How to Treat Viruses
Learn How to Treat Viruses With Nature
We all know that viruses can affect us in many ways. How to treat viruses can be a tough and tedious task. Some of us may not even know that viruses are everywhere in this world. How to treat viruses starts with knowing what a virus is and how it affects us. So what is a virus? A virus is a tiny infectious agent that only can replicate inside the living cells of an organism. A virus can infect anything from plants, animals and of course humans! Even bacteria can be infected by a virus. Viruses come across in just about every ecosystem on Earth and are the most exuberant type of biological substance. Virus particles, which are known as virions, subsist of two or three parts: the genetic material produced by either DNA or RNA, continued molecules that carry genetic information; a protein coat that safeguard these genes; and in a few cases an envelope of lipids that confine the protein coat when they are outside a cell. Nature can actually help get rid of a viruses that hides with in a cell. If the right source of nature is used it can actually help, along with the body's immune system to destroy a virus.
How can Something the Size of a Virus be so Destructive?
The typical virus is about one one hundredth the size of the ordinary bacterium. Numerous viruses are too small to be seen directly with a microscope. Viruses advance in several ways; viruses in plants are a number of times transferred from plant to plant by insects that feed on plant sap, like aphids; viruses that are in animals can be transported by blood sucking insects. These disease transporting organisms are known as vectors. Flu viruses are transmitted by coughing and sneezing. The array of host cells that a virus can spread among is called its host range. This can be slender or when a virus is proficient enough to infect many species, its is broad. Viral corruption in animals exasperate an immune response that for the most part eliminates the corrupt virus. Immune responses can also be cultivated by vaccines, which discourse an artificially acquired immunity to the precise viral infection.
How Nature Comes into Action
When it comes to getting treatment for virus, modern medicine is of little help. The reason is that a virus will avoid an immune response and develop into chronic infections. Some examples of this are Aids and viral hepatitis. Antibiotics have not by any means a response on viruses, but several antiviral drugs have been established. Since a particular virus can hid inside of a cell it only leaves room for something that has the power to destroy it. Only nature and certain type of nature are able to work with our immune systems and kill a virus! It is so important to realize that killing a virus can be a daunting task. Not all viruses respond the same way and not body types, cells do either. It is important to make sure that the proper methods are addressed and achieved before hand. What this means is how to treat viruses directly from nature does not mean it will work or be effective.
Image Credit: Shutterstock
2nd Image Credit: http://dvm5.blogspot.com/2010/11/introduction-history-of-viruses.html
How Any Virus Will Invade The Human Body
How A Flu Virus Starts to Invade the body
- When a person sneezes that is infected with the flu
virus, a droplet then flies in the air. This same droplet can then be inhaled
through another persons nose. Many types of viruses are in the air at
any given time but they can make their way into our bodies quicker then
we think they can.
- Once a flu virus invades our body such as by breathing it in through the nose. The virus then makes it's way to an infected person's throat cells. Looking at the picture below you can see the yellow spikes which is what helps the virus move right in. They are called the KEYS and when the keys happen to fit the locks, which are the spikes on top of the cell. The virus will then be welcomed inside since it is a match.
Image Credit: Robert Krulwich; Jason Orfanon; David Bolinsky; Animation courtesy
Zirus/XVIVO
David Bolinsky and his team at XVIVO designed this animation for a research company called Zirus. Bolinsky says, what you see in the video actually happens much, much faster in real life. Basically it takes a fraction of a fraction of a second. So this is a very slow motion version of cellular activity For those of you who were wondering, yes, the designers did add color. Proteins, DNA, organelles, and the teeny things inside a human cell are so small, and the insides of cells are so dark, that for all practical purposes, they are actually colorless.
What Happens When A Flu Virus is Inside the Cell
- When
the flu virus is now inside the »cell, it has the power to replicate
and reproduce very quickly. Here is a better pic of what the virus
actually looks like with the spikes (keys).
Image Credit: bioweb.wku.edu
- When
the flu virus invades the cell, the first thing that happens after it
goes deeper and deeper is the welcome structure disperses and the virus
capsule bursts. This is now the secret recipe for how it makes more
virus's quickly. Now, the unsuspecting cell has been tricked into
guiding these virus recipes right into it's own command center the
nucleus. The virus s then recognized by this big pink molecule, which is
like a mini factory. This factory makes copy after copy of the virus
recipes.
Image Credit: DR DAVID FURNESS, KEELE UNIVERSITY/SCIENCE PHOTO LIBRARY
- After
these new copies of the recipe go out of the nucleus. They are greeted
by little chefs that cook up protein, then go back in the nucleus and
are resembled into tiny virus's. They then come out, get covered up and
head to the surface where they get new keys, then here they come.
An eruption of virus after virus after virus! Only 1 virus entered the
cell but millions have been replicated from it.
Antibiotic Resistant STD Bug
Why this Resistant STD Bug is Troublesome
- For a number of years public health officials have been concerned that an STD known as gonorrhea, which is one of the most prevalent STDs in the world might become resistant to the last class of antibiotics used to treat it. This is a class of drugs called cephalosporins. Now more than ever antibiotic resistance to this type of bacteria is being seen in certain parts of the world. This sexually transmitted disease, which is a bacteria based infection and is curable is highly adaptable. It learns how to out smart and conquer antibiotics quickly. This is NOT good health news for a world where hand sanitizer is used like water and people insist that doctors provide them with antibiotics for viruses which are not treatable with »antibiotics.
- Antibiotic resistance of this particular bacteria has become apparent in recent years, prompting the World Health Organization to impulse doctors to increase their attentiveness in reporting cases of the new strain. If left unchecked this could become a full-blown pandemic. The antibiotic resistance problems have grown to be resistant to cephalasporins which are often the last line of defense against particularly aggressive strains of the bug. The WHO warns that without careful attention, we're two years away from the super gonorrhea exploding and becoming a serious health problem.
- The first antibiotic resistance to cephalosporin was found in Japan, raising alarms among medical professionals. This isn't to say that doctors won't be able to find alternate methods of treating the clap, but they would obviously not want to have to worry about such issues. Gonorrhea is quickly becoming the second most common sexually transmitted infection, closing in on the current reigning world champion, chlamydia. Antibiotic resistant strains have since popped up in such disparate places as France, Sweden, Norway, Great Britain and Australia.
Gonorrhea has become increasingly resistant to antibiotics for several years now, and the percentage of cephalosporin-resistant gonorrhea cases in the U.S. is on the rise, according to the CDC's latest Morbidity and Mortality Weekly Report.
From the CDC report:
- Gonorrhea, one of the most common sexually transmitted diseases (STDs), can have serious health consequences, including infertility in women, and can increase a person's risk for acquiring HIV.
- While antibiotics can successfully treat gonorrhea, over time the bacteria has developed resistance to several of these drugs ... CDC now recommends only one class of antibiotics, called cephalosporins .. however, findings from the recent analysis signal the potential for resistance to cephalosporins, the last line of defense for treating gonorrhea.
Due to the problems we are continuing to have Antibiotic Resistance is becoming more and more common. Natural methods are needed more than ever before. Carvacrol and Oleuropein are some of the world's most powerful "Bug Killers" that do no cause antibiotic resistance. If antibiotics were used less with people that had this type of bacteria then we wouldn't have the antibiotic resistance problems we are seeing today!
Image Credit: Getty Images
Cell Phones Are Carriers Of Infectious Diseases
Cell Phones Carry Infectious Diseases
Your voice isn't the only live connection being transmitted on your cell phone. Phones carry many types of germs, some even dangerous like infectious diseases. When it's your own germs you really don't need to worry. If you share your phone with people or groups of people this is where infectious diseases can occur. These infectious diseases like the flu or even worse skin infections can actually be living on your phone.
Why Cell Phones Can Carry Diseases
When you share a cell phone with another person those germs move right along with it. These germs can be harmless, nasty infectious diseases like the flu, a cold virus or a dangerous skin infection. Charles Gerba, who is a professor of environmental micro biology, is known as Dr. Germ. He loves finding and showing how much bacteria can be on something we all use everyday, like a cell phone for example. He has found that phones can be carriers of various types of bacteria. He has personally seen instances where infectious diseases, like staph infections have been transferred to some of his own family members. These infections have included, staphylococcus or MRSA. MRSA stands for methicillin-resistant Staphylococcus aureus is a deadly skin infection that can have antibiotic resistance to drugs. His own niece encountered one of these infectious diseases by using a cell phone contaminated with the strain. When Charles saw a skin infection on his niece that looked like MRSA, this made him want to test that very same cell phone. It indeed did come up positive for MRSA.
A Special Meter was used to Detect Bacteria Levels
Armed with a special germ meter which can detect how much bacteria is on your cell phone was put to the test. The testing only took seconds to perform. One point, that is important to mention is bacteria is always on a phone. The more bacteria that is present the better chance of someone getting sick from infectious diseases like the flu or even staph. If the germ meter reads under 200, this means that you have hundreds of bacteria. If it goes over 200, then you have thousands of bacteria. Above 300, means tens of thousands and above 500, means there are hundreds of thousands of bacteria types on that particular phone. This bacteria could be infectious diseases, which could make someone very sick. Let's say you have an amount just over 300 that comes up on the meter. This means you have hundred's of times more bacteria than the average toilet seat. The major problem of why this happens is most people don't regularly clean their cell phones. By letting other people use your phone makes this infectious disease problem grow even larger. A total of 11 phones were tested and 5 out of 11 failed the germ meter test. This means that 54.5% were under the 200 mark.
The answer to the problem that is needed to resolve these infectious diseases, which may be lurking on our phones, is so simple but more people need to start doing it. By using a disinfectant wipe, which kills bacteria on contact will work the best. These can be purchased just about anywhere. Any type of disinfectant spray may ruin your phone. I have been a regular user of disinfectant wipes usually about once or twice a month. If other people use your cell phone, you should think twice about putting that phone up to your ear or even your face.
image credit: ktla.com
