1. 30/10/2010Dr. Salwa Tayel1

2. 30/10/2010Dr. Salwa Tayel2 Associate Professor Family and Community Medicine Department King Saud University By Infectious Disease Epidemiology Chain of infection Dr. Salwa Tayel

3. 30/10/2010 Dr. Salwa Tayel 3 Learning objectives: By the end of this lecture student will be able to:: Describe the infectious disease process (Chain of infection) List the types of reservoir of infectious diseases of man Define a carrier and list its types. Define zoonoses and list examples. Identify the different modes of transmission of the organisms from the reservoir to the susceptible host.

4. 30/10/2010 Dr. Salwa Tayel 4 Agent Susceptible Host Reservoir Mode of transmission Cycle of infection Portal of Exit Portal of Inlet IP PC

5. 30/10/2010 Dr. Salwa Tayel 5 Animal reservoirs Zoonoses: vertebrate Zoonoses: Infectious diseases that are transmissible under normal conditions from vertebrate animals to humans. (with humans as incidental hosts) Zoonotic diseases include:  Brucellosis (cows and pigs),  Anthrax (sheep),  Plague (rodents),  Rabies (bats, dogs, and other mammals).  Toxoplasmosis (cats)

6. 30/10/2010 Dr. Salwa Tayel 6 Zoonoses Zoonoses are Human Diseases with Animal Reservoirs.

7. 30/10/2010 Dr. Salwa Tayel 7 Zoonoses Toxoplasmosis

8. 30/10/2010 Dr. Salwa Tayel 8 Environmental reservoirs: Soil, and water Soil: Agents live and multiply in the soil. Soil: Agents live and multiply in the soil.Examples: -Tetanus spores and - Fungal agents; (those causing histoplasmosis) Pools of water are the primary reservoir of Pools of water are the primary reservoir of Legionnaires’ bacillus.

9. 30/10/2010 Dr. Salwa Tayel 9 3. Portal of exit Portal of exit is the path by which an agent leaves the source host. Examples: Respiratory tract GIT Skin and mucous membrane

10. 30/10/2010 Dr. Salwa Tayel 10 4. Modes of transmission: Direct transmission Direct transmission — Direct contact — Droplet spread Indirect transmission Indirect transmission — Airborne — Vehicle borne — Vector borne

11. 30/10/2010 Dr. Salwa Tayel 11 Pathogen Transmission

12. Modes Of Transmission 30/10/2010 Dr. Salwa Tayel 12 Direct Contact Droplet spread Direct Airborne Vehicle borne Vector borne Indirect

13. 30/10/2010 Dr. Salwa Tayel 13 Direct contact Direct contact occurs through: Skin-to-skin contact, kissing, and sexual intercourse. Direct contact refers also to contact with soil or vegetation harbouring infectious organisms. Direct transmission There is essentially immediate transfer of the agent from a reservoir to a susceptible host by direct contact or droplet spread.

14. 30/10/2010 Dr. Salwa Tayel 14 Contact Transmission Rhinovirus?

15. 30/10/2010 Dr. Salwa Tayel 15 Direct-Contact Transmission

16. 30/10/2010 Dr. Salwa Tayel 16 Droplet spread Transmission by direct spray of relatively large, short-range aerosols over a few feet, before the droplets fall to the ground. sneezing coughingtalkingThese aerosols may be produced by sneezing, coughing, or even talking.

17. 30/10/2010 Dr. Salwa Tayel 17 Droplet Transmission Less than one meter Measles?

18. Modes Of Transmission 30/10/2010 Dr. Salwa Tayel 18 Direct Contact Droplet spread Direct Airborne Vehicle borne Vector borne Indirect

19. 30/10/2010 Dr. Salwa Tayel 19 Indirect transmission: An agent is carried from a reservoir to a susceptible host by: Vehicle borne: inanimate vehicle Vector borne: animate vector Airborne transmission: suspended air particles

20. 30/10/2010 Dr. Salwa Tayel 20 Vehicle borne Food& Water borne Blood borne Fomites Vector borne MechanicalMechanical BiologicalBiological Airborne transmission Dust particles Droplet nuclei Indirect transmission

21. 30/10/2010 Dr. Salwa Tayel 21 Vehicle borne: An infectious agent is carried from a reservoir to a susceptible host by an inanimate intermediary. Vehicles include: 1.Contaminated food and water, typhoid, paratyphoid, food poisoning, dysentery and cholera. 2.Biologic products (blood), viral hepatitis, AIDS, syphilis and malaria. 3.Fomites (inanimate objects such as: door knobs, toys, handkerchiefs, bedding, or surgical instruments).

22. 30/10/2010 Dr. Salwa Tayel 22 Foodborne Transmission Hepatitis A

23. 30/10/2010 Dr. Salwa Tayel 23 Waterborne Transmission Cryptosporidium parvum?

24. 30/10/2010 Dr. Salwa Tayel 24 Common-Source Outbreak Cholera! The Broad Street Pump.

25. 30/10/2010 Dr. Salwa Tayel 25 Indirect-Contact Transmission Beddings are an example of a Fomite, an inanimate object that can transmit pathogens between people. Methicillin- resistant Staphylococcu s aurius (MRSA)?

26. 30/10/2010 Dr. Salwa Tayel 26 Indirect-Contact Transmission Door knobs are another good example of a fomite. Influenza virus?

27. 30/10/2010 Dr. Salwa Tayel 27 Vehicle borne Food& Water borne Blood borne Fomites Vector borne MechanicalMechanical BiologicalBiological Airborne transmission Dust particles Droplet nuclei Indirect transmission

28. 30/10/2010 Dr. Salwa Tayel 28 Vectors are arthropods such as mosquitoes, fleas, and ticks Mechanical transmission: Mechanical transmission: the agent does not multiply or undergo physiologic changes in the vector. For example, flies carry Shigella on appendages. Biologic transmission: Biologic transmission: When the agent undergoes changes and/or multiplication within the vector before it is transmitted. (Extrinsic incubation period). Example: Malaria, Filariasis

29. 30/10/2010 Dr. Salwa Tayel 29 Modes of Transmission

30. 30/10/2010 Dr. Salwa Tayel 30 Vehicle borne Food& Water borne Blood borne Fomites Vector borne MechanicalMechanical BiologicalBiological Airborne transmission Dust particles Droplet nuclei Indirect transmission

31. 30/10/2010 Dr. Salwa Tayel 31 Airborne transmission occurs by particles that are suspended in air. There are two types of these particles: - dust particle and - droplet nuclei. 1.Dust particles: -result from re-suspension of particles that have settled on floor or bedding, - infectious particles blown from the soil by the wind. Example: Fungal spores.

32. 30/10/2010 Dr. Salwa Tayel 32 Airborne Transmission More than one meter Mycobacterium tuberculosis?

33. 30/10/2010 Dr. Salwa Tayel 33 2.D roplet nuclei They represent the dried residue of droplets that have been coughed or sneezed into the air. They are very tiny particles less than 5 µ (microns) in size and may remain suspended in the air for long periods. Examples: Tuberculosis is transmitted more often indirectly, through droplet nuclei, than directly, through direct droplet spread. Legionnaires’ disease and h hh histoplasmosis also spread through airborne transmission.

34. 30/10/2010 Dr. Salwa Tayel 34 Modes of Transmission

35. 30/10/2010 Dr. Salwa Tayel 35 5. Portal of entry An agent enters a susceptible host through a portal of entry. -The portal of entry must provide access to tissues in which the agent can multiply or a toxin can act. - Often, organisms use the same portal to enter a new host that they use to exit the source host.

36. 30/10/2010 Dr. Salwa Tayel 36 Portals of Entry

37. 30/10/2010 Dr. Salwa Tayel 37 Portals of Entry “Many organisms that cause one disease if they enter one body site are harmless if they enter another, e.g., various enteric urinary-tract pathogens.

38. 30/10/2010 Dr. Salwa Tayel 38 6. Host A susceptible host is the final link in the chain of infection. The host is a person or other living organism that can be infected by an infectious agent under normal conditions.

39. 30/10/2010 Dr. Salwa Tayel 39 Susceptibility of a host depends on: Genetic factorsGenetic factors General factorsGeneral factors Specific acquired immunitySpecific acquired immunity

40. 30/10/2010 Dr. Salwa Tayel 40 General factors which defend against infection: the skin, mucous membranes, gastric acidity, cilia in the respiratory tract, the cough reflex, and nonspecific immune response.

41. 30/10/2010 Dr. Salwa Tayel 41 General factors that may increase susceptibility are General factors that may increase susceptibility are: malnutrition, alcoholism, and disease or therapy which impairs the immune response (Cortisone, cytotoxic drugs,...

42. 30/10/2010 Dr. Salwa Tayel 42 Specific acquired immunity: It refers to protective antibodies that are directed against a specific agent.

43. 30/10/2010 Dr. Salwa Tayel 43 Specific acquired immunity: two types: 1. Active immunity: Resistance developed in response to stimulus by an antigen either; Naturally by infecting agent or Artificially by vaccine and usually characterized by the presence of antibody produced by the host.

44. 30/10/2010 Dr. Salwa Tayel 44 2. Passive immunity: Immunity conferred by an antibody produced in another host and may be acquired; Naturally by an infant from its mother or Artificially by administration of an antibody containing preparation (antiserum or immune globulin).

45. Acquired immunity 30/10/2010 Dr. Salwa Tayel 45 Active immunity Natural (Post infection) Artificial (Post vaccination) Passive immunity Natural (trans- placental) Artificial (Immune- sera)

46. 30/10/2010 Dr. Salwa Tayel 46 Herd immunity It is the state of immunity of a group or a community. Also it is; “The resistance of a group to invasion and spread of an infectious agent, based on the immunity of a high proportion of individual members of the group”.

47. 30/10/2010 Dr. Salwa Tayel 47 Factors Affecting Herd Immunity: The extent of coverage of the immunization program The degree of resistance to infection afforded by the vaccine. Duration and degree of infectivity of the organism.Past experience with different infections.Overcrowding and environmental sanitation.

48. 30/10/2010 Dr. Salwa Tayel 48 Agent Susceptible Host Reservoir Mode of transmission Cycle of infection Portal of Exit Portal of Inlet IP PC

49. 30/10/2010 Dr. Salwa Tayel 49 Period of Communicability (PC) –The time during which an infectious agent my be transmitted directly or indirectly from an infected person to a susceptible person or animal. –Its length varies from one disease to another.

50. 30/10/2010 Dr. Salwa Tayel 50 Incubation period (IP) The period from exposure to infection to the onset of symptoms or signs of infectious disease. The length of incubation period depends on: –The portal of entry. –The rate of growth of the organism in the host. –The dosage of the infectious agent. –The host resistance.

51. 30/10/2010 Dr. Salwa Tayel 51 Extrinsic incubation period: This is the period taken by the infectious agent outside the human body until it becomes infective again to a new individual. e.g. e.g. Rickettsia takes five days in the intestinal villi of louse to transmit typhus. Plasmodium species take 9-12 days in mosquitoes to transmit malaria.

52. 30/10/2010 Dr. Salwa Tayel 52 Thank you Bibliotheca Alexandrina Website http://faculty.ksu.edu.sa/73234/default.aspxhttp://faculty.ksu.edu.sa/73234/default.aspx salwatayel@hotmail.com