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AmusingBambooFlute

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The University of Hong Kong

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microbial infections infectious diseases public health microbiology

Summary

This document provides a summary of microbial infections and infectious diseases, including descriptions of different types of infections and their modes of transmission. It also covers public health surveillance and disease outbreaks, such as epidemics, with examples and methods for analysis.

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8. MICROBIAL INFECTIONS 8.1. INFECTIOUS DISEASES 8.1.1. SUMMARY OF INJURIES AND DISEASES - Types of injury and response: - Cause of diseases: 2 8.1.2. INTRODUCTION TO COMMUNICABLE DISEASES - Microbiology: - The study of...

8. MICROBIAL INFECTIONS 8.1. INFECTIOUS DISEASES 8.1.1. SUMMARY OF INJURIES AND DISEASES - Types of injury and response: - Cause of diseases: 2 8.1.2. INTRODUCTION TO COMMUNICABLE DISEASES - Microbiology: - The study of organisms which are usually small in size, simple in structure (and neither plants nor animals except in the case of parasites and algae) - Communicable diseases: - Communicable diseases can be spread, directly or indirectly, from one person to another person, or from other species to humans - Communicable diseases are caused by pathogenic microorganisms, such as bacteria, viruses, fungi, parasites or prion - “Communicable diseases” is used interchangeably with “infectious diseases” - Definition of an “infectious agent”: - Koch’s postulate (1876): - The parasite occurs in every case of the disease in question and under circumstances which can account for the pathological changes and clinical course of the disease - The parasite occurs in no other disease as a fortuitous and nonpathogenic parasite - After being fully isolated from the body and repeatedly grown in pure culture the parasite can induce the disease anew - The parasite can be re-isolated from an experimentally inoculated host - Limitations: - Possible state of asymptomatic infections - Not all microbes can be isolated/ cultured - Not all microbes can be experimentally inoculated in suitable animal models to reproduce the infection - Classification of infectious agents (microbes): 3 1. Parasites: - Parasites include single-celled (protozoa) or multicellular organisms (helminth) - They live on or in a host organism and get its food from or at the expense of its host 2. Fungi: - Fungi can be single-celled (yeast) or multicellular organisms (filamentous moulds) 3. Bacteria: - Bacteria are single-celled organisms - The cell structure is simpler than that of other organisms as there is no nucleus or membrane bound organelles 4. Viruses: - A virus is made up of a core of genetic material, either DNA or RNA, packed within an organic particle - Viruses invade living cells and use their host's metabolic processes to produce a new generation of viral particles 5. Prions: - Prions are misfolded proteins that can induce abnormal folding of specific normal cellular proteins - Prions are autocatalytic, e.g. in JCD [Molecular techniques: include structural microscopy, x-ray diffraction] 4 - Modes of transmission: 1. Direct: a. Direct contact transmission: - The infectious agent is passed from one skin/mucosal surface to another skin/mucosal surface (eg. kissing or sexual intercourse) b. Droplet transmission: - The infectious agent is spread via large aerosols that travel within a short-distance (due to gravity) to another mucosal surface 2. Indirect: a. Airborne transmission: - The infectious agent is spread via fine-size dust or droplet nuclei that may remain suspended in air for an extended period of time b. Vehicle transmission: - The infectious agent is spread via food, water, blood, or fomites (inanimate objects, e.g. door knobs, lift buttons) - A vehicle may passively carry a pathogen or provide an environment in which the agent multiplies or produces toxin c. Vector-borne transmission: - The infectious agent is spread by mosquitoes, fleas, or ticks. A vector may carry an infectious agent purely mechanically or may support replication or development of the infectious agent - An infectious agent may be transmitted via multiple transmission modes: - E.g. a respiratory virus: droplet, airborne, and vehicle (fomite) transmission - E.g. Zika virus: direct contact and vector-borne transmission 5 8.1.3. PUBLIC HEALTH SURVEILLANCE - Targets of public health intervention: - Controlling or eliminating infectious agents at the source of transmission: - Discard food that has been contaminated with Salmonella typhimurium - Quarantine and treatment of infected subjects - Protecting portals of entry: - Wearing surgical masks and face shields to prevent droplet transmission - Using bed nets to prevent transmission of malaria - Increasing host's defences: - Vaccination - Public health surveillance: - Public health surveillance is the ongoing, systematic collection, analysis, interpretation, and dissemination of data regarding a health-related event for use in public health action to reduce morbidity and mortality and to improve health - Purposes of surveillance systems: - Measure the burden of a disease - Detect and monitor outbreaks - Probe epidemiologic investigation - Guide the planning and implementation of public health programs - Evaluate interventions or public policies - Prioritise the allocation of health resources - The ultimate goal is to produce information to guide public health actions - Types of surveillance system: - Data sources: - Vital statistics, e.g. birth rate and mortality - Statistics on communicable diseases: - Statutory notifiable diseases – medical practitioners are required by law to notify the Director of Health of any suspected or confirmed case of notifiable infectious diseases (currently there are 55 such diseases) 6 - Sentinel surveillance (e.g. general out-patient clinics/ private medical practitioners may report weekly consultation rate of influenza-like illness) - Statistics on Antimicrobial Resistance Control, e.g. antimicrobial use and resistance - Statistics on Laboratory Surveillance, e.g. detection of pathogens from respiratory specimens - Registries (e.g. cancer, immunisation) - E.g. Sentinel surveillance for influenza-like illness: - Defined as fever >38ºC and cough/sore throat) - Consultation rate at sentinel GOPC and PMP: - Helps inform the CHP of the number of people in a population who have acquired respiratory infections and show symptoms of influenza-like illness - Multiple pathogens may cause the same symptoms, so the measurement is not specific enough to reflect the number of influenza patients in the community - E.g. Detection of influenza viruses in respiratory specimens: - By obtaining detection frequency - Percentage of respiratory specimens tested positive for influenza viruses by subtypes - More specific and accurate for influenza virus as the target pathogen - Take more resources to generate such a data, including efforts to collect specimens and to perform specific laboratory testing 7 8.1.4. DISEASE OUTBREAKS AND EPIDEMICS - Disease outbreaks: - A situation when diseases or health events occur at a greater frequency than normally expected within a specified period and place - The occurrence of a greater number of disease cases than normally occurs in the same place during the same period as in past years (e.g. influenza epidemics) - A cluster of cases of the same disease occurs that can be linked to the same exposure (e.g. group of guests who developed gastroenteritis) - A single case of disease that has never occurred before or might have a significant implication for public health policy and practice (e.g. first report of a child infected with H5N1) - Categorisation: 1. Outbreak/ Epidemic: - The occurrence of an illness or specific health-related behaviour/events that is clearly in excess of normal expectancy in a community or region 2. Pandemic: - An epidemic occurring worldwide or over a very wide area, crossing international boundaries and usually affecting a large number of people 3. Endemic: - The constant presence of a disease or infectious agent within a given geographic area or population group [Communicable diseases cause outbreaks which have the potential to become pandemics] - Zoonosis: - Pathogens that infect animals cross the species barrier and infect humans - A majority of zoonotic diseases cannot be transmitted effectively from human to human 8 - Epidemic curve: - An epidemic curve shows the progression of illness and the magnitude of an outbreak over time - It is generated by plotting the number of cases by the date of illness onset - During ongoing outbreak investigations, the epidemic curve is updated as new data become available - Therefore, there is an inherent delay between the date that an illness starts and the date that the case is reported to public health authorities - By monitoring the epidemic curve, an investigator may get information on the size, time trend (ongoing or decreasing), and the pattern of spread of an outbreak - Basic reproduction number (R0): - The average number of secondary infections caused by an infected individual in a naive population of susceptible hosts - It is an estimate of contagiousness that is a function of human behaviour and biological characteristics of pathogens - An outbreak is expected to continue if R0 has a value >1 and to end if R0 is

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