Chapter 10 Mechanisms of Infectious Disease PDF
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This document outlines the mechanisms of infectious diseases, covering the triad of disease model, various agents (viruses, bacteria, fungi, parasites, prions), and the impact on the host. It also discusses the concept of virulence, pathogenicity, and different forms of disease transmission.
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Chapter 10 Mechanisms of Infectious Disease - Triad of disease model - Infectious diseases result from the interaction of an agent, a susceptible host, and environmental conditions that promote infection. - Host -- any organism capable of supporting the nutritional and...
Chapter 10 Mechanisms of Infectious Disease - Triad of disease model - Infectious diseases result from the interaction of an agent, a susceptible host, and environmental conditions that promote infection. - Host -- any organism capable of supporting the nutritional and physical growth requirements of another. - Inection -- the presence and multiplication within a host of another living organism with subsequent injury to the host. - Colonization -- the act of establishing a presence. - Normal microflora -- the multitude of bacteria harmlessly inhabited within the internal and exposed surfaces of the body. - Commensalism -- when the host is not adversely affected by the colonizing bacteria acquiring nutrition from it. - Commensal flora -- colonizing microorganisms - Mutualism -- an interaction in which both the microorganism and the host derive benefits from the interaction. - Example: Microorganisms in the intestinal tract extract nutrients from the host and secrete essential vitamin by-products of metabolism (e.g., vitamin K) that are absorbed and used by the host. - Parasitic relationship -- a relationship in which only the infecting organism benefits from the relationship and the host either gains nothing or sustains injury from the interaction. - Infectious disease -- injury or pathologic damage sustained as a result of a parasitic relationship between an infecting organism and its host. - Virulence -- disease-producing potential of a microorganism. - Pathogens -- microorganisms capable of causing disease. - The severity of infectious disease depends on many variables, including: - The health of the host at the time of infection - The virulence of the microorganism - Environmental conditions - Saprophytes -- harmless, free-living organisms obtaining their growth from dead or decaying organic material in the environment. - Opportunistic pathogens - microorganisms (including saprophytes and normal flora) capable of producing an infectious disease when the health and immunity of the host are weakened by illness, malnutrition, or medical therapy. - Common diseases caused by viruses: - Influenza - The common cold - Measles - HIV/AIDS - Common diseases caused by bacteria: - Strep throat - Some sinus and lung infections - Some food poisoning - Common diseases caused by fungi: - Athlete's foot - Yeast infections - Common diseases caused by protozoa: - Malaria - Sleeping sickness - Common diseases caused by worms: - Roundworms - Tapeworms (helminths) - Common diseases caused by prions: - Creutzfeldt-Jakob disease (associated with other neurodegenerative conditions) - Agents of infectious disease - Prions - Viruses - Bacteria - Fungi - Parasites - Prions -- protein particles that are able to transmit infection by self-propagation - Prion-associated diseases: - Creutzfeldt-Jakob disease - Multiple system atrophy - Kuru in humans - Prion-associated animal disease: - Bovine spongiform encephalopathy (mad cow disease) - Transmissible neurodegenerative diseases -- prion-associated diseases that are characterized by a slowly progressive, noninflammatory neuronal degeneration leading to loss of coordination (ataxia), dementia, and death over a period ranging from months to years. - The conversion of a cellular precursor protein (PrP^C^) into an abnormally folded protein (PrP^SC^) causes the protein to behave differently. - The PrP^SC^ is resistant to the action of proteases (enzymes that degrade excess or deformed proteins). - Accumulation of these misfolded proteins becomes toxic to cells; however, as they aggregate, they become less toxic to the cell and can then be captured in plaques, tangles, or inclusion bodies. - The stable pathogenic structure of PrP^SC^ is resistant to treatment. - Prions can reproduce despite the absence of genetic material. - It is believed that PrP^SC^ aggregates into amyloid-like plaques in the brain and spreads within the axons of the nerve cells, causing progressively greater damage of host neurons and the eventual incapacitation of the host. - Human transmission occurs primarily from eating infected meat or receiving an infected transplant organ or cornea.