The Infectious Disease Process

[last update 11/24/03]

The infectious disease process includes the following components: (1) agent (2) reservoir (3) portals of entry and exit (4) mode of transmission (5) immunity. 

Types of agents range from the submicroscopic to the large parasites. The classes of agents are summarized in Table 3.1 (p. 63). 

The reservoir is the normal habitat in which the agent lives and multiplies. It is where the agent propagates itself in nature. (A dead end host is not a reservoir.) The four types of reservoirs are:

• Symptomatic cases
• Carriers
• Inapparent throughout history
• Incubatory
• Convalescent
• Animals
• Direct zoonoses
• Cyclozoonoses
• Metazoonones
• Saprozoonoses
• Inanimate objects
• Water
• Food
• Soil
• Air
• Fomites

Portals of infection include the 

• Respiratory tract (upper and lower)
• Conjunctiva (lining of the eyes and eyelids)
• Urogenital tract
• Gastrointestinal tract (upper and lower)
• Placenta (mother to child transmission)
• Skin (broken and unbroken skin)

Modes of transmission include: 

• Contact (requiring proximity to an infected host or discharge from an infected host)
• Vehicle (an inanimate intermediate carrier)
• Vector (an animate intermediate carrier, often an insect)
• Mechanical
• Developmental
• Propagative
• Cyclopropagative

Dynamics of Transmission

• Common vehicle
• Serial

Immunity

Immunity includes all factors that alter the likelihood of infection and disease once the agent is encountered. There are two types of immunity: innate immunity & acquired immunity. Innate immunity is immunity the host is born with. It includes physical barriers to infection (e.g., skin) chemical barriers to infection (e.g., acidity of the stomach), cellular barriers to infection (e.g., macrophages) and other physiologic responses (e.g., inflammation). Acquired immunity is immunity developed after exposed to an agent. It includes a humoral component (e.g., antibodies) and cellular component (e.g., lymphocytes).

The components of the immune system are described on p. 47 of the text and include:

• Physical barriers: skin, mucosa, mucus sheaths, respiratory tract cilia, cough and gag reflex
• Chemical barriers: acidity of stomach and vagina, enzymes in saliva and GI tract, lipids, interferons, and other miscellaneous biologically active substances
• Cellular and physiologic barriers: macrophages, polymorphs, reticular endothelial cells, NK cells, inflammation, fever.

Immunization is the act of acquiring immunity. It can be acquired passively (e.g., maternal transfer, therapeutic transfer) or actively (e.g., natural exposure, vaccination). Acquisition of active immunity is described in  the text. Immunity can be acquired naturally or artificially. In either case, the host is exposed to an antigen (foreign protein), the antigen is recognized, and the host builds a complex immune response to neutralize the antigen.

Vaccines artificially expose the host to antigens which then elicit an immune response. There are two types of vaccines: killed vaccines and modified live vaccines. Killed vaccines are composed of agent antigens but not living agent. Modified live vaccines are composed of non-virulent, living strains of the agent. For example, polio vaccine comes in both killed (Salk vaccine) and the modified-live (Sabin vaccine) forms. The Salk vaccine, developed in 1955, is made by cultivating three strains of the virus in monkey tissue. The virus is then separated from the tissue, stored for a week, and killed with formaldehyde. This killed vaccine is given by injection and requires 4 inoculations. The modified-live Sabin vaccine is an attenuated strain of living agent. It is thus capable of causing infection, but not disease. The Sabin vaccine is given orally and is the primary type of polio vaccine in use today since it is easier to administer and elicits a stronger response than the Salk vaccine (partially because viral multiplication creates a larger stimulus for response). The Salk vaccine is now mostly of historic interest.

Toxoids are harmless derivatives of microbiologic toxins that simulate an active immune response to toxins released by pathogens and other poisonous sources. For example, the tetanus toxoid immunizes the individual against the poison produced by the bacteria Clostridium tetani. C. tetani usually enters the body through a puncture, cut, or open wound and then releases a toxin that affects the motor nerves, which stimulate the muscles. Regular vaccination with the toxoid is needed to ensure immunity and thus prevent the painful spasms of muscles, including "locking" of the jaw so that the mouth cannot open (lockjaw) and death that otherwise might results.

Terms you should definitely know:

• Infection - entry and multiplication of a microorganism or parasite in the body of a host.
• Infectious disease - infection + signs and symptoms.
• Contamination - presence of a living agent on the exterior of the body or on an article of clothing.
• Reservoir - the normal habitat where the agent lives and multiplies. It is where the agent propagates itself in nature. A dead-end host or temporary resting place of the agent is not a reservoir.
• Carrier - a person or animal that harbor an infectious agent yet manifest no discernible signs of infection.
• Zoonosis - an infections naturally transmitted between nonhuman animals and humans.
• Portal - an entry and exit site into or out of the host for an agent. The six portals for agents are (1) the respiratory tract, (2) the conjunctiva (lining around the eyes), (3) urogenital tract, (4) gastrointestinal tract, (5) tranplacental (mother to child), (6) and skin.
• Transmission - the mechanism by which an agent is spread from one host to another. The forms of transmission are described in the book.
• Immunity - host factors that alter the likelihood of infection and disease after the agent is encountered.