Virus, Bacteria - How do Antibiotics work?

My Dear Sniffy, still Sexy though, Readers,

By this time, you probably have all suffered from the sore throat that prevents you from sleeping or the cough that seems to empty your lungs, the sinuses under immense pressure that make your eyes watery, the sneezing, the shivering, the headaches, etc...

So naturally, you call your doctor/GP/clinic and request an urgent appointment because, quite honestly, you feel so shit, it can't be normal, you need medicines, and lots of them!!!

How many times, then, didn't I hear "my GP is crap, he only gave me paracetamol!", "I went to see another one, he gave me antibiotics, so see? The first one is obviously not qualified".
Yes, it's true, in the UK, your GP won't tell you to take some guafenisin, imodium or motilium or suck on Strepsils like doctors do 'on the continent' and you need to seek advice at the Pharmacy or on Google.
Although I don't particularly agree with the kind of self medication policy in this country, it does help to dis-engorge clinics for more serious cases.
So in case you wonder, here is a factsheet on bacteria and viruses and why there's no point taking Antibiotics when you have a cold:

Note: If you don't feel like reading, why not check my Pinterest infographic, just hover your pointer over here.

Note2: Ever wondered how Amoxicillin works, check it out in our Did You know Series!

What's the difference between virus and bacteria?
When do we need antibiotics?

Bacteria

A bacterium is a single cell microbe. The content of this single cell is much simpler than the content of a human cell. For example, because their DNA is not contained in a defined vesicle, they are called prokaryotes. As opposed to our eukaryotic cells where the DNA is contained inside the nucleus.

They are categorised according to the fact that they have an outer membrane or not  (gram negative or positive respectively) and to their shape (spheres, rods, spirals, commas and corkscrews).

Their size can vary from 50 nm (0.05 micrometers = 0.00005 centimeters) to 2 micrometers in diameter or width for the spherical ones and from 1 to 10 micrometers for the long one.

(A micrometer is the size of a pin head, it is also 10 times smaller than a centimeter)

How do bacteria infect our body and what does the body do about it?

Bacteria love our bodies, our fluids are so rich in vitamins, sugars and other nutrients, they can find everything in there to grow and survive. We can be infected by bacteria by contact with them, through infected water, food, dust, air liquid droplets or through our wounds for example.

The points of entry are also our natural barriers such as our skin when we are sweating, our eyes and lacrymal glands, our nose and our nasal hair and the runny nose; and if through the mouth, the acidity of our stomach or the natural bacterial flora from our intestines will fight for us.

Unfortunately, some of them are stronger than our first defences and will continue their invasion and stimulate therefore our second line of defence, our immunity.

Immunity

Our immunity can be triggered by different mechanisms and our defensers can be macrophages (they eat the invaders and take a sample to show the rest of our defense lines what the body is fighting against), phagocytes (they are whole cells whose job is to eat the invaders), cytokines (messengers that will warn the rest of the immunity who's the culprit) or lymphocytes (cells that will fight the invaders or will control the cells that will fight the baddies). They will work altogether, sort of like -community officers - police officers - the army- would.

Following an infection, the signs are: The tissues in the area are red and warm, as a result of the large amount of blood reaching the site. They are also swollen, again due to the increased amount of blood and proteins that are present. The area is painful, due the expansion of tissues, causing mechanical pressure on nearby nerve cells, and also due to the presence of pain mediators.

The battle ends when all phagocytes have eaten and digested all the invaders. You can see their action when you are rejecting the pus or mucus - of different shades, depending on who's at fault!

Virus

Virus particles (known as virions) consist of two or three parts: i) the genetic material made from either DNA or RNA, which are long molecules that carry genetic information; ii) a protein coat that protects these genes; and in some cases iii) an envelope of lipids that surrounds the protein coat when they are outside a cell.
The shapes of viruses range from simple helical and icosahedral forms to more complex structures.

Example of virus structure

In general, viruses are much smaller than bacteria. Most viruses that have been studied have a diameter between 20 and 300 nanometres. Some filoviruses have a total length of up to 1400nm; their diameters are only about 80nm.

How does a virus infect our body and what does the body do about it?
Through coughs, sneezes, vomit particles, bites from infected animals or insects, exposure to infected bodily fluids, a virus can enter our body.

Viruses can't multiply on their own, they have to invade a 'host' cell and take over its machinery in order to be able to make more virus particles: they consist of genetic materials (DNA or RNA) surrounded by a protective coat of protein. They are capable of latching onto cells and getting inside them, and making the host cell use their DNA to spread themselves (here below, a specific example with the HIV retrovirus).

The cells of the mucous membranes, such as those lining the respiratory passages that we breathe through, are particularly open to virus attacks because they are not covered by protective skin.

The human body does have some natural defenses against a virus. A cell can initiate RNA interference when it detects viral infection, which works by decreasing the influence of the virus's genetic material in relation to the cell's usual material. The immune system also kicks into gear when it identifies a virus by producing antibodies that bind to the virus and render it unable to replicate. The immune system also releases T-cells, which work to kill the virus.

How do Antibiotics work?

Antibiotics are given as anti-bacteria medicine. They either kill the bacteria or stop the multiplication of bacteria. They are also working against parasites and fungi.
Choosing an antibiotic will kill the desired bacteria, but not the cells in your body. Each different type of antibiotic affects different bacteria in different ways. For example, an antibiotic might inhibit a bacterium's ability to turn glucose into energy, or its ability to construct its cell wall. When this happens, the bacterium dies instead of reproducing. At the same time, the antibiotic acts only on the bacterium's cell-wall-building mechanism, not on a normal cell's.

Antibiotics do not work on viruses because viruses are not alive. A bacterium is a living, reproducing lifeform. A virus is just a piece of DNA inserted into a living cell to reproduce more of the viral DNA. Therefore, there is nothing to "kill".

Bacterial resistance to Antibiotics

The most serious concern with antibiotic resistance is that some bacteria have become resistant to almost all of the easily available antibiotics. These bacteria are able to cause serious disease and this is a major public health problem. Important examples are methicillin-resistant Staphylococcus aureus (MRSA), vancomycin-resistant Enterococcus (VRE) and multi-drug-resistant Mycobacterium tuberculosis (MDR-TB).

What to do to prevent Antibiotic resistance?

Solutions are to minimise unnecessary prescribing and overprescribing of antibiotics for example. Making sure to complete the entire course of the prescribed antibiotic is important so that it can be fully effective and not breed resistance. And of course, we must practise good hygiene and use appropriate infection control procedures.

See you Soon for more Sexy, less Sniffy, Science,

References
http://www.humanillnesses.com/original/At-Ca/Bacterial-Infections.html
http://health.howstuffworks.com/medicine/medication/question88.htm
http://www.betterhealth.vic.gov.au/bhcv2/bhcarticles.nsf/pages/Infections_bacterial_and_viral

Science Cafés: Bringing the Sciences to a pub near you

My Dear Sexy Readers,

I have a couple of exciting news for you:

First of all, the next Cosy Science meet up will happen in a pub in Holborn (central London) and will address the subject of immunology. Immunology is the study of our immune system which is how our body is fighting against microbes for example in order to protect it from diseases.

During this special event, you will get to ask ANY question about it to the scientists who will be there!! I think that is a fantastic opportunity to finally understand what those school teachers were trying to make us understand or catch up on the latest discoveries in immunology. The QA session promises to be once again a lively one.

 

Cosy Science presents:"Everything you wanted to know about our immune system but were afraid to ask"
When: Tuesday 25th March 2014
What time: 7-10pm
Where: Cittie of York pub, 22 Holborn  

What it is about: The immune system is the ultimate master of self-defence. Its actions protect us from pathogens and cancers while allowing us to peacefully co-exist with the trillions of harmless microbes that inhabit our body. How the cells and molecules of the immune system achieve this delicate balance is not fully understood but rapid progress in this area is leading to a picture that is fundamentally distinct from earlier views. This new understanding of immune function offers exciting prospects for the development of new vaccines and therapies for human disease.

Secondly, the next Pint of Science festival is almost there and will transport us all over UK, with some international destinations too!! The idea behind this Science festival is to bring the Sciences to everyone in multiple pubs, cities and countries at the same time! Last year, I introduced their audacious first event on SSS, it turned out to be extremely successful. A bit like a music festival where you need to choose the stage depending on where your favourite artists will perform. Full programme is almost complete and I will update this post in due course with the latest news, so feel free to come and check it out again.

Pint of Science Festival

When: Monday 19th - Wednesday 21st May 2014
What time: Pub time
Where: Everywhere!
What it is about: Next Pint of Science festival will take place Monday 19th - Wednesday 21st May 2014. We will present four topics: Matters of the Mind (neurosciences and psychology), Understanding our Bodies (life sciences), Physics, Engineering and Chemistry, Planet Earth (earth sciences). We plan to expand to 7 different cities and 14 universities in the UK, and internationally to France, USA, Switzerland and the Republic of Ireland. 

No excuse for pretending not to know anything about Science, now is there? it's literally at your door step, welcome it!!

See you Soon for more Sexy Science,

Did you Know? About Omega-9?

My Dear Sexy Readers,

We are resuming our Did you Know? Series today with an extra bit of information on Omegas!!! We already talked about them in our post about Olive Oil, better than Butter? And of course in our latest post on What are Omega-3 and -6?
We already addressed Omega-7 in the latest fast-read Sexy fact of our Did You Know? Series. This time, we are going to number 9!!! If you have a Pinterest board, you might wanna check out this article through its pin.

What is Omega-9?

Omega−9 fatty acids are common components of animal fats and vegetable oils. Two important omega−9 fatty acids in industry are Oleic acid (main component of olive oil, sunflower, macadamia oil and other monounsaturated fat) and Erucic acid (rapeseed, wallflower seed, and mustard seed). Like Omega-7, but unlike -3 and -6, Omega-9 is a non Essential Fatty Acid meaning that our body can produce it. Research has shown that Omega-9 MonoUnsaturated fatty acids can help reduce the risk of cardiovascular disease and stroke by increasing HDL (“good”) cholesterol and decreasing LDL (“bad”) cholesterol.

For more information on SSS Did you Know Series, check out our growing list of amazing fast-read facts.

See you Soon for more Sexy Science,

 

Oh OK, I'm too happy about my first Pinterest infographic so here it is:

Did you Know? About Omega 7

My Dear Sexy Readers,

We are resuming our Did you Know? Series today with an extra bit of information on Omegas!!! We already talked about them in our post about Olive Oil, better than Butter? And of course in our latest post on What are Omega-3 and -6?

What is Omega-7?

Not many people know about Omega-7, we usually only hear about -3 and -6. Maybe because Omega-7 is a non essential monounsaturated Fatty acid meaning that our body can produce it. It is also known as Palmitoleic acid, a common constituent of animal fats and plant seed oils. It is different from Palmitic acid which is a saturated fat that comes from Palm oil, or dairy and meats.

We can consume some through a variety of animal oils, vegetable oils, and marine oils. Wild salmon, Macadamia oil and sea Buckthorn oil are the richest sources. Research shows it may help regulate fat and blood sugar metabolism, and ultimately weight loss. In vitro studies suggest that Omega-7 helps improve the function of the insulin-producing beta cells of the pancreas.There are also claims, although they need to be backed up by some serious studies, that Sea buckthorn oil, (which contains 30 to 40% Omega-7), has a role in improving eczema, acne, oral and stomach ulcers, and vaginal irritation/dryness. However, studies also show that Omega-7, much like a saturated fatty acid and not like a true monounsaturated one, raises low-density lipoprotein (LDL) cholesterol and lower high-density lipoprotein (HDL) cholesterol (ref) = raises bad cholesterol and lowers the good one. More on This HERE.

For more information on SSS Did you Know Series, check out our growing list of amazing fast-read facts. Come back soon for our next Did You Know instalment which will be on Omega-9!!! Yep, another one :)

See you Soon for more Sexy Science,