Antibiotics Flashcards

1
Q

Describe the concepts of selective toxicity in relation to antibiotics

A

Principles of Antibiotics as Therapeutic Agents:

1) Selective Toxicity:

refers to the ability of a drug to selectively kill or inhibit the growth of microbial targets while causing minimal or no harm to the host

  • Due to the differences in structure and metabolic pathways between host and pathogen
  • Harm microorganisms, not the host
  • Target in microbe, not host (if possible)
  • Difficult for viruses (intracellular), fungi and parasites
  • Variation between microbes
  • Effect on commensals

2) Therapeutic Margin:

  • Active dose (MIC) vs Toxic effect

Selective toxicity examples:

1) Beta-Lactam Antibiotics (Penicillins):

  • These antibiotics target the bacterial cell wall, a structure that human cells lack
  • inhibit enzymes (penicillin-binding proteins) involved in peptidoglycan synthesis, a key component of the bacterial cell wall; osmotic lysis

2) Glycopeptide Antibiotics (Vancomycin):

  • glycopeptides inhibit cell wall synthesis via binding directly to peptidoglycan precursors
  • preventing their incorporation into the growing cell wall

3) Macrolide Antibiotics (Erthromycin):

  • target the bacterial ribosome, specifically the 50S subunit, and inhibit protein synthesis
  • Bacterial ribosomes are 70S (50S + 30S subunit) whereas human ribosomes are 80S (60S +40S subunit)
  • The difference in ribosome structure allows macrolides to selectively inhibit bacterial protein synthesis

4) Aminoglycosides (Gentamicin, Streptomycin):

  • Target 30S subunit of the bacterial ribosome, interfering with protein synthesis
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
2
Q

Define the biological and pharmaceutical origins of antibiotics

A

Biological Origins:

compounds produced by microorganisms; advantage to the producing organism by inhibiting the growth of competitors

  • Bacterium-derived antibiotics Streptomyces (actinomycetes genus)
  • Fungus-derived antibiotics: Penicillin

Pharmaceutical Origins:

chemically modify naturally occurring antibiotics to improve its efficacy, safety, or spectrum of activity

  • Semi-synthetic antibiotics: methicillin, ampicillin, and amoxicillin are chemically modified semi-synthetic penicillin that are more effective against a broader range of bacteria or more resistant to bacterial mechanisms of resistance
  • Fully synthetic antibiotics: fluoroquinolones (ciprofloxacin, levofloxacin), are fully synthetic, designed and created entirely in the lab. Developed based on the knowledge of bacterial targets such as DNA gyrase and topoisomerase IV
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
3
Q

Define the terms: bactericidal, bacteriostatic, broad and narrow spectrum, MIC

A

1) Bactericidal:

  • Directly kill bacteria by interfering with bacterial cell wall synthesis, DNA replication, or protein production, e.g. penicillin and ciprofloxacin

2) Bacteriostatic:

  • inhibit the growth or multiplication of bacteria by interfering with bacterial protein production, DNA replication, and bacterial cellular metabolism

3) Broad Spectrum:

  • effective against a wide range of both Gram-positive and Gram-negative bacteria
  • useful when it is not possible to determine the specific type of bacterium causing an infection
  • also used in treating mixed infections and preventing infections in patients with weakened immune systems. E.g. amoxicillin and ciprofloxacin

4) Narrow Spectrum:

  • effective against a select group of bacterial types, only gram +ve/-ve or only against a specific genus of bacteria
  • cause less disruption to the normal microbiota. E.g. dicloxacillin and azithromycin

MIC (Minimum Inhibitory Concentration):

  • the lowest concentration of an antimicrobial agent that prevents the visible growth of a microorganism in vitro (in a test tube or petri dish)
  • The MIC is used in diagnostic laboratories to determine the susceptibility of microorganisms to different antibiotics
  • Antibiotics with low MICs are more effective than those with higher MICs
  • This helps clinicians choose the most effective antibiotic to treat a particular infection
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
4
Q

Describe the categories of antibiotics, their modes of action, and targets, giving a named example of an antibiotic for each category

A

1) Cell Wall Synthesis Inhibitors:

  • preventing the formation of the bacterial cell wall; osmotic lysis
  • E.g. Penicillin - inhibit the final cross-linking of peptidoglycan chains

2) Protein synthesis inhibitors:

  • inhibit bacterial protein synthesis, affecting the bacterial ribosomes without harming human ribosomes due to structural differences
  • E.g. Erythromycin - bind to the 50S subunit, preventing elongation

3) Folic Acid Synthesis Inhibitors:

  • These antibiotics interfere with the synthesis of folic acid, a critical nutrient for bacteria; inhibiting DNA, RNA, and protein synthesis
  • E.g. Sulfonamides: structural analogues of para-aminobenzoic acid (PABA), a precursor for folic acid synthesis

4) Metabolic Pathway Inhibitors:

  • hinder certain metabolic pathways vital to the bacteria’s survival
  • E.g. Quinolones (e.g., ciprofloxacin): inhibit bacterial DNA gyrase and topoisomerase IV, which are crucial enzymes for bacterial DNA replication, transcription, repair, and recombination

5) Cell Membrane Disruptors:

  • disrupting the bacterial cell membrane, causing cell contents to leak out, leading to cell death
  • E.g. Polymyxins: bind to the bacterial cell membrane, altering its structure and leading to increased permeability, leakage of cellular contents, and cell death, particularly Gram-negative
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
5
Q

Explain in broad principles when antibiotics are used and how they are delivered

A

When Antibiotics are used:

1) Treatment of bacterial infections:

  • Antibiotics are typically prescribed when a patient has a confirmed bacterial infection, such as pneumonia, UTI, skin infections
  • antibiotic selected is usually based on the type of bacteria causing the infection, as determined by microbiological testing, along with the patient’s overall health status

2) Prophylactic use:

  • Antibiotics can also be used to prevent infections, particularly in certain at-risk populations
  • This includes patients undergoing surgery (to prevent post-operative infections), patients with certain types of heart disease before dental procedures (to prevent bacterial endocarditis), and people exposed to a person with a bacterial infection that can easily spread, such as meningitis

3) Empiric Therapy:

  • When the exact cause of an infection is unknown, but a bacterial cause is suspected, empiric therapy may be started
  • based on the types of bacteria that are most likely causing the infection and local resistance patterns

How Antibiotics are Delivered:

1) Orally:

  • in the form of tablets, capsules, or liquid suspensions. The medication is then absorbed through the digestive system

2) Intravenous (IV):

  • For severe infections or in cases where the patient cannot take oral medications
  • This allows for rapid and complete absorption of the drug into the bloodstream

3) Topical:

  • For skin and eye infections, antibiotics may be applied directly to the affected area in the form of creams, ointments, or eye drops

4) Intramuscular:

  • Some antibiotics, such as penicillin, may be given as an intramuscular injection. This is less common than oral or intravenous routes

5) Inhalation:

  • Certain antibiotics can be given by inhalation, especially for respiratory infections in cystic fibrosis patients
How well did you know this?
1
Not at all
2
3
4
5
Perfectly