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Introduction of Communicable Disease Epidemiology.ppt

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Epidemiology of Communicable Diseases (Chain of infection) Dr. Salwa A. Tayel & Prof. Ashry Gad Department of Family & Community Medicine September-2014 September 22, 2014 1
2 By the end of this lecture you will be able to: ?Describe the process of infectious diseases transmission (Chain of infection) ?List the types of RESERVOIR of infectious diseases of human ?Define a CARRIER and list its types. ?Define ZOONOSES and list examples. ?Identify the different MODE OF TRANSMISSION of the organisms from the reservoir to the susceptible host. September 22, 2014 2 OBJECTIVES OF THE LECTURE
3 Cycle of infection September 22, 2014
4 A process that begins when an agent leaves its reservoir through a portal of exit, and is conveyed by some mode of transmission, then enters through an appropriate portal of entry to infect a susceptible host. Cycle of infection September 22, 2014
September 22, 2014 5 The essential elements for Communicable Disease Transmission: 1. Presence of microbiological agent. 2. Presence of reservoir. 3. Portal of exit. 4. Mode of transmission. 5. Portal of entry (inlet). 6. Presence of susceptible host. Factors affecting perpetuation/spread of Communicable diseases
September 22, 2014 6 Agent ? Microorganisms are responsible for disease production (viruses, bacteria, protozoa, parasites, fungi,.. ? Agent characteristics that affect disease transmission: C Infectivity C Pathogenicity C Virulence C Antigenicity C Toxicity, dose of inoculums, resistance strains,´´
September 22, 2014 7 The ability of an agent to invade and multiply (produce infection) in The ability of an agent to invade and multiply (produce infection) in a susceptible host. a susceptible host. How to measure How to measure ( (Infectivity); Infectivity); ease & spread of infection? ease & spread of infection? Secondary Attack Rate Secondary Attack Rate The proportion of exposed susceptible persons who become The proportion of exposed susceptible persons who become infected. infected. Examples: High infectivity: Measles, Chickenpox Examples: High infectivity: Measles, Chickenpox Low infectivity: Leprosy Low infectivity: Leprosy 100 sec x es susceptibl of Number cases ondary of Number rate attack Secondary ? Infectivity
September 22, 2014 8 Is the ability of the organisms to produce specific clinical reaction after infection It refers to the proportion of infected persons who develop clinical disease. Examples: ? High pathogenicity: Measles, Chickenpox (Class B) ? Low pathogenicity: Polio, Tuberculosis, Hepatitis A, Meningitis, AIDS (Class A) It can be measured by: cases l Subclinica cases Clinical Ratio of clinical to sub-clinical case Ratio of clinical to sub-clinical case= = Pathogenicity
September 22, 2014 9 The ability of an infectious agent to cause severe disease, measured as the proportion of persons with the disease who become severely ill or die. Examples: Rabies, Hemorrhagic fevers caused by Ebola and Murberg viruses. (Class C) 100 disease that of cases of number Total disease a from deaths of number Total rate fatality Case x ? Virulence is measured by: Case fatality rate Virulence
September 22, 2014 10 The ability of the organism to produce specific immunity (antibodies or antitoxin). It can be measured by: Second attack frequency: Second attack frequency: Second attacks are rare: measles, mumps and chickenpox. measles, mumps and chickenpox. Re-infection occurs frequently: common cold, syphilis and common cold, syphilis and gonorrhea. gonorrhea. Antigenicity (Immunogenicity)
2. Reservoir of infection Types of Reservoir Human reservoir Animal reservoir Non-living reservoir September 22, 2014 11 The reservoir of an agent is the habitat in which an infectious agent normally lives, grows, and multiplies.
Human reservoirs Two types of human reservoirs exist: ? Case ? Carrier: A person that harbors the infectious agent for a disease and can transmit it to others, but does not demonstrate signs of the disease. C Temporary OR Chronic (such as Salmonella typhi,´ C Carriers have no symptoms, not diagnosed, so can infect others, causing infection control difficult. September 22, 2014 12
September 22, 2014 13 Zoonoses: An infection or infectious disease transmissible under natural conditions from vertebrate animals to humans. More than 100 Zoonotic diseases such as Brucellosis (sheep, goats and pigs), Bovine tuberculosis (cattle), Rabies (bats, dogs, and other mammals). Environmental reservoirs: For example: Soil may harbor spores that causes tetanus and anthrax. Pools of water are the primary reservoir of Legionnaires¨ bacillus. Reservoirs
3. Portal of exit September 22, 2014 14 Portal of exit is the path by which an agent leaves the source host. E.g. Examples: ? Urinary tract ? Intestinal tract ? Respiratory tract ? Skin and mucous membrane ? Blood
September 22, 2014 15 4. Modes of transmission
Direct Transmission Direct modes: reservoir & susceptible host are physically present together resulting in immediate transfer of infectious agent: 1- Direct contact: e.g. Sexually Transmitted Infections 2- Droplet infection: e.g. Sneezing leading to ARI 3-Contact with soil: e.g. Tetanus, hookworm larvae 4-Inoculation into skin or mucosa: e.g. Rabies, Hep B 5- Trans-placental: Mother to her fetus, e.g. HIV September 22, 2014 16
Indirect transmission 1- Vehicle-borne: The agent may multiply in the vehicle before transmission. FOOD (e.g. Hep A), WATER (e.g. Cholera), MILK (e.g. TB), BLOOD (e.g Hep B) 2- Vector-borne: arthropod or other living carrier e.g. Flies carrying Shigella, and Mosquito propagating malaria parasites 3- Airborne: e.g TB transmitted indirectly through airborne transmission, than directly through direct droplet spread. Legionnaires¨ disease and fungal spores also spread through airborne transmission. September 22, 2014 17
4- Fomite-borne: e.g. clothes, cups, door handles, surgical dressings and instruments. Disease examples Hep A, Influenza, Eye infections 5- Unclean hands & fingers: causing, e.g., typhoid, staph. & strept. infection, hepatitis A Indirect transmission September 22, 2014 18
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 as that they use to exit the source host. September 22, 2014 19
6. Susceptible host Host that doesn't have resistance against a particular pathogenic agent is liable to contract the disease when exposed to such agent (i.e. susceptible). Resistance: is total body mechanisms which interpose barriers to progression of invasion& or multiplication of infectious agent. Susceptibility depends on: ? Genetic factors ? Malnutrition, Alcoholism, Disease, Therapy which impairs the immune response (e.g. cortisone, cytotoxic drugs, ...) ? Acquired Immunity (natural/Artificial) September 22, 2014 20
September 22, 2014 21 o Skin, Mucous membranes, Gastric acidity, Cilia in the respiratory tract, Cough reflex o Nonspecific immune response; phagocytes o Specific immune response. i.e protective antibodies that are directed against a specific agent. Body defense mechanism against infection
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 ̄. September 22, 2014 22
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. September 22, 2014 23
September 22, 2014 24 Reference books ? Principles of Epidemiology in Public Health Practice. Third Edition. An Introduction to Applied Epidemiology and Biostatistics. Centers for Disease Control and Prevention (CDC) ? Porta M. A dictionary of epidemiology. 5th Edition. Oxford, New York: Oxford University Press, 2008. ? Gordis L. Epidemiology. 4th edition. Philadelphia, Pennsylvania: Elsevier Science, 2008 ? Beaglehole R, Bonita R, Kjellstrom T. Basic epidemiology. 2nd edition. Geneva: World Health Organization, 2006

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Introduction of Communicable Disease Epidemiology.ppt

  • 1. Epidemiology of Communicable Diseases (Chain of infection) Dr. Salwa A. Tayel & Prof. Ashry Gad Department of Family & Community Medicine September-2014 September 22, 2014 1
  • 2. 2 By the end of this lecture you will be able to: ?Describe the process of infectious diseases transmission (Chain of infection) ?List the types of RESERVOIR of infectious diseases of human ?Define a CARRIER and list its types. ?Define ZOONOSES and list examples. ?Identify the different MODE OF TRANSMISSION of the organisms from the reservoir to the susceptible host. September 22, 2014 2 OBJECTIVES OF THE LECTURE
  • 4. 4 A process that begins when an agent leaves its reservoir through a portal of exit, and is conveyed by some mode of transmission, then enters through an appropriate portal of entry to infect a susceptible host. Cycle of infection September 22, 2014
  • 5. September 22, 2014 5 The essential elements for Communicable Disease Transmission: 1. Presence of microbiological agent. 2. Presence of reservoir. 3. Portal of exit. 4. Mode of transmission. 5. Portal of entry (inlet). 6. Presence of susceptible host. Factors affecting perpetuation/spread of Communicable diseases
  • 6. September 22, 2014 6 Agent ? Microorganisms are responsible for disease production (viruses, bacteria, protozoa, parasites, fungi,.. ? Agent characteristics that affect disease transmission: C Infectivity C Pathogenicity C Virulence C Antigenicity C Toxicity, dose of inoculums, resistance strains,´´
  • 7. September 22, 2014 7 The ability of an agent to invade and multiply (produce infection) in The ability of an agent to invade and multiply (produce infection) in a susceptible host. a susceptible host. How to measure How to measure ( (Infectivity); Infectivity); ease & spread of infection? ease & spread of infection? Secondary Attack Rate Secondary Attack Rate The proportion of exposed susceptible persons who become The proportion of exposed susceptible persons who become infected. infected. Examples: High infectivity: Measles, Chickenpox Examples: High infectivity: Measles, Chickenpox Low infectivity: Leprosy Low infectivity: Leprosy 100 sec x es susceptibl of Number cases ondary of Number rate attack Secondary ? Infectivity
  • 8. September 22, 2014 8 Is the ability of the organisms to produce specific clinical reaction after infection It refers to the proportion of infected persons who develop clinical disease. Examples: ? High pathogenicity: Measles, Chickenpox (Class B) ? Low pathogenicity: Polio, Tuberculosis, Hepatitis A, Meningitis, AIDS (Class A) It can be measured by: cases l Subclinica cases Clinical Ratio of clinical to sub-clinical case Ratio of clinical to sub-clinical case= = Pathogenicity
  • 9. September 22, 2014 9 The ability of an infectious agent to cause severe disease, measured as the proportion of persons with the disease who become severely ill or die. Examples: Rabies, Hemorrhagic fevers caused by Ebola and Murberg viruses. (Class C) 100 disease that of cases of number Total disease a from deaths of number Total rate fatality Case x ? Virulence is measured by: Case fatality rate Virulence
  • 10. September 22, 2014 10 The ability of the organism to produce specific immunity (antibodies or antitoxin). It can be measured by: Second attack frequency: Second attack frequency: Second attacks are rare: measles, mumps and chickenpox. measles, mumps and chickenpox. Re-infection occurs frequently: common cold, syphilis and common cold, syphilis and gonorrhea. gonorrhea. Antigenicity (Immunogenicity)
  • 11. 2. Reservoir of infection Types of Reservoir Human reservoir Animal reservoir Non-living reservoir September 22, 2014 11 The reservoir of an agent is the habitat in which an infectious agent normally lives, grows, and multiplies.
  • 12. Human reservoirs Two types of human reservoirs exist: ? Case ? Carrier: A person that harbors the infectious agent for a disease and can transmit it to others, but does not demonstrate signs of the disease. C Temporary OR Chronic (such as Salmonella typhi,´ C Carriers have no symptoms, not diagnosed, so can infect others, causing infection control difficult. September 22, 2014 12
  • 13. September 22, 2014 13 Zoonoses: An infection or infectious disease transmissible under natural conditions from vertebrate animals to humans. More than 100 Zoonotic diseases such as Brucellosis (sheep, goats and pigs), Bovine tuberculosis (cattle), Rabies (bats, dogs, and other mammals). Environmental reservoirs: For example: Soil may harbor spores that causes tetanus and anthrax. Pools of water are the primary reservoir of Legionnaires¨ bacillus. Reservoirs
  • 14. 3. Portal of exit September 22, 2014 14 Portal of exit is the path by which an agent leaves the source host. E.g. Examples: ? Urinary tract ? Intestinal tract ? Respiratory tract ? Skin and mucous membrane ? Blood
  • 15. September 22, 2014 15 4. Modes of transmission
  • 16. Direct Transmission Direct modes: reservoir & susceptible host are physically present together resulting in immediate transfer of infectious agent: 1- Direct contact: e.g. Sexually Transmitted Infections 2- Droplet infection: e.g. Sneezing leading to ARI 3-Contact with soil: e.g. Tetanus, hookworm larvae 4-Inoculation into skin or mucosa: e.g. Rabies, Hep B 5- Trans-placental: Mother to her fetus, e.g. HIV September 22, 2014 16
  • 17. Indirect transmission 1- Vehicle-borne: The agent may multiply in the vehicle before transmission. FOOD (e.g. Hep A), WATER (e.g. Cholera), MILK (e.g. TB), BLOOD (e.g Hep B) 2- Vector-borne: arthropod or other living carrier e.g. Flies carrying Shigella, and Mosquito propagating malaria parasites 3- Airborne: e.g TB transmitted indirectly through airborne transmission, than directly through direct droplet spread. Legionnaires¨ disease and fungal spores also spread through airborne transmission. September 22, 2014 17
  • 18. 4- Fomite-borne: e.g. clothes, cups, door handles, surgical dressings and instruments. Disease examples Hep A, Influenza, Eye infections 5- Unclean hands & fingers: causing, e.g., typhoid, staph. & strept. infection, hepatitis A Indirect transmission September 22, 2014 18
  • 19. 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 as that they use to exit the source host. September 22, 2014 19
  • 20. 6. Susceptible host Host that doesn't have resistance against a particular pathogenic agent is liable to contract the disease when exposed to such agent (i.e. susceptible). Resistance: is total body mechanisms which interpose barriers to progression of invasion& or multiplication of infectious agent. Susceptibility depends on: ? Genetic factors ? Malnutrition, Alcoholism, Disease, Therapy which impairs the immune response (e.g. cortisone, cytotoxic drugs, ...) ? Acquired Immunity (natural/Artificial) September 22, 2014 20
  • 21. September 22, 2014 21 o Skin, Mucous membranes, Gastric acidity, Cilia in the respiratory tract, Cough reflex o Nonspecific immune response; phagocytes o Specific immune response. i.e protective antibodies that are directed against a specific agent. Body defense mechanism against infection
  • 22. 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 ̄. September 22, 2014 22
  • 23. 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. September 22, 2014 23
  • 24. September 22, 2014 24 Reference books ? Principles of Epidemiology in Public Health Practice. Third Edition. An Introduction to Applied Epidemiology and Biostatistics. Centers for Disease Control and Prevention (CDC) ? Porta M. A dictionary of epidemiology. 5th Edition. Oxford, New York: Oxford University Press, 2008. ? Gordis L. Epidemiology. 4th edition. Philadelphia, Pennsylvania: Elsevier Science, 2008 ? Beaglehole R, Bonita R, Kjellstrom T. Basic epidemiology. 2nd edition. Geneva: World Health Organization, 2006