the importance of cell biology & AMR for vet med Flashcards
define infection
the invasion and/or colonisation by and subsequent multiplication of pathogenic microorganisms in a bodily part or tissue
- can produce subsequent tissue injury and progression to overt disease through a variety of cellular or toxic mechanisms
what is the daily impact of microbiology for veterinarian
- revention of infectious disease (vaccines, probiotics, owner education)
- treatment of infectious disease ( diarrhea, skin infections, bite wounds - do they need antibiotics?)
- sterilisation of instruments
- biosecurity
- epidemiology
- antimicrobial stewardship
describe the hierarchy of antibiotics - should we be routinely using critically important human antibiotics in animals
to be able to assess antibiotic usage we need to understand which antibiotics are seen as critically important in human medicine and hence should only ever be a last resort in animal medicine if used at all
describe how microbes can cause disease
- infection (colonise or invade tissues)
- produce toxins and poision the host (often associated with infection but sometimes just ingestion of pre-formed toxin)
- cause a host response (allergic reaction)
- combination of above
what 3 words can be used to classify the prevalence of pathogens
- sporadic
- enzootic (regularly affecting animals in a particula district or at a particular season)
- endemic ( term that relates to humans but also used in vet med - regularly found among particular group of people or in a certain area)
define latency
the pathogen goes inert in the animals. reactivation may occur if the pathogen is switched back on (i.e herpes)
define carriage
the animal tolerates the pathogen without disease and is capable of transmitting the organism (host can control pathogen but not clear it or causes disease in one species but is carried in another)
define reservoir of infection
any animal, human, environment in which an infectious agent normally lives and multiplies
what is an acute infection
pathogen cleared shortly after inefection
what is a chronic infection
pathogen is detectable for lifetime of host
- immune response takes effect (or treatment) and reduces but does not clear infection)
what is a latent infection
infectious agent disappears (indetectable) but can be reactivated by a number of factors.
what features do antibiotics use as points of attack on bacteria
- cell wall synthesis
- cell membrane structure and function
- translation/protein synthesis
- transcription
- DNA synthesis and replication
how do antibiotics target the cell wall and give examples of antibiotics that do this
a cell wall is a good target because it contains components unique to bacteria (target peptidoglycan instead of body cell)
- beta lactams inhibit transpeptidation by binding to penicillin binding proteins on maturing peptidoglycan strands (cause decrease in peptidoglycan)
- promote autolysin activity (BACTERICIDAL)
EXAMPLES:
- penicillin (beta lactam)
- ampicillin (beta lactam)
- vancomycin (glycopeptide)
describe how antibiotics target the cell membrane. give examples of antibiotics that do this
what are the disadvantages of these antibiotics?
cell membrane is a good target becuase distrupted functional integrity of cell membrane leads to escape of macromolecules and ions from the bacterial cell => bactericidal
disadvantages: high level of similarity between bacterial and animal cell membranes => more toxic to animal cells and often last resort
examples:
polymixin and colistin
- both target the outer membrane of Gram negative bacteria
why is nucleic acid synthesis a good target for antibiotics, how does it work and give examples of antibiotics that target this
organisation and replication of bacterial DNA and RNA is different to eukaryotics - bacteriostatic (dont kill but prevent from growing/replicating so immune system can take over)
Examples:
Quinolones and Novobiocin both act on DNA gyrase which separates DNA strands during bacterial replication. quinolones interfere with changes in DNA suoercoiling by binding to topoisomerase II or topoisomerase IV
rifampin interferes with DNA-dependant RNA polymerase activity and prevents RNA synthesis
