PHYSICS, BIOLOGY, MEDICINE IN THE LANDSCAPE OF QUANTUM BENEFITS

From left: John Clauser, Anton Zeilinger and Alain Aspect.

The 2022 Nobel Prize in Physics has been awarded to trio for Work in. Quantum Technology.Alain Aspect, John F. Clauser and Anton Zeilinger for their developments using quantum entangled states.

The Karolinska Institute in Stockholm indicated that the winners, pioneers in the quantum information science, "have demonstrated a phenomenon called quantum teleportation, which makes it possible to move a quantum state from one particle to another one at a distance," the Swedish Academy summarized.

HOW DOES QUANTUM BIOLOGICAL MEDICINE APPLY FOR THIS TIME?

Nature is the master of nanotechnology, which has created proton pumps, F-AT enzymes, F-AT enzymes, F-AT enzymes, F-AT enzymes and F-AT enzymes. proton pumps, nanoscale rotating F-ATPase enzymes, motor proteins, and DNA polymerases, among other nanomachines. Examples of nanoscale quantum biological nanoscale quantum biological systems and processes that have been examined closely include photosynthesis with its complex photosynthesis with its complex light-capturing structures in chlorophyll, the motor proteins that form the machinery of a living cell, as well as the effects of metabolic the effects of metabolic enzymes, ion channels, etc.

QUANTUM CELL BIOLOGICAL CELL MEDICINE OPENS NEW WAYS:

Analyzing treatment options and assessing risks has long been the mission of scientists and clinicians long been the mission of scientists and physicians. Quantum cell biology can help us move much further down the road and bring with it early detection and predictive medicine, which can early detection and predictive medicine, bringing joy to health science professionals. health science professionals.

Recent research has established that quantum biology plays a key role in biological processes such as regeneration, recovery, photosynthesis, respiration, enzyme action, olfaction, orientation at all scales, mutation and orientation at all scales, mutation and even the way our brain processes and develops each brain processes and develops every decision.

The electrons, protons, excitations, chemical bonds and electronic charges are, by definition, quantum, and understanding their dynamics requires quantum mechanics. Moreover, these basic elements determine to a large extent the properties of the next level of organization in biological systems: that of biological biological systems: that of biomolecular complexes, whose interaction among themselves and with their with their environment often cannot be accurately described without taking into account the laws of quantum biology. the laws of quantum biology.

CELLS AND MOLECULES PROBEING:

Quantum diamond sensors can also be used in thermometers within cells. The nitrogen vacancy centers in diamonds are very sensitive to small temperature fluctuations. sensitive to small temperature fluctuations. Physicist Peter Maurer of the University of Chicago and his colleagues injected nanoscale diamonds with such defects into cells. injected nanometer-scale diamonds with such defects into living cells and examined how the crystals crystals responded to laser beams to map temperatures inside the cells to within a few milliseconds. the cells to within a few thousandths of a degree Celsius.

The importance of measuring at this atomic scale with the use of such atomic thermometers lies in scaling how temperature influences cell division, gene expression and how molecules enter and leave cells, all important questions in medicine and biology in all important questions in medicine and biology in all segments of the health sciences.

CEREBRAL EXPLORATIONS:

Electrical currents within the brain generate magnetic fields that sensors can analyze to noninvasively scan for sensors can analyze to noninvasively explore brain activity. brain. Now, quantum sensors allow these types of (MEG) scans with unprecedented throughput and cost, resulting in a signal of at least at least five times better signal, for millimeter-accurate magnetic imaging. millimeter-accurate, millisecond-resolution magnetic images of surface areas of the brain. areas of the brain. "The new quantum sensors detect these changes in a way that MRI sensors cannot currently do. do at present.

The two strands of DNA's famous double helix are linked together by subatomic particles called protons, the nuclei of hydrogen atoms, which provide the glue that binds molecules called bases. hydrogen, which provide the glue that binds the molecules called bases together.

These so-called hydrogen bonds are like the rungs of a twisted staircase that forms the the double-helix structure discovered in 1952 by James Watson and Francis Crick based on the Watson and Francis Crick based on the work of Rosalind Franklin and Maurice Wilkins. Wilkins.

VIRUS DETECTION:

The new technique consists of coating diamonds with vacant center of approximately 25 nanometers wide with magnetic compounds that are released from the gems after they are compounds that are released from the gems after they bind with the RNA sequence specific to the SARS-CoV virus. specific RNA sequence of the SARS-CoV-2 virus. When these diamonds are illuminated with green light green light, they will emit a red glow. The magnetic coating dims this glow; exposing the sensors to the virus can increase this glow.

In their study (Nature Communications Physics/Leverhulme Quantum Biology Doctoral Training Center), the authors determined that the local cellular environment causes protons, which behave as scattered waves environment causes the protons, which behave as scattered waves, to become thermally activated and stimulated thermally activated and stimulated across the energy barrier. In their In their study, the authors determined that protons in DNA can tunnel along the along the hydrogen bonds in DNA and modify the bases that encode genetic information. that encode genetic information, this in the molecule of life, DNA, replicate with astonishing precision.

Electrons, protons, excitations, chemical bonds, and electronic charges are, by definition, quantum, and understanding their dynamics requires quantum biology. In addition, these basic entities largely determine the properties of the next level of organization in biological systems: that of biomolecular complexes, whose interaction with each other and with their environment often cannot be accurately described without taking into account the laws of quantum biology.

All matter, including living matter, is subject to the laws of physics. Biology and biological processes often deal with electrons and protons that are continuously transferred between different parts of a cell or macromolecular system. These transfer processes can only occur when the system exchanges energy with its environment in the form of molecular vibrations and phonons. Such a system is called an "open quantum system," and special physical laws apply to it.

Quantum effects manifest themselves as long-distance effects (such as in electron and proton tunneling) with a characteristic dependence on temperature, magnetic field effects, participation of superposition states (or delocalization), resonance effects, etc.

• Evaluate the strengths and weaknesses organ by organ and of the body in general.
• Evaluate the actual and real capacity of the different systems of the body in each patient.
• Identify and target solutions to the imbalances in which vital organs are found.
• Develop relevant and/or effective therapies to bring the body to work in its optimal state.

Preventive medical attention (evaluations, check-ups, counseling, etc.) should not be confused with predictive medical attention, which uses much more precise and personalized technologies. This allows obtaining more precise and individualized data that can be used to determine biological trends in each patient.

Even more avant-garde is the ability to create patient profiles not only with DNA information but also with data that are not usually tested by traditional systems. The better the quality of the information, the better, since at the end of the day, a quantum laboratory can analyze each piece of information to better support the health needs of patients.

WHAT IS QUANTUM ENTANGLEMENT?

Two particles are entangled when they form a quantum system together, regardless of the distance between them. It was Einstein, along with Boris Podolsky and Nathan Rosen, who first described quantum entanglement in an article in 1935.

"The point is that, using entanglement, you can transfer all the information that is carried by an object to another place, where the object is, so to speak, reconstituted," said Zeilinger during the Nobel announcement.

These are the protagonists of the penultimate revolution in medicine, and promise to have a disruptive impact in this field.

WHY IS QUANTUM TECHNOLOGY A PROMISE FULFILLED IN THE HEALTH SCIENCES?

It is already known that multiple cellular processes of the human body occur at the nanoscale, in the domain of atoms and subatomic particles, in the realm of quantum biology. At this scale, matter no longer behaves according to the laws of classical physics and, instead, begins to show unique properties, often contrary to intuition in quantum biology.

While hospitals have been using quantum technologies like lasers and magnetic resonance imaging (MRI) for decades, emerging quantum technologies, especially in bio-computers and other state-of-the-art devices and systems, are already having far-reaching impact, enabling the development of personalized medicines, organ support without causing harm, all at the molecular level, etc.

This field is based on two principles: The superposition of matter and quantum entanglement. Thanks to them, different Bio-computing from traditional computing is capable of storing many more states per unit of information and operating with much more efficient algorithms at a numerical level. Taking advantage of quantum biology, that is, the part that studies atomic and subatomic particles, the limitations of the past are overcome.

In short: it uses and takes advantage of properties and characteristics of the microscopic world that are not found in the macroscopic world and that have great potential ahead. Within the emerging quantum biotechnologies, for the present and future of medicine and the entire field of health sciences.

With the newest and most advanced algorithms, Quantum Biology, helping to more efficient clinical treatment methods by patient type or by investigating the structures of complex molecules in each or investigating the structures of complex molecules in every area of the living organism. living organism. This, in turn, allows for the development of new ways of doing medicine by medicine by promoting automatic diagnostics thanks to the large flow of medical data and images via Medical Machine Learning. medical images via Medical Machine Learning.

The use of Quantum Biology in medicine provides early disease detection or highlights disease risks before they manifest on a larger scale. One of the essential reasons for quantum-level Biomedicine handled by specialist physicians is that a high percentage of biological processes occur on a microscopic scale similar to quantum interactions. This makes the use of technologies at this scale essential. It is important to define that while current analysis systems use 1 bit (a piece of information) that is either 0 or 1, under biocuantum measurement, precision and details are higher since it works with a quantum bit (q-bit) that can easily move from 0 to 1 at the same time. This superposition allows valuable information to be obtained frame by frame and organ by organ.

Currently, gold nanoparticles are used to detect biomarkers in blood and can be visualized using magnetic resonance machines; their unique quantum properties allow them to adhere to disease-fighting cells.

Investigadores de la Universidad de York han diseñado un parche que reemplaza una sola jeringa con muchos pequeños nanofilamentos de polímero que administran medicamentos a través de los folículos pilosos. Nanject es capaz de administrar medicamentos contra el cáncer sin dañar las células sanas.

En el Laboratorio de Óptica Cuántica de la Universidad de Harvard se está desarrollando una técnica novedosa que involucra partículas de diamante a nanoescala, incorporando defectos de un solo átomo en los nanodiamantes, que exhiben un comportamiento mecánico cuántico en condiciones ambientales. Cuando se incorporan a las células vivas, estos nanodiamantes podrían usarse para medir y controlar la temperatura localmente dentro de las células y con un láser se puede controlar la temperatura de las partículas cuánticas con mucha precisión, hasta el punto en que podían acelerar selectivamente el desarrollo de diferentes células.

Researchers from the Department of Physics and Astronomy at University College London have adapted a quantum detection technique to obtain images of live cardiac tissue conductivity levels at an unprecedented level of sensitivity. Conductivity was controlled using quantum sensors based on rubidium to obtain precise and consistent live tissue images for several days. The ability to detect conductivity at less than one Siemens per meter showed a 50-fold improvement compared to other methods.

Quantum biological medicine has the potential to support and strengthen on a large scale all medical health sciences and primary care at all major levels; by using matter and analysis on an atomic scale, all healthcare professionals can have the ability to make healthcare more efficient, faster, and less painful. In addition, it has opened the door to more personalized medicine at all levels.

Dr. Warwick Bowen of the University of Queensland developed a way to explore the internal workings of a living cell using a new type of laser microscopy based on the principles of quantum biology. And using quantum systems, we can sequence DNA more quickly and solve other Big Data problems in healthcare. This opens up the possibility of personalized medicine based on the unique genetic composition of individuals.

Quantum Cellular Biological Medicine focuses on cellular regeneration and preservation. Our cells are under constant stress from pollutants, diet, too much or too little exercise, drugs, and other lifestyle factors. When our cells weaken, we look and feel tired and are more prone to getting sick. That is why we look at health from the same root: the cellular level.

Our affiliates and specialist doctors use the latest developments in personalized Quantum Cellular Biological Medicine for both the diagnosis and treatment of diseases, as well as for maintaining optimal anti-aging health and well-being.

Major corporations are also already well established with quantum science. quantum science, including IBM, Visa Inc., JPMorgan Chase & Co., Roche Holding AG y Volkswagen AG.

Quantum computers take advantage of the properties of quantum science, including superposition and entanglement, to radically accelerate complex computations intractable for today's computers.

The White House Office of Science and Technology Policy, the U.S. Department of Energy's International Business Machines Corp. national labs, Google

Cloud from Alphabet Inc. Amazon Web Services of Amazon.com Inc. and others, are currently using quantum science resources with the goal of achieving effective solutions to combat and forecast future pandemic spreads.

OVERCOMING CHALLENGES TO DRIVE MEDICAL EXCELLENCE.

Healthcare professionals worldwide have long relied on initial patient baseline records and medical history. However, quantum biology has brought transformation to the continuum of care in a more efficient manner. With the ability to accelerate the healthcare decision-making process and dramatically eliminate diagnostic errors, this biotechnology accelerates evidence-based care outcomes by integrating clinically meaningful data from the best sources globally.