Pneumonia is an infection in the lungs that can be caused by a variety of different pathogens, including viruses, bacteria, fungi, and mycobacteria. Depending on the pathogen, symptoms can range in severity; this video covers the pathophysiology of a lung infection, as well as common types, clinical signs and symptoms, and treatments.
about 4 years ago
Maybe it’s just me, but I cannot get my head around pharmacology and antibiotics are certainly doing their best to finish me off! My group at uni decided that this was one area that we needed to revise, and the task fell on my hands to provide the material for a revision session. So, the night before the session I began to panic about how to come up with any useful tips for my group, or indeed anyone at all, to try to remember anything useful about antibiotics at all. If only Paracetamoxyfrusebendroneomycin was a real drug, it would make our lives so much easier. Come on Adam Kay and Suman Biswas, get the trials started and create your wonderful super drug. For the mean time I guess I will just have to keep blissfully singing along to your song. However, that is not going to help me with my task in hand. After a lot of research that even took me beyond the realms of Wikipedia (something I do not often like to do), I found various sources suggesting remembering these Top 10 Rules (and their exceptions) All cell wall inhibitors are ?-lactams (except vancomycin) All penicillins are water soluble (nafcillin) All protein synthesis inhibitors are bacteriostatic (aminoglycosides) All cocci are Gram positive (Neisseria spp.) All bacilli are Gram negative (anthrax, tetanus, botulism, diptheria) All spirochetes are Gram negative Tetracyclines and macrolides are used for intracellular bacteria Pregnant women should not take tetracyclines, aminoglycosides, fluroquinolones, or sulfonamides Antibiotics beginning with a ‘C’ are particularly associated with pseudomembranous colitis While the penicillins are the most famous for causing allergies, people may also react to cephalosporins If those work for you, then I guess you can stop reading now… If they don’t, I can’t promise that I have anything better, but give these other tips that I found a whirl… Alternatively, I have created a Page on my own blog called Rang and Dale’s answer to Antibiotics, which summarises their information, so please take a look at that. Most people will suggest that you can categorise antibiotics in three ways, and it’s best to pick one and learn examples of them. Mode of action: bactericidal (kill) bacteriostatic (stop multiplying) 2 mnemonics to potentially help you remember examples: We’re ECSTaTiC about bacteriostatics? Erythromycin Clindamycin Sulphonamides Tetracyclines Trimethoprim Chloramphenicol Very Finely Proficient At Cell Murder (bactericidal) - Vancomycin Fluroquinolones Penicillins Aminoglycosides Cephalosporins Metranidazole Spectrum of activity: broad-spectrum (gram positive AND negative) narrow (gram positive OR negative) Mechanism of action Inhibit cell wall synthesis Inhibit nucleic acid synthesis Inhibit protein synthesis Inhibit cell membrane synthesis If you have any more weird and wonderful ways to remember antibiotics, let me know and I will add them! As always, thank you for reading.
Mrs Malaika Smith
over 6 years ago
When you think of the term 'bacteria', it immediately conjures up an image of a faceless, ruthless enemy-one that requires your poor body to maintain constant vigilance, fighting the good fight forever and always. And should you happen to lose the battle, well, the after effects are always messy. But what some people might not know is that bacteria are our silent saviours as well. These 'good' bacteria are known as probiotics, where 'pro' means 'for' and 'bios' is 'life'. The WHO defines probiotics as "live micro-organisms which, when administered in adequate amounts, confer a health bene?t on the host". Discovered by the Russian scientist Metchnikoff in the 20th century; simply put, probiotics are micro-organisms such as bacteria or yeast, which improve the health of an individual. Our bodies contain more than 500 different species of bacteria which serve to maintain our health by keeping harmful pathogens in check, supporting the immune system and helping in digestion and absorption of nutrients. From the very first breath you take, you are exposed to probiotics. How so? As an infant passes through it's mother's birth canal, it receives a good dose of healthy bacteria, which in turn serve to populate it's own gastro-intestinal tract. However, unfortunately, as we go through life, our exposure to overly processed foods, anti-bacterial products, sterilized and pasteurized food etc, might mean that in our zeal to have everything sanitary and hygienic, we might be depriving ourselves of the beneficial effects of such microorganisms. For any health care provider, the focus should not only be on eradicating disease but improving overall health as well. Here, probiotic containing foods and supplements play an important role as they not only combat diseases but also confer better health in general. Self dosing yourself with bacteria might sound a little bizarre at first-after all, we take antibiotics to fight bacteria. But let's not forget that long before probiotics became a viable medical option, our grandparents (and their parents before them) advocated the intake of yoghurt drinks (lassi). The fermented milk acts as an instant probiotic delivery system to the body! Although they are still being studied, probiotics may help several specific illnesses, studies show. They have proven useful in treating childhood diarrheas as well as antibiotic associated diarrhea. Clinical trial results are mixed, but several small studies suggest that certain probiotics may help maintain remission of ulcerative colitis and prevent relapse of Crohn’s disease and the recurrence of pouchitis (a complication of surgery during treatment of ulcerative colitis). They may also help to maintain a healthy urogenital system, preventing problems such as vaginitis and UTIs. Like all things, probiotics may have their disadvantages too. They are considered dangerous for people with impaired immune systems and one must take care to ensure that the correct strain of bacteria related to their required health benefit is present in such supplements. But when all is said and done and all the pros and cons of probiotics are weighed; stand back ladies and gentlemen, there's a new superhero in town, and what's more-it's here to stay!
over 6 years ago
This is a chart including testing information to differentiate between different bacteria causing STDs and UTIs. It also includes urine dipstick testing. Pink is gram negative bacteria and blue is gram positive. The document is in word format so it can be changed and updated as needed.
over 5 years ago
When is it medically advisable to eat some one else's poo? When you need a poo transplant. Poo transplants could be the solution to one of the biggest problems facing the NHS today- the bacterial infection Clostridium difficile. C.diff, as it's known to its friends, infects about 18,000 people in England and Wales every year and is involved in the deaths of about 2000 people. C.diff typically arises due to imbalances in the normal gut bacteria. The gut is like a city, a city with about 100 trillion bacterial residents happily munching away on a banquet of bowel contents. The average person has about 1000 different types of bacteria in their gut, and about 3% of healthy adults have C.diff in that mix. The C.diff doesn't cause them any problems because its numbers are kept in check by the other gut bacteria. However treatment with broad spectrum antibiotics such as clindamycin, cephalosporins, ciprofloxacin and co-amoxiclav, can disrupt this happy community- killing off vast swathes of bacteria but crucially not the C.diff. Given free rein the C.diff multiplies rapidly and produces toxins which damage the gut. In some people this causes mild diarrhoea and abdominal pain, in others it can lead to torrential diarrhoea, perforation of the colon and death. Traditional treatment includes stopping any broad spectrum antibiotics and possibly prescribing antibiotics which target the C.diff such as metronidazole or vancomycin. However with antibiotic use comes the risk of resistance. Moreover our current approach isn't entirely effective and about 22% of patients treated suffer a recurrence. This can result in a cycle of illness and hospital admission which is costly to the patient and the hospital. So it's time to start thinking outside of the box. Cue the poo transplant. The thinking goes like this- if the cause of the problem is disruption to the normal community of gut bacteria, why not just pop those bacteria back in to crowd out the C.diff? Simples. Practically, the first step is to identify a donor, usually a close relative of the patient, and screen them for a range of infectious diseases and parasites. It's also advisable to make sure they haven't recently consumed anything the intended recipient is allergic to, before asking them to make their "donation". You then pop it in a household blender and blitz it down, adding saline or milk to achieve a slurry consistency. Next you need to strain your concoction to remove large materials- one medic in the UK uses coffee filters. Top tip. Then you're ready to administer it- about 25ml from above (e.g. via nasogastric tube), or 250ml from below. Now, its important to note that poo transplants are still an experimental treatment. To date only small case studies have been carried out, but with 200 total reported cases, an average cure rate of 96% and no serious adverse events reported to date, it's worth carrying out a large trial to assess it thoroughly. Poo transplants- arguably the ideal treatment for a cash strapped NHS. It's cheap, plentiful and it seems to work. Now to convince people to consume someone else's poo... Bottoms up! FYI: This was first posted on my own blog. Image Courtesy of Marcus007 at de.wikipedia [Public domain], from Wikimedia Commons
Dr Catherine Carver
about 7 years ago
A CLINICALLY BIASED ACCOUNT OF COMMON PATHOGENIC BACTERIA The basic structure of most bacteria is illustrated in Figure 10. Figure 10. Bacterial Structure
about 9 years ago
This is a condition caused by infection of the endocardium by bacteria, or rarely, fungus. It most commonly affects the heart valves (natural or prosthetic), but can occur anywhere along the lining of the heart or blood vessels. It will most commonly occur at sites of previous damage, however, particularly virulent organisms (such as staphylococcus aureus and streptococcus pneumoniae) can infect previously normal areas of tissue; for example, Staph. Aureus will commonly infect the tricuspid valve in IV drug users.
almostadoctor.com - free medical student revision notes
about 6 years ago
Definitions. Before discussing SIRS along with the various sepsis syndromes, it is important to understand some basic definitions. Infection: This is the inflammatory response initiated by the presence of a micro-organisms in normally sterile tissue. Bacteraemia: The presence of live bacteria in the blood stream. This can occur in a healthy individual and present with no symptoms. Common causes include surgery, dental procedures and even tooth brushing.
almostadoctor.com - free medical student revision notes
about 6 years ago