electrical Signal Transmission
When neurons are activated, they generate electrical impulses, known as nerve impulses. These impulses can travel along nerve fibers to other neurons or other parts of the body, thereby transmitting information. This process of electrical signal transmission is fundamental to the nervous system's regulation of various bodily functions.
Additionally, other forms of electrical signal transmission exist in the body, such as the cardiac activity of the heart and the myoelectric activity of muscles. These electrical activities are generally related to physiological functions, such as heart contraction and relaxation and muscle movement. Typically, we are unaware of these internal electrical activities because the human body lacks specialized receptors to sense them.
In summary, mechanisms for transmitting electrical signals do exist within the body, primarily through the nervous system and other physiological processes. Through Mr. Huang's directions in the therapy, the body generates sensations of microcurrent flow, which are potentially the body's responses to receiving and executing these repair instructions.
I must frankly admit, somewhat embarrassingly, that how Mr. Huang acts as a medium for transmission is beyond my current understanding of science. I believe that further neurological studies may one day provide the answers.
- Telomeric Transmission Consultant Ella Wang:
Individuals who have undergone the therapy also share a common feeling: the ultra-microscopic state within the human body is like a spinning microcosm.
- Dr. Saito, Ph.D:
Comparing the structure of brain neurons to astronomical space does indeed reveal significant similarities. Organisms are composed of cells, which also represent the essence of life. However, the complexity and partially unquantifiable nature of the human body and brain present certain challenges for scientific research.
There are still many unknown areas in the field of life sciences waiting for us to explore, and humanity's pursuit of health and longevity has never ceased. Like the question of "which came first, the chicken or the egg," discussing the connection between internal cellular events and the overall life process, I find to be a very interesting topic.
By comprehensively observing and experiencing the various aspects of the human body, we can gain a more holistic understanding. This approach transcends traditional segmented research methods, and perhaps in the future, it may even be necessary to explore the science of consciousness to fully present the puzzle of this vast field.
As we pursue answers, we will also face more questions, but it is precisely this spirit of exploration that drives us forward, revealing the essence of life.
- Dr. Saito, Ph.D:
The brain can be thought of as a highly sophisticated supercomputer that serves as the master controller of the body, regulating its functional operations. When the brain sends what might be termed 'incorrect commands,' it can result in functional disorders, such as motor control issues or cognitive impairments. Additionally, the brain governs emotions, thoughts, behaviors, and cognitive functions. Many mental illnesses, such as depression, are linked to abnormalities in brain function, including neurotransmitter imbalances.
Although popular science often focuses on well-established scientific facts, such as the intricate processes of information handling and signal transmission within networks of neurons, our understanding of how the brain manages decision-making, emotions, perceptions, and the translation of these into deliberate actions is still quite limited.
I advocate for more varied discussions in brain science, as much about the brain remains as uncharted territory in the life sciences.
Numerous research teams are currently investigating the brain from various perspectives. In a similar way to how we understand only a fraction of the universe's dark matter, our grasp of brain science in the field of life sciences is still evolving and far from complete.
Reference: Dark Matter in the Universe
# Conclusion:
The profundity of this therapy transcends what words can describe.
Dr. Saito, Ph.D records the unquantifiable personal experiences as faithfully as possible with simulated images. (Next section, Simulation Images of Ultra-Microscopic State Cells)