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Managerial Epidemiology Part I: Descriptive Epidemiology for Strategic Planning and Marketing Ty Borders, Ph.D. Assistant Professor Department of Health Services Research & Management Texas Tech School of Medicine Learning objectives – Define epidemiology – Explain the role of epidemiology in health care management – Explain characteristics of disease transmission and the development of disease – Calculate descriptive epidemiologic indicators – Identify health-related indicators for strategic marketing and planning – Identify sources of health-related indicators Some basics: What is epidemiology? • Study of the distribution and determinants of disease in humans • The doctrine of what is among or happening to people • Concerned with person, place, and time History of epidemiology • 1662, John Graunt – a petty merchandiser in London, publishes a report on births and deaths in London. First to quantify disease patterns. • 1839, William Farr – a physician, establishes system for routine compilation of no. and causes of death in England and Wales • 1855, John Snow a physician, studied whether drinking water in Southwark and Vauxhall increased risk of cholera Some subfields of epidemiology • Social epidemiology (populations) • Clinical epidemiology (patients) • Genetic epidemiology (patients/populations) • Health services epidemiology (populations/patients) Health services epidemiology • Study of the distribution and determinants of health-related events and states – Utilization of health services – Health-related quality of life – Satisfaction with care Managerial Epidemiology Epidemiological methods applied to the... – Assessment of community health for strategic purposes – Study of the determinants of risk of poor health and overutilization of services strategic purpose – Assessment and monitoring of health outcomes for quality improvement Organizational mission and epi • Children’s Hospital of Wisconsin mission statement – Provide comprehensive health care services to children appropriate for their special needs – Provide leadership, experience, and expertise as a community and state resources to advocate for the health and welfare of children…….. Organizational mission and epi • Mount Sinai, Chicago – Mount Sinai Hospital Medical Center is committed to the health and well-being of all those we serve. We accomplish this through: (1) Efficient and compassionate delivery of quality health care to our patients, regardless of their ability to pay; (2) Continuous improvement in the quality of the care and service we provide; (3) Leadership that involves and empowers our local communities in the development, advocacy, and implementation of innovative solutions to problems that affect social, economic, and individual health and well-being……... Why apply epidemiology to strategic planning and marketing? • Marketing orientation assumes that customer wants and needs must be met for organizational survival (Ginter, Duncan, & Swayne, Strategic Management of Health Care Org.) • Market share a key health care organization performance indicator (Griffith, Well Managed Community Hospital) • But, only about 20% of hospitals are market-oriented (Journal of Health Care Marketing) Market definition and analysis • Define market – Geographic (counties, city, city block, zip codes) – Demographic (age, gender) – Scope of services offered (open heart surgery, hernia repairs, primary care) – Scope of disease treated (diabetes, cancer, depression) • Determine population size • Estimate rate of growth – Secondary data sources – Demographic and social indicators Customer analysis • Forecast demand from current and new customers – Health status and demographic indicators – Admission, discharge, and visit data • Determine unmet health care needs – Rates of preventable diseases – YPLL – Social indicator analysis (median family income, % of families in poverty, % unemployed, % teenagers not in school) – Treatment rate analysis – Community-based surveys Strategic Implementation • Expansion/market development – New service areas, new delivery sites • Expansion/product development – New products or service lines • Contraction/decrease scope – Reduce product lines, reduce product variations – Contraction/decrease service area – Close entire facilities, close unites, limit services to smaller market areas. Review: Biologic Concepts • Agent-Host Environment – An agent interacts with a host in a particular environment to produce disease (the epidemiologic triangle) Host Vector Agent Environment Biologic Concepts • Agent – Infectious, pharmacological, toxicological, injury • Environment – Biologic (reservoirs, vectors, nutrition) – Social (culture, economics) – Physical (heat, light, personal contact, crowding) • Host – Behavior, age, genetics, physical status, immunity Incubation or Induction Period • The period of time between exposure to a causative agent and the appearance of first clinical manifestations Infection Incubation/induction/ latent period Inapparent Mild Disease Moderate Severe Fatal Likely to be seen by doctor Likely to be hospitalized Disease outbreaks • Development and maintenance of outbreak depends upon – Presence of pathogen in sufficient quantities – Appropriate mode of transmission of pathogen to susceptible persons – Adequate pool of susceptible persons exposed to pathogen Characteristics of infectious agents • Pathogenecity – Ability to cause detectable disease total # of individuals with disease total # of infected individuals • Infectivity – Ability to invade and multiply in host • Virulence – Proportion of cases of disease that result in severe disease or death • Immunogenicity – Ability of infection to produce immunity Mode and source of transmission • Modes – Person-to-person spread (direct transmission) • e.g., coughing, sexual intercourse, etc. – Indirect transmission • vehicle born (e.g., contaminated food, water) • vector born (e.g., mosquito) • airborne • Sources – Common source (e.g., shared water, food) – Uncommon source (e.g., multiple persons) Examples of routes of transmission Agent Respiratory Cigarette smoke Influenza virus Gastrointestinal Vibrio cholera Lead Sexual transm. HIV Perinatal exposure Rubella virus Blood stream exp. Clostridium tetani & skin breakage Disease Lung cancer Flu Cholera Lead poison. AIDS Cong. Defects Tetanus Investigation • Calculate attack rates among different groups • Then compare attack rates to identify those at higher risk • Obtain more detailed information, possibly through surveys, but be aware of potential bias Termination of disease outbreak • Usually depends upon – Removal or elimination of pathogen source – Blockage of transmission process – Elimination of susceptibility (e.g., through vaccination or medication) Assessment of health care needs: Measures of disease occurrence • 3 measures used to assess the frequency of disease or other health events – Risk, also referred to as cumulative incidence – Prevalence – Incidence density, also called incidence rate Risk or Cumulative Incidence Proportion of unaffected individuals who, on average, will contract disease of interest over a specified period of time Risk or CI = New cases Persons at risk R = 0 if no new occurrences arise R = 1 if the entire population becomes infected Risk, continued • Risk factor – Associated with increased risk – Dose, latency, frequency, susceptibility, multiplicity (multiple causal factors) • Exposure – Contact with a risk factor – Dose and duration dependent – Direct or indirect Calculation example We are interested in the risk of acquiring a nosocomial infection. A study was conducted on 5031 patients. 596 patients developed infection within 48 hours after admission. R = 596 / 5031 = 0.12 = 12% Prevalence • Prevalence is a measure of the number of existing cases in a population • Specifically, the proportion of a population that has a disease at a particular point in time P= Number of cases Number of persons in population Prevalence, like risk, ranges between 0 and 1 Incidence rate or incidence density • Reflects the occurrence of new cases (like risk), but also measures the rapidity with which event occurs IR = New cases Person time Example Patient A develops a disease 2 years after entry into study. Thus, the person-time for Patient A is 2 years. Patients B,C,D,E an F contribute 2,3,7,2 and 6 years, respectively. Thus, the number of person-years is 2+2+3+7+2+6 = 22. IR = new cases/ PT = 1 / 22 Summary Characteristic Risk Prev. IR What is measured Prob. of disease % of pop. with dis. Rapidity of dis. Occurrence Units None None Cases/persontime Time of disease diagnosis Newly diagnosed Existing Newly diagnosed Synonyms Cumulative Incidence - Incidence Density Survival • Probability of remaining alive for a specific length of time • For chronic disease, like cancer, 1-year and 5-year survival are important indicators of prognosis and severity. Calculation of survival Survival = A - D A D = number of deaths observed over a defined period of time A = number of newly diagnosed patients under observation Types of data • Continuous (interval, ratio) • Categorical (dichotomous, nominal, ordinal) – – – – Frequency distribution Proportion Rate Ratio Types of descriptive rates • Crude rates – Rates presented for entire population – e.g. Cancer mortality rate in 1980 (416,481 cancer deaths / midyear U.S. population) • Category specific rates – Rates presented for individuals in specific categories – e.g. Cancer deaths among persons 45-54 Adjusted rates • If we are interested in the magnitude of the health problem, we don’t need adjusted rates • If we are interested in comparing populations, we need to adjust for differences Adjustment methods • Take a weighted average of categoryspecific rates • Direct method • Indirect method Pros/cons of crude, specific, and adjusted rates Type Strengths Crude Actual summary rates Specific Adjusted Limitations Difficult to interpret b/c populations may vary in composition Homogeneous Cumbersome to compare subgroups many subgroups of 2 or more populations Summary statistics Fictional rates Differences in Absolute magnitude composition removed depends on standard population chosen Standardized mortality rate (SMR) • SMR = observed deaths / expected deaths = indirect adjusted rate / crude rate of standard pop. • Usually expressed as a percent Types of Incidence and Prevalence Measures Rate Type Numer. Denom. Morbidity rate Incidence Mortality rate Incidence Case-fatality rate Incidence Period Prevalence # new nonfatal Total pop. cases at risk # deaths from Total pop. a disease(s) # deaths from # of cases a disease of that disease # existing cases Total pop. plus new cases diagnosed during given time period Age-adjusted cancer morbidity and mortality rates • • • • • • • • All cancers Prostatic Cervical Lung and bronchial Colorectal Female breast Laryngeal Pancreatic Non-Hodgkin’s lymphoma Skin melanoma Urinary bladder Brain Kidney/renal Ovarian Age-adjusted mortality rates for other diseases • • • • • • • Stroke Arteriosclerosis Diabetes Diseases of arteries Chronic obstructive pulmonary disease (COPD) Pneumonia and influenza rate Chronic liver disease and cirrhosis Age-adjusted injury morbidity and mortality rates • • • • • • • Stroke Arteriosclerosis Diabetes Diseases of arteries Chronic obstructive pulmonary disease (COPD) Pneumonia and influenza rate Chronic liver disease and cirrhosis Crude infectious disease rates • • • • Syphilis incidence rate Chlamydia incidence rate Gonorrhea incidence rate Tuberculosis incidence rate Youth health data • • • • • • • % of live births to teens Fetal mortality rate Infant mortality rate Homicide mortality rate ages 15-19 Suicide mortality rate ages 15-19 % of extramarital live births to teens Founded cases of child birth Socioeconomic data • • • • Per capita income Unemployment rate % of population below 200% of poverty level % of population with at least a baccalaureate degree • % of population Medicaid eligible • Population density Years of potential life lost (in 1,000s) from leading causes of cancer, 1991 (from Greenberg, 1996) Leukemias 342 Pancreas 352 Colon/rectum 754 Breast 845 Lung 2145 0 500 1000 1500 2000 2500 Years of Potential Life Lost before age 65 by cause of death (per 100,000 person years) (from Greenberg, 1996) HIV infection 347 Homicide 395 Heart disease 628 Cancer 843 Injuries 935 0 200 400 600 800 1000 Health-Related Data Sources • Texas Department of Health • U.S. Census Bureau • Centers for Disease Control • Health Resources and Services Administration • Surveys Health-Related Data Sources • Group records – Centers for Medicare and Medicaid Services (CMS) • DRGs – BCBS, insurance companies, HMOs • ICD-9 codes, CPT-codes