Quiz 1

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QUIZ 1 GNED 1101
Kyna Ceschini
Fichas por Kyna Ceschini, actualizado hace más de 1 año
Kyna Ceschini
Creado por Kyna Ceschini hace alrededor de 9 años
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Resumen del Recurso

Pregunta Respuesta
Antibiotic Resistance
How do Bacteria become Resistant? Selective Pressure, Genetic Mutation, Gene Transfer
Selective Pressure Some bacteria are naturally resistant to certain types of antibiotics
Genetic Mutation Most microbes reproduce by dividing every few hours. During replication mutation arise and some of these mutations help microbes survive exposure to an antimicrobial
Gene Transfer Microbes may get genes from each other, including genes that make the microbe resistant
Health concerns regarding antibiotic resistance -Hampers the control of infectious diseases -Increases health care costs -Jeopardizes health care gains (ex. surgery to infections have no more fall back and are more dangerous)
How does antibacterial resistance spread Through animals or people (animals meat and feces, people germs touching and bacterial spreading on objects/environments through breathing)
Antibacterial Resistance in Tuberculosis can be complex and requires more time and more expensive drugs that often have more side effects (spread through air) - popular in poor countries where the drugs are illegal and too expensive for people to get -there antibacterial microbes that are resistant against even the strongest antibacterial drugs (no cure)
MRSA Methicillin-resistant Staphylococcus aureus a bacteria that Causes a range of illnesses like skin and wound infections and when it reaches the blood it can cause sepsis and death -most common cause of health care associated infections
Why aren't antibiotics being made? -Antibiotics are a short-term treatment, therefore less profiting than long-term treatments -the overuse of antibiotics has made antibiotic resistance a scare for the future (trying to find alternatives)
4 Core Actions to Prevent Antibiotic Resistance 1. Preventing infections, preventing the spread of resistance 2. Tracking 3. Improving antibiotic prescribing/stewardship 4. Developing new drugs and diagnostic tests
Animals contribution to Antibacterial Resitance -bacteria in their intestines affecting both the meat bought in stores and the produce/wheat (feces as a natural fertilizer that could contain bacteria)
Essential Oils and Antibiotic Resitance -chickens fed oregano, cinnamon, and chili pepper extracts showed that their genes changed - turmeric, shiitake mushrooms, and chili peppers had similar results
Advice for Farmers Look into natural antibacterial solutions - essential oils
Vinegar Disinfectant -Vinegar kills salmonella, E. coli and other “gram-negative” bacteria -The activity is not due to pH alone, and propionic acid also appears to be bactericidal.
Gram-Negative Gram-negative bacteria are a group of bacteria that do not retain the crystal violet stain used in the Gram staining method of bacterial differentiation, making positive identification possible.
Bactericidal the agent that prevents the growth of bacteria
Bacterial Growth Formula Q=Qo(2)^t/T
t/t doubling time t=time passed T=time takes to double
Qo initial # of bacteria
Q new # of bacteria
LOG LEARN ON PAPER
Minimal Compliance Rate (1-[1/p])100
Herd Immunity When a large percentage of the population is vaccinated, this indirectly protects not immunized individuals (dependent on Minimal Compliance Rate)
What is HIV/AIDS destroys blood cells called CD4+T cells, which are crucial to helping the body fight disease. -Weakened immune system and more at risk for different types of infection
Vaccine for HIV There is no particular vaccine for HIV but there are trials going on right now that are succeeding in lowering the rate of HIV infection
HIV Mutation The virus is the most diverse we know of, it mutates so rapidly that people carry millions of different versions of it after becoming infected
HIV targets Immune cells (the things that are meant to kill it) it can hide for years in a host and create a reservoir of potential infection
Epidemic When the number of people who become infected rises well beyond what is expected within a COUNTRY
Pandemic A global disease outbreak -HIV/AIDS -Spanish Influenza -Asian Influenza -Swine Flu -Hong Kong Influenza -Tamiflu
Microbial Adaptation and Change Microbes are constantly evolving -many have high mutation rates (emergence of antibiotic resistant bacteria)
Influenza Three types of flu viruses: Type A, B, and C
Type A & B flu virus -causes most of the serious flu epidemics in humans, mammals and birds
Type C flu virus narrower host ranges - are restricted to humans and rarely cause serious health problems
H and N H - 16 different HEMAGGLUTININ proteins N - 9 variations of protein in genetic makeup of flu virus called NEURAMINIDASE Changes occur as a result of point mutations in the virus gene, or due to exchange of a gene segment with another subtype of influenza virus.
H (Hemagglutinin) --contained in a virus to allow it to penetrate a foreign body
N (Neuraminidase) --a protein in the genetic make-up of a flu virus, of which there currently exist nine variations
Seasonal Flu (Antigenic ?) Antigenic Drift
Pandemic Flu (Antigenic ?) Antigenic Shift
Antigenic Shift Emergence of a new virus able to cause a pandemic -no immunity in population -results in pandemics every 10-40 years
Antigenic Drift vs Antigenic Shift
ANTIGENIC DRIFT DIAGRAM Flu vaccinations contain 3 flu strains (2 As and 1 B) Antibodies [attach to virus' antigens] Influenza antigens are mutated, so the antibodies can't latch onto the mutated antigen
Characteristics of a Pandemic Flu -is a global disease outbreak -occurs when a new virus emerges -spreads where people have no immunity -is a disease for which there is no vaccine -spreads easily person-to-person -causes serious illness -sweeps around the world in a short time
Antigenic Shift Diagram enables a flu strain to jump from one animal or human to another happens in 3 ways 1.Bird 2. Human 3. Swine
1918 Spanish Flu Pandemic -in 1918 20%-40% of the population was infected -50 million people died
Eradicated When a disease is eliminated worldwide
Smallpox The only disease worldwide that has been eradicated (last case 1977) -can only pass through humans (making it possible to eradicate)
Vaccine Controversy - vaccines can do more harm then good such as neurological disorders
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