Biology Communicable Diseases

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Krystsina

Cards (32)

  • Pathogens that cause infectious diseases include viruses, bacteria, protists, and fungi
  • Pathogens can infect plants or animals and spread through direct contact, water, or air
  • Viruses:
    • Very small
    • Move into cells to make copies of themselves, leading to cell bursting and illness
  • Bacteria:
    • Small
    • Multiply quickly through binary fission
    • Produce toxins that damage cells
  • Protists:
    • Some are parasitic, using humans and animals as hosts
  • Fungi:
    • Can be single-celled or have a body made of hyphae
    • Produce spores that can spread to other organisms
  • Ways pathogens are spread:
    • Direct contact (e.g., kissing, touching contaminated surfaces)
    • By water (drinking or contact with dirty water)
    • By air (e.g., droplet infection from sneezing, coughing)
  • Ways to reduce damage from diseases:
    • Improving hygiene (hand washing, using disinfectants)
    • Reducing contact with infected individuals
    • Removing vectors (using pesticides, removing habitats)
    • Vaccination to develop immunity
  • Viral Diseases:
    • Viruses can enter all types of cells
    • Measles symptoms: fever, red skin rash, can lead to pneumonia, encephalitis, and blindness
    • Spread through droplet infection
    • Prevented by vaccinations
  • Bacterial Diseases:
    • Salmonella food poisoning symptoms: fever, stomach cramps, vomiting, diarrhea
    • Spread through raw meat, eggs, unhygienic conditions
    • Prevented by vaccination, hygiene practices
    • Gonorrhea symptoms: discharge, pain when urinating
    • Spread through unprotected sexual contact
    • Prevented by contraception, antibiotics
  • Fungal Diseases:
    • Rose black spot symptoms: purple or black spots on rose leaves, reduced photosynthesis
    • Spread through water or wind
    • Prevented by fungicides or removing affected leaves
  • Protist Diseases:
    • Malaria symptoms: fevers, shaking
    • Spread by female Anopheles mosquito
    • Prevented by insecticide nets, removing stagnant water, antimalarial drugs
  • Human Defence System:
    • Non-specific defence system prevents pathogens from entering the body
    • Skin, nose, trachea, bronchi, stomach act as barriers
    • Specific immune system uses white blood cells for protection through phagocytosis, antibody production, and antitoxin production
  • Vaccination:
    • Makes individuals immune to diseases before infection
    • Reduces pathogen spread through herd immunity
    • Vaccine contains dead or inactivated pathogen to stimulate antibody production
  • Antibiotics and Painkillers:
    • Antibiotics kill bacterial pathogens without damaging body cells
    • Painkillers treat symptoms, not the cause
    • Antibiotics are not effective against viruses
    • Different antibiotics target different bacteria types
    • Penicillin is an example of an antibiotic
  • Advantages of vaccination:
    • Eradicated diseases and reduced occurrences
    • Prevents epidemics through herd immunity
  • Disadvantages of vaccination:
    • Not always effective in providing immunity
    • Bad reactions can occur, although rare
  • Bacteria are becoming resistant to antibiotics
  • Mutations can occur during reproduction, resulting in certain bacteria no longer being killed by antibiotics
  • When exposed to antibiotics, only the non-resistant bacteria die
  • Resistant bacteria survive and reproduce, increasing the population of resistant bacteria
  • This leads to previously effective antibiotics no longer working
  • To prevent the development of resistant strains:
    • Stop overusing antibiotics to avoid unnecessary exposure
    • Finish courses of antibiotics to kill all bacteria
  • Discovery and Development of Drugs:
    • Many drugs were initially discovered in plants and microorganisms
    • New drugs today are mainly synthesised by chemists
    • Drugs need to be tested for toxicity, efficacy, and dose using preclinical testing and clinical trials
  • Monoclonal Antibodies:
    • Identical antibodies produced from the same immune cell
    • Used to target chemicals and cells in the body for various medical purposes
  • Producing Monoclonal Antibodies:
    • Scientists obtain mice lymphocytes stimulated to produce a specific antibody
    • Combined with tumour cells to form a hybridoma
    • Hybridoma divides to produce clones that all produce the same antibody
    • Antibodies are collected and purified
  • Uses of Monoclonal Antibodies:
    • In pregnancy tests
    • In laboratories to measure and monitor hormone or chemical levels
    • In research to find or identify certain molecules on a cell or tissue
    • In the treatment of diseases like cancer
  • Advantages of using monoclonal antibodies:
    • Specific cell targeting without affecting healthy cells
    • Can be engineered to treat various conditions
  • Disadvantages of using monoclonal antibodies:
    • Difficult to attach to drugs
    • Expensive to develop
  • Plant Disease:
    • Plants can be affected by viral, bacterial, and fungal pathogens
    • Common signs of plant diseases include stunted growth, spots on leaves, areas of decay, abnormal growths, malformed stems or leaves, discolouration, and pests on leaves
  • Ion deficiencies in plants:
    • Nitrate deficiency can stunt growth
    • Magnesium deficiency can cause chlorosis
  • Plant Defence Responses:
    • Physical, chemical, and mechanical adaptations to prevent invasion of microorganisms