6.4.3 Combating Antibiotic Resistance

    Cards (51)

    • Bacteria produce enzymes like β-lactamase to break down β-lactam antibiotics like penicillin
    • Efflux pumps reduce intracellular antibiotic concentration by transporting them out of bacterial cells.
    • Mutations in DNA gyrase can prevent quinolones from inhibiting DNA replication
    • Resistance to sulfonamides can occur when bacteria use external sources of folic acid instead of synthesizing it themselves.
    • Match the antibiotic resistance mechanism with its description:
      Degradation ↔️ Bacteria produce enzymes that break down antibiotics
      Efflux ↔️ Efflux pumps transport antibiotics out of cells
      Target Modification ↔️ Altering target proteins reduces antibiotic binding
      Metabolic Pathways ↔️ Develop new metabolic pathways to bypass targets
    • Antibiotic stewardship programs encourage the appropriate use of antibiotics based on established treatment guidelines
    • Public awareness campaigns educate the public on the risks of antibiotic overuse and promote preventative strategies
    • Public awareness campaigns aim to inform the public about the risks of antibiotic overuse and misuse.
    • Chemical synthesis involves designing and synthesizing novel antibiotic molecules from scratch
    • Natural product screening involves discovering new antibiotics from natural sources like plants and microbes.
    • Target-based strategies focus on developing antibiotics that specifically inhibit essential bacterial enzymes
    • Match the research approach with its example:
      Chemical Synthesis ↔️ Oxazolidinones
      Natural Product Screening ↔️ Teixobactin
      Target-Based Strategies ↔️ DNA Gyrase Inhibitors
    • Efflux pumps reduce antibiotic concentration in bacterial cells by transporting them out.
    • What are the key mechanisms developed by bacteria to evade the effects of antibiotics?
      Antibiotic resistance mechanisms
    • Enzymes like β-lactamase break down antibiotics through a process called degradation
    • Efflux pumps reduce antibiotic concentration in bacterial cells.
    • Match the antibiotic resistance mechanism with its description:
      Degradation ↔️ Enzymes break down antibiotics
      Efflux ↔️ Pumps expel antibiotics
      Target modification ↔️ Alteration of target proteins
      Metabolic pathways ↔️ New pathways bypass targets
    • What is the primary goal of antibiotic stewardship programs?
      Reduce antibiotic misuse
    • Diagnostic testing helps differentiate between bacterial and viral infections.
    • Public awareness campaigns aim to inform the public about the risks of antibiotic misuse
    • What are two examples of resistance mechanisms highlighted in public awareness campaigns?
      β-lactamase and efflux pumps
    • Order the three current approaches to antibiotic research and development:
      1️⃣ Chemical Synthesis
      2️⃣ Natural Product Screening
      3️⃣ Target-Based Strategies
    • Chemical synthesis of new antibiotics often explores diverse chemical structures.
    • What equation highlights the driving force behind antibiotic innovation?
      F=F =ma ma
    • Antimicrobial Stewardship Programs are designed to optimize the use of antimicrobials
    • Hand hygiene is a key strategy to reduce microbial transfer in healthcare settings.
    • Isolation protocols involve separating infected patients to prevent pathogen spread
    • What is the primary purpose of surveillance of antibiotic resistance?
      Monitor trends and prevalence
    • Surveillance of antibiotic resistance informs public health policies and strategies.
    • What is the primary goal of public awareness and education campaigns in combating antibiotic resistance?
      Combating antibiotic resistance
    • Public awareness campaigns inform the public about the risks of antibiotic overuse
    • Public awareness campaigns encourage antibiotic use based on doctor's recommendations.
    • What is one preventive measure highlighted in public awareness campaigns?
      Good hygiene
    • Public awareness campaigns reduce selective pressures on bacteria, minimizing the development of antibiotic resistance mechanisms
    • Strategies to combat antibiotic resistance
      1️⃣ Chemical Synthesis
      2️⃣ Natural Product Screening
      3️⃣ Target-Based Strategies
    • What does chemical synthesis involve in the context of new antibiotic development?
      Creating novel molecules
    • Natural product screening involves discovering antibiotics from natural sources.
    • What do target-based strategies aim to inhibit in bacteria?
      Essential bacterial enzymes
    • The ongoing need for innovation in antibiotic research is likened to F=F =ma ma, which represents the driving force for progress
    • What is the primary goal of antimicrobial stewardship programs?
      Optimizing antimicrobial use