Alternative Medicine Bible (2 Books in 1) E-Book

HERBAL

ANTIVIR

ALS

NATURAL REMEDIES FOR

EMERGING AND RESISTANT

VIRAL INFECTIONS

Ester Medicrone

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INTRODUCTION

Antiviral drugs are a class of drugs that are specifically used to treat viral infections and not bacterial infections. Most antivirals are used for certain viral infections, but broad-spectrum antivirals work against a wide range of viruses. In contrast to most antibiotics, antivirals do not destroy the target pathogen.

Instead, they hinder their development.

"Antiviral drugs are drugs that reduce the ability of theinfluenza virus to reproduce."

The concept of herbal antibiotics as the primary intervention has been widespread in non-western developed cultures in

recent decades. Health systems in Africa, Asia, South and Central America are avoiding medication as a primary treatment for bacterial infections due to resistance problems, mainly because pharmaceutical companies earn too much money from their suffering. Non-Western cultures recognize that they can no longer afford corporate greed and therefore, do not attempt to kill the poor of their people. Researchers from cultures around the world have found that herbal antimicrobials are often more effective than drugs.

 EMERGING VIRUSES

Viral diseases caused by pathogenic viral infections with high morbidity and mortality are still the leading cause of death in humans worldwide. In addition, the appearance of virus

resistance to the drug and the serious side effects caused by antiviral drugs have caused serious medical problems, especially when given in combination over a long period of treatment. And these drugs are very expensive and therefore limit their use in developing countries where infections are most common.

For most of the 20th century, infectious diseases declined in Western European populations because they learned to disinfect cities, clean water supplies, improve household hygiene, use antibiotics, control vector organisms, and vaccinate. As a result, the industrialized countries have become much more generous and have welcomed the wrong start of life with few infectious diseases. However, things have become much less certain since the 1980s, as many previously unidentified infections have occurred, and well-known infections that were considered to be under control have returned. This trend has continued to this day, and many infectious agents, especially viruses, have been newly identified.

In the summer of 2006, a little-known viral disease spread to large and diverse islands in the Indian Ocean. On Reunion

Island, 265,000 of the 770,000 inhabitants were seriously ill.

Very few were asymptomatic. The disease was severe in almost all cases. Healthcare workers and the island's hospital system were overwhelmed. Even if they weren't there, there was little they could do. So, they provided "support". In other words, they were watching. They waited. Human immunity and the body's system will either ward off them or not. This was not the case with many. The virus quickly jumped to India and killed an estimated 1.3 million people. Who's the culprit? Chikungunya fever, a relatively unknown viral disease. 1 This virus is known in medicine, but not very well. It is not a common illness. But it was mutated. The subsequent analysis showed that the mutation occurred between spring and autumn 2005. The area became

pandemic within six months. By the end of 2006, more than 2

million people were infected. The disease is accompanied by severe joint pain (such as dengue fever). Ankles and wrists are most affected. Conjunctivitis and rashes are common.

Cumulative injury can persist for weeks or months and is

debilitating. There is no remedy or an antidote.

Doctors recommend the use of acetaminophen for pain. Causes of death of many people. Paracetamol damage to the liver.

People who visited areas that returned to their home in the United States and Europe brought diseases. More than 1,000

people have been diagnosed in the United States. A large

number of cases have led to the human-to-human transmission

and infected new hosts. The disease is mainly transmitted by mosquitoes (like most diseases covered in this book), mainly Aedes aegypti. This is a mosquito that used to have a limited geographical area but has spread to all continents of the world in the past 50 years.

This is an example of how quickly new viral pathogens can spread to villages around the world. It started with the African virus entering Asian mosquitoes and travelling by plane and boat to the Indian Ocean and India. And from there it went everywhere. This dynamic is now developing all over the planet.

Chikungunya is not uncommon. A pandemic caused the West

Nile encephalitis virus in the United States in 1999. It soon spread around the world and is now common in Europe and

Asia. In the fall of 2002, SARS appeared in China and quickly spread throughout Asia. Epidemiologists who investigated the SARS outbreak initially found that it had occurred in a small area of China. The sick doctor visited Hong Kong and infected 16

people. Some of them have travelled, which has spread the disease worldwide within a few weeks.

 VIRUSES

Scientists generally believe that viruses do not live. Many claims that these are just organic structures that interact with living organisms. They say that they are "creatures on the edge of life", but they are not really meaningful creatures. This is because they say that they have no cell structure, do not have their own metabolism and can only regenerate within the cell structure. In addition, we do not do this with cell division.

There are many viruses on this planet. It is estimated that the earth contains 1031 viruses or ten viruses with 31 zeros.

Technically (in the case of winks) it is between billions and billions (although it is enough to say Baijiu). Basically, many and there are also different types. There are about 5,000 different viral genotypes per 200 litres of water (about 50 gallons or the content of a typical hot water tank). The virus is the coldest and most difficult to live on this planet, and the virus is found in boiling hot springs. There are high viruses in the atmosphere and the deepest wells on earth. They live in the mountains and most profound in the sea. And sometimes they even move into space.

You are part of the life of this planet. You cannot avoid them.

Unlike bacteria, viruses have neither nuclei nor cell walls. They are a minimal lifespan that is matched to the simplicity of the

design. There are many types, but in general, viruses are strands of DNA or RNA that are surrounded by mathematically elegant polyhedral, called capsids, whose shape is virus-specific. In a so-called "envelope virus", the capsid is surrounded by one or more protein envelopes. Because of this simplified structure, they are no less alive than bacteria, for example. They are unique life forms (but that is not the reason to discriminate against them).

They are very similar to seeds (or spores): they only grow if they find the right soil. And like seeds, they continuously monitor the outside world, even when they are floating. The surface of the protein envelope of the virus is littered with receptors, which are certain types of sensory organs that bypass the virus. Viruses use these elegant senses to analyze their surroundings and find the best cells. Like Dr Ryan, a doctor and researcher commented that the virus has a certain sensation that can be divided between rudimentary smells and tactile sensations. There is a method for the detection of the chemical composition of the cell surface. This gives the virus the best able to recognize the correct cell surface [to find its own host cell]. Recognize them through 3D recognition of surface chemistry. Viruses sense the environment, assess their nature, find the most easily

reproducible cellular organisms in them, and then stimulate the organisms in which they exist to spread very new viruses to

highly developed ones. The host has the ability. And they can survive very well.

You can analyze the type of immune response against them and change yourself to bypass them - or change the host's immune response itself. They can be derived from useful definitions of terms. That is, it analyzes the inputs and creates new behaviour based on what determines the meaning of those inputs. Viruses can be classified in several ways: size or shape, presence or absence of encapsulated capsules (but not all), DNA or RNA-based (and single or double-stranded, positive or negative meaning), protein structure and how you type duplicate it. DNA viruses are reasonably reliable because infections are a kind of

"copy-checking mechanism" that cannot be found in RNA viruses. This means that if the DNA virus makes more of itself in the host cell, it uses a biofeedback loop to ensure that its copy is reasonably accurate. In contrast, RNA viruses cannot. As a rule, a large number of copies are made that differ from the original.

Some of these copy differences are deliberately triggered by the RNA virus and improve its genetic variation and thus the

viability of the host. For this reason, permanent vaccines against DNA viruses are often designed, but the production of vaccines against RNA viruses is complicated, if not impossible. This also makes it very difficult to treat RNA viruses with drugs. They start making synthetic drug solutions as soon as they are found, like bacteria. For example, hepatitis C virus mutation rates have

been shown to accelerate in response to interferon and ribavirin therapy in the same way that bacterial changes occur in the presence of antibiotics. RNA virus infections such as West Nile and Japanese encephalitis are fundamentally different from DNA virus infections. We exist in a period of swiftly growing global landscape and the local environment. Viruses with RNA as a genetic material can quickly adapt to these different conditions and take advantage of them. Therefore, it is not surprising that RNA viruses cause some recent prominent

examples of newly emerging or re-emerging infections. - Stuart Nicol and other DNA viruses produce billions of

microorganisms, while RNA viruses produce billions of similar viruses, but they are not the same virus. It's like a swarm of bees

- all similar, but all different. In fact, it is much more accurate to consider an RNA infection as being caused by a group of viruses.

The most similar is that the human immune system is activated or dies first when using drugs that it can recognize. This allows others to multiply freely without being checked, and actually increase very quickly (some viruses generate a new generation every minute), but subtly for each newly created virus and make the necessary changes.

There is also evidence that both DNA and RNA viruses such as bacteria exchange information because they are not affected by the medical or immune systems. Similar viruses actively share

the gene structure and cause infections that are very difficult to treat. For example, influenza viruses (and intentionally) regularly (and intentionally) use completely new genes to restore their genetic structure and make them invisible to the human immune system. And collect these new gene sequences from Asian pigs and birds. For this reason, a new flu vaccine is needed every year.

Viruses transmitted by ticks or mosquitoes use compounds in the saliva of arthropods to penetrate new hosts. Salivary compounds reduce the host's specific immune response, provide them with arthropods, and often numb the site of the bite. If the immune response is reduced in this area, the virus can enter new hosts where there is little resistance. Once in the virus, it reaches the draining lymph node closest to the site of the bite and is transported through the lymph to the spleen. So, they begin to change the host's immune function and decrease the ability of immune cells to recognize and kill invading

microorganisms. In this case, the virus begins to spread

throughout the body, usually on immune cells, macrophages or monocytes. For example, this is common with the encephalitis virus. It then travels through the lymph to the barrier between the brain and the rest of the body, releasing connections that make the boundary more porous, get into the mind and find brain neurons, cells that it really likes. Other viruses occur

through inhalation (influenza), sex (HIV) or through eating (enterovirus). As soon as they are in the body, they ride on their personal cells (usually immune cells, these cells move

everywhere) and actively search for their favourite places. This is the case with HIV, which considers T4 lymphocytes as complete host cells, the Epstein-Barr virus, which has an affinity for human B cells, or the Japanese encephalitis virus, which prefers monocytes.

 EMERGING PATHOGENIC

VIRUSES

Here are some of the critical changes affecting the planet that researchers have identified for the emergence of so many new (and old) pathogenic viruses. They have not escaped anywhere in the world.

 Demographic change: increasing population and

refugees, accelerating migration, global urbanization,

increasing population density in confined spaces such as

urban centres and prisons, blood transfusions, organ

transplants, reuse of medical devices, drug

contamination, resistance to viruses and antibiotics.

 Economic and commercial trends: Excessively widespread industrial agriculture with consequent

damage to the hemodynamics of the ecosystem.

Worldwide expenditure on commercial edible animals,

edible plants and agricultural medicines.

 Ecosystem disturbances: deforestation, waterway

disturbances, reduced predators, destruction of wild

plants.

 Climate change: Disruptive viruses in climate

hemodynamics due to anthropogenic factors such as