Friday, October 11, 2019
Principles of Disease and Epidemiology
Chapter 14 ââ¬â Principles of Disease and Epidemiology Pathology Infection and Disease 1. Pathology is the scientific study of disease ââ¬â concerned with cause (etiology) and manner in which disease develops (pathogenesis) ââ¬â Also concerned with structural and functional changes brought about by disease and final effects on the body 2. Infection ââ¬â invasion or colonization of the body by pathogenic microorganisms 3. Disease ââ¬â when infection results in change in state of health Normal Microbiota ââ¬â 1. Free of microbes in utero, at birth gain lactobacilli in intestine from mothers vaginal canal, E. oli taken through food and inhabits intestine thru life 2. Ten times more bacterial cells than human cells in the body 3. Normal flora ââ¬â normal microbiota 4. Transient microbiota ââ¬â present for a while but disappear 5. Distribution of normal flora dependent on physical and chemical factors, defenses of the host and mechanical factors Relationshi p between Normal Flora and Host 1. Microbial antagonism ââ¬â aka competitive exclusion ââ¬â normal microbiota ability to protect the host from overgrowth of harmful microorganisms 2. Normal microbiota and host live in symbiosis ââ¬â one is dependent on the other 3. The three types of symbiosis ââ¬â commensalism (one organism benefits, other unaffected), mutualism (both benefit) and parasitism (one harmed and one benefits) 4. Probiotics ââ¬â live microbial cultures applied to or ingested that are intended to exert a beneficial effect Opportunistic Microorganisms 1. E. coli ââ¬â normally harmless but in other parts of the body ââ¬â cause UTI, pulmonary infections, meningitis or abscesses. 2. AIDS ââ¬â compromises immune system ââ¬â increases susceptibility to opportunistic infection e. g. Pneumocystis pneumonia The Etiology of Infectious Disease ââ¬â Kochââ¬â¢s Postulates ââ¬â 1. Koch established that microorganisms cause specific disease 2. Isolated microorganisms from diseased animal, grew in pure culture and identified, injected healthy animal, disease reproduced and identical 3. Experimental requirements ââ¬â same pathogen must be present in every case of disease, pathogen must be isolated from diseased host and grown in pure culture, pathogen must cause disease when inoculated into healthy animal, pathogen must be isolated from inoculated animal and shown to be original organism Exceptions to Kochââ¬â¢s postulates ââ¬â 1. Unique culture environments ââ¬â modified to establish etiologies of those that cannot be grown on artificial media e. g. viruses, syphilis, leprosy 2. Some disease such as tetanus have unequivocal signs and symptoms 3. Some disease may be caused by a number of microbes e. g. pneumonia and nephritis 4. Some pathogens cause several diseases e. g. S. pyogenes 5. Certain pathogens only cause disease in humans e. g. HIV Classifying Infectious diseases ââ¬â 1. Every disease alters body structures and functions in particular ways ad are indicated by several kinds of evidences 2. Symptoms ââ¬â changes in body functions 3. Signs ââ¬â objective changes the physician can observe or measure e. g. lesions, swelling, fever and paralysis 4. Syndrome ââ¬â a specific group of signs or symptoms that accompany a disease 5. Communicable disease ââ¬â any disease that spreads from one host to another e. g. herpes, chickenpox, measles, typhoid fever and TB 6. Contagious diseases ââ¬â Spread easily from host to host e. g. chickenpox 7. Noncommunicable Disease ââ¬â caused by microorganisms that inhibit body and only occasionally produce disease or live outside the body and produce disease when introduced e. . tetanus Occurrence of Disease ââ¬â 1. Incidence ââ¬â the number of people in a population who develop a disease during a particular period of time 2. Prevalence ââ¬â number of people in a population who develop a disease at a specific time, regardless of when it first appeared ââ¬â old and new 3. Sporadic disease ââ¬â occurs on ly occasionally e. g. typhoid fever 4. Endemic disease ââ¬â constantly present in a population ââ¬â e. g. common cold 5. Epidemic disease ââ¬â Many people in a given area develop disease n short time e. g. AIDS, STDââ¬â¢s 6. Pandemic ââ¬â Epidemic disease that occurs worldwide e. g. avian flu Severity or Duration of Disease ââ¬â 1. Acute disease ââ¬â develops rapidly but only lasts a short time e. g. influenza 2. Chronic Disease ââ¬â develops more slowly and bodyââ¬â¢s reactions may be less severe but continues or recurs for long periods of time e. g. Mono, TB & HepB 3. Subacute ââ¬â Intermediate between Acute and Chronic e. g. Sclerosing panencephalitis 4. Latent Disease ââ¬â causative agent remains inactive for some time but than becomes active to produce symptoms e. . shingles 5. Herd Immunity ââ¬â Immunity to disease in most of population Extent of Host Involvement ââ¬â 1. Local infection ââ¬â microorganisms limited to relatively small area e. g. boils 2. Systemic infection ââ¬â Spread throughout the body by blood or lymph e. g. measles 3. Focal infection ââ¬â local infection enters blood or lymph and spread to other specific body parts where they are co nfined ââ¬â arise f/ teeth, tonsils, sinus 4. Sepsis ââ¬â toxic inflammatory condition arising from spread of microbes from a focus of infection 5. Septicemia ââ¬â blood poisoning systemic infection arising from multiplication of pathogens in blood 6. Bacteremia ââ¬â presence of bacteria in blood, Toxemia ââ¬â presence of toxins in blood and viremia ââ¬â presence of virus in blood 7. Primary infection ââ¬â acute infection that causes initial illness 8. Secondary infection ââ¬â caused by an opportunistic pathogen after primary weakens defenses 9. Subclinical (inapparent) infection is one that does not cause any noticeable illness e. g. Polio & HepA can be carried but never developed Patterns of Disease . Sequence ââ¬â must be reservoir of infection as a source pathogen transmitted to susceptible host by contact or vectors transmission followed by invasion (enters host, multiplies) injures host through pathogenesis 2. Despite these effects, occurance of disease generally depends on resistance Predisposing factors ââ¬â makes body more susceptible and may alter course of disease 1. Gender ââ¬â Fem ales more UTI, Men more meningitis 2. Genetic background ââ¬â sickle cell against malaria 3. Climate and weather ââ¬â respiratory disease increase in winter 4. Others ââ¬â nutrition, age environment, lifestyle, habitat, illness, chemo, emotions. Development of Disease ââ¬â 1. Incubation Period ââ¬â interval between initial infection and first mild signs and symptoms, time depends on virulence, number of microorganisms, and resistance 2. Prodromal period ââ¬â characterized by appearance of the first mild signs and symptoms 3. Period of illness ââ¬â disease at its height and all signs and symptoms apparent, PT dies during this period if not overcome 4. Period of Decline ââ¬â signs and symptoms subside- vulnerable to secondary infection 5. Period of convalescence ââ¬â body returns to its pre-diseased state and health is restored The Spread of Infection Reservoirs of Infection ââ¬â 1. Reservoir of Infection ââ¬â A continual source of infection- may be human animal or nonliving 2. Human reservoirs ââ¬â Many people harbor pathogens and transmit them ââ¬â Carriers are living reservoirs and harbor the disease with or without signs or symptoms ââ¬â Can carry disease during latent phases such as incubation or convalescent ââ¬â play important role in spread of AIDS, typhoid fever, diphtheria, hep, gonorrhea, and streptococcal infections 3. Animal Reservoirs ââ¬â Wild or domestic ââ¬â Zoonosis are diseases that occur in wild but can be transmitted to humans e. g. Rabies, Lyme disease ââ¬â Can occur through contact of animal, its waste, consumption or contamination. 4. Nonliving Reservoirs ââ¬â Soil and Water ââ¬â Soil e. g. Ringworm, Botulism and Tetanus, Water e. g. ââ¬â usually contamination related, cholera , typhoid fever Transmission of Disease 1. Contact ââ¬â spread od an agent of disease by direct contact, indirect contact or droplet transmission a. Direct Contact ââ¬â touching kissing, intercourse, ââ¬â Any close physical contact e. . STDs, AIDS, cold, influenza, staph, Hep A, measles etc. b. Indirect Contact ââ¬â occurs when agent of disease is transmitted from reservoir to host by means of nonliving object ââ¬â Fomite is a object involved in spread of infection e. g. tissues, bedding, syringes etc. c. Droplet Transmission ââ¬â microbes are spread in droplet nucle i that travel short distance ââ¬â Sneezing, coughing, talking ââ¬â not considered airborne e. g. flu, pneumonia and pertussis 2. Vehicle Transmission ââ¬â transmission of disease by a medium, such as water food or air and drugs blood IV and body fluids d. Waterborne ââ¬â contaminated water, cholera leptospirosis e. Foodborne ââ¬â transported through undercooked, poorly kept or unsanitary food such as tapeworm f. Airborne ââ¬â droplet nuclei in dust that travels more than 1 meter ââ¬â measles virus and TB bacteria as well as some spores can be carried in dust and cause disease coccidiodomyosis 3. Vectors ââ¬â animals that carry disease from one host to another ââ¬â g. Mechanical Transmission ââ¬â passive transport on insects feet or body part ââ¬â houseflies transfer from feces to food h. Biological transmission ââ¬â active process and more complex ââ¬â arthropod bites infected person pathogens reproduce in vector increase causes more possibility of transmit. If arthropod vomits or defecates while biting host, can transfer from gut. Often parasites, also includes ââ¬â Lyme disease, plague, Malaria etc. Nosocomial (Hospital Acquired) Infections 1. A nosocomial infection is any infection that is acquired during the course of stay in a hospital, nursing home or other healthcare facility 2. About 5 ââ¬â 15% of all hospitalized patients will acquire this 3. Result from combination of weakened host, chain of transmission in hospital and availability of microorganisms in hospital. Microorganisms in the Hospital 1. Often normal flora are a problem when introduced to body in catheters and surgical procedures 2. Major problems include coagulase negative staph, S. aureus, E. coli, Enterococcus, P. aeruginosa, Enterobacter, K. pnuemoniae, Candida albicans 3. Most frequent are opportunistic gram negative, drug resistant Compromised Host 1. Resistance impaired by disease, therapy and burns. 2. Two principals ââ¬â Broken skin/Mucous membranes and suppressed immunity . Broken skin and mucous membranes ââ¬â disable first line of defense 4. Invasive devices also cause problems 5. Adverse effects to B and T Cells compromise host Chain of Transmission ââ¬â 1. Direct transmission from staff member to patient and among patients 2. Fomites such as catheters, syringes and respiratory devices Control of Nosocomial Infections ââ¬â 1. Aseptic techniques can prevent ââ¬â Hand washing most important 2. Hospital infection control staff members are responsible for overseeing proper cleaning, storage and handling of equipment and supplies Emerging Infectious Diseases . EIDââ¬â¢s are new or changing, increasing recently and showing future increase. 2. Number of factors contribute to emergence including new strains which may result from genetic recombination (E. coli), a new serovar resulting from changes or evolution (Vibrio cholerea) , use of antibiotics and pesticide to cause resistance, changes in weather patterns (Hantavirus), modern transportation (West Nile), Ecological changes from natural disasters construction or wars, animal control measures (kill deer predators, more deer, more Lyme disease and failures in public health measures. . CDC priorities (1) Detect investigate and monitor pathogens and disease (2) Expand basic and applied research on ecological and environmental factors microbial changes and host in teraction (3) Enhance public information (4) Establish plans to monitor and control worldwide Epidemiology 1. The science of epidemiology is the study of transmission incidence and frequency of disease 2. Modern epidemiology began in mid-1800s with the works of Snow, Semmelweis and Nightingale 3. Descriptive Epidemiology ââ¬â data about infected people is collected and analyzed ââ¬â includes info about person place and period 4. Analytical epidemiology ââ¬â analyzes disease to determine probable cause ââ¬â (case control method) a group of infected people is compared with an uninfected group or (Cohort Method) people in contact with an agent vs. hose not in contact with the same agent 5. Experimental Epidemiology ââ¬â controlled experiments designed to test hypothesis are performed e. g. placebo studying 6. Case reporting provides data on incidence and prevalence to local, state and national health officials 7. The CDC is the main source of epidemiologic information in the US 8. The CDC publishes the Morbidity and Mortality weekly report to provide info on incidence and deaths.
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