Lesson 10. Viruses and biomagnetism
Viruses are the simplest organisms that exist in nature, they do not have metabolic functions such as: feeding, breathing, metabolism (transformation of substances), excretion; so some scientists do not even consider them living organisms.
10.1 Description of the virus
In essence, a virus is a molecule of deoxyribonucleic acid DNA or ribonucleic acid RNA surrounded by proteins. All the functioning of the virus is encoded in this molecule of amino acids forming what is called the genome or capsid. This nucleus is surrounded by a protective layer of proteins and / or glycoproteins that also has the function of allowing it to adhere to and penetrate the cell membrane. The molecules in this outer layer serve as "keys" that allow them to enter the membranes of certain types of cells. Not all viruses have the ability to attack all cells, but only have an affinity for some of them. Therefore, each family of viruses only affects a few species of animals, plants, fungi, bacteria, or even other viruses (virophages).
Viruses are very simple and small organisms, some as small as a few nanometers (millionth of a millimeter). It has not been possible to specify at what point in evolution they arose. They are believed to have formed from certain plasmids, which are protein molecules found in the cells of bacteria and multicellular organisms.
Another theory proposes that they were created from nothing - spontaneous generation. In that case, they would be the first organisms capable of replicating, perhaps ancestors of all other organisms such as archaea, bacteria, and so on.
It is also believed that they could have formed from remains of genetic material or parasitic cells that were degraded to become viruses.
Currently about 5000 species of viruses have been cataloged, however, this is only a small part of the viruses that may exist on our planet.
10.2 How a virus works
Viruses are capable of resisting environmental conditions such as temperature, humidity, oxygen, depending on the species in question. However, viruses do not have a nervous or motor system so they depend on the movement of the medium, whether liquid or gaseous, to transport themselves. In reality, they remain inactive as long as they have not infected a cell. Once the virus comes into contact with a cell, it penetrates the membrane and sheds its own protective membrane, leaving only the capsid. This is when its genetic material comes into play, basically taking the elements present in the cell's cytoplasm to form copies of itself. It first creates copies of its DNA or RNA molecule and around these molecules the other outer layers of the virus are formed. A virus is capable of replicating itself 10,000 times within the cell, which can die as a result of the process. Or, the host's own immune system can cause the cell to die to stop the proliferation of the virus, a process called apoptosis. As this process happens in a few minutes, a virus can multiply exponentially in a few hours.
10.3 Classification
Viruses can be classified according to various criteria.
10.3.1 By their nucleic acid they can be classified into viruses of
10.3.2 By its encapsulation
10.3.3 According to its morphology, that is, due to their shape, they can be:
10.3.4 They can also be classified according to the type of cells they infect into:
Like all known species, science classifies them according to the taxonomic criteria of:
- Order
- Family
- Genus y
- Species
10.4 Immune system response
As we can see, the body needs to react quickly and effectively in order to successfully fight a viral infection. And although we are not aware, this process is continuously occurring in our body, since we are exposed to a large number of viruses all the time. To attack an infection, the body has a primary reaction, which is to bring more blood to the infected tissue and create inflammatory processes. Immediately macrophages, cells of the immune system go to the tissue to engulf the viruses. The second reaction is to create antibodies that can block the attacking virus, either by preventing it from penetrating the cell's membrane or by stopping some of the replication mechanisms. Once the virus has been detected by the immune system, the antibodies that are generated are already available and it is easier to control an infection if the same virus attacks again.
For example, it is estimated that the human papillomavirus may be present in more than 80% of adults, but in most it is asymptomatic, because the body has developed antibodies to the specific strain. However, as viruses have a life that is measured in hours, they can mutate with great frequency and the same species continually presents new strains. That is why the immune system will have to be generating new antibodies for each new strain it encounters.
10.5 Viruses and pathogenesis
Only a small part of viruses are pathogens. Most of them are harmless, and some can even be considered necessary for ecosystems since they have functions such as helping to transmit genetic material from one organism to another.
Some viruses remain inactive in some tissue of the human body and only when certain conditions are present, they are activated. Such is the case of the herpes virus, of which biomagnetism has identified more than 7 classes. This family of viruses is commonly found in cells of the nervous system and can remain there indefinitely without being detected. When the immune system is weakened by stressful situations or by other factors, this virus can become active again, proliferating and causing symptoms. As we already know, the symptoms vary depending on the type of herpes that is present.
Biomagnetism has proven that many of the viruses are still present in organisms, many times causing diseases or dysfunctions that allopathic medicine has not associated with them. Such is the case of chickenpox, which, being lodged in the ureter - ureter pair, affects the female sexual organs, causing infertility.
A virus, in isolation, hardly compromises the health of the organism. What causes a viral infection is irritation of cell membranes, Dr. Goiz explains. The problem occurs when they are associated with other pathogens such as bacteria or fungi, in that case they multiply their pathogenicity. Dr. Goiz also assures that viruses require the presence of bacteria to proliferate, since they are the ones who provide them with the mucoprotein they require to form their membranes. Over the years, Dr. Goiz has found several cases of associations between viruses and bacteria, which occur frequently.
10.6 Antivirals and vaccination
Viruses, as we have already mentioned, do not have metabolism, their process is reduced to penetrating the cell and replicating, taking the resources of the host. For this reason, deactivating them is much more complicated since they only depend on a few chemical processes, unlike bacteria, which have hundreds or thousands of biochemical processes, on which their existence depends, and it is enough to block some of them in order to kill the bacteria. So antibiotics, developed to fight bacteria, have no effect on viruses.
On the other hand, antivirals developed until recent years actually have little efficacy. Some studies indicate that various drugs such as amantadine, rimantadine, zanamivir or oseltamivir could cause greater adverse effects than the benefit they could provide, according to an article published in the journal "The Lancer ". Taken from www.intramed.net
Vaccination, the method developed between 1880 and 1885 by Dr. Louis Pasteur, remains the most effective method for treating viral diseases. As we know, it consists of administering the same attenuated virus in order to make the immune system react by producing antibodies. Vaccines are generally applied from early childhood or preventively, to protect against possible threats such as seasonal flu. In other cases, the vaccine can be administered even after the person has been exposed to the virus, such as the rabies virus.
Allopathic medicine has launched vaccination campaigns for more than a century and ensures that thanks to them diseases such as polio, measles, diphtheria or smallpox, among others, have been practically eradicated from the human species.
However, there is a group of people who assure that the vaccination campaigns have caused other evils. Specifically, vaccines for hepatitis A and B, diphtheria, tetanus and whooping cough are associated with the increasingly frequent cases of autism in children. It is said that the numbers of vaccinated and those with autism have grown in parallel over the decades, a situation that the medical authorities categorically deny. Some substances such as mercury or aluminum, essentially toxic, are responsible for causing damage to the nervous system of young children.
Since vaccines have saved thousands of lives in recent centuries; rather than promoting their prohibition, it should be demanded that their quality is enhanced, avoiding the use of toxic substances. The European Union has already been demanding for two decades that vaccines be free of thimerosal , the pharmaceutical name for the mercury included.
10.7 Treatment with biomagnetism
According to Dr. Isaac Goiz DurĂ¡n, viruses proliferate in acidic environments, so the application of the biomagnetic pair is enough to balance the pH of the organ or tissue and thus alter the terrain that allows the proliferation of viral agents. Once the infection is controlled, the body will be able to deploy natural processes to reestablish balance and health. The Biomagnetic Guide currently presents a list of at least 80 viruses that can be treated by the biomagnetic pair.
Since there are different types of viruses, there are also different forms of contagion that must be considered according to each case. There are viruses that are transmitted through the air or in small drops "droplets" that are expelled when talking or sneezing, as is the case with the flu. Many of these viruses are spread through animal species, such as the coronavirus or the rabies virus. By the way, as Dr. Goiz has discovered, some of them can be transmitted simply by living with pets such as dogs or cats. It is not necessary for the animal to bite or scratch it for the virus to be transmitted to humans.
Zika, malaria, dengue or chikingunya are some of the species of viruses that are transmitted directly by mosquito bites; they are responsible for a large number of diseases and deaths throughout the world.
Other types of viruses are transmitted through sexual contact such as HIV-AIDS, Human papillomavirus or Herpes type 2, which are prevented using protection methods such as the condom and following responsible practices.
In the consultation it is important to inquire about the source of contagion. If the source of contagion is another person or an animal, it may be necessary to take the appropriate measures. If the sexual partner has been the source of infection, it is recommended that the partner also takes the biomagnetic treatment to prevent further reinfection.
In the case of pets it will be recommended to avoid contact with the animal; or to apply a treatment to it (some biomagnetists are willing to provide treatments for animals), in this way reinfections will be avoided.
The therapist will also have to look for the bacteria that may be associated with the virus. In some articles of the Biomagnetic Guide the bacteria that are most frequently associated with specific viruses are mentioned and many other relevant aspects about each virus in particular are also given. Therefore, we recommend reading each of the articles in the guide to be aware of the information and know where to consult when required.
10.8 Recommendations.
Dr. Goiz recommends taking the following general measures in case viruses are found in the scanning.
To the above measures, it will be necessary to add measures to keep the immune system in optimal condition, such as following a healthy diet, adequate sleep habits, daily exercise and controlled stress levels. Patients are regularly followed up one week after the first appointment, however, this period may vary according to the condition of the patient at the discretion of the therapist.
