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Patterns in Health and Disease: Epidemiology and Physiology

Patterns in Health and Disease: Epidemiology and Physiology. Objectives . Define or describe the science of epidemiology. Contrast infectious with degenerative diseases as causes of death. Identify three major categories of risk factors and examples of specific risk factors in each.

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Patterns in Health and Disease: Epidemiology and Physiology

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  1. Patterns in Health and Disease: Epidemiology and Physiology

  2. Objectives • Define or describe the science of epidemiology. • Contrast infectious with degenerative diseases as causes of death. • Identify three major categories of risk factors and examples of specific risk factors in each. • Compare the epidemiologic triad with the web of causation as models to study infectious and degenerative disease, respectively.

  3. Objectives • Describe the difference between primary and secondary risk factors for coronary heart disease (CHD). • Describe the steps an epidemiologist must follow to show that a risk factor is causally connected to a disease. • Describe the hypothesis linking resistance to insulin as a cause of hypertension.

  4. Epidemiology Outline • Physiology • Synthesis • Coronary Heart Disease Physical Inactivity as a Risk Factor

  5. Key terms • Atherosclerosis • Degenerative disease • Epidemiologic triad • Epidemiology • Infectious disease • Primary risk factor • Secondary risk factor • Web causation

  6. Epidemiology Epidemiology • The study of the distribution and determinants of health states and the use of this information in the control of disease • Uses of epidemiology: • Establish the cause of disease • Trace the natural history of disease • Describe the health status of populations • Evaluate an intervention • Epidemiologic triad • Shows connections between the environment, agent, and host that cause disease

  7. Epidemiology The Epidemiologic Triad Figure 14.1

  8. Epidemiology Disease Control • Destroying or removing the agent at its source • Altering the environment to reduce transmission of the agent • Improving the host’s resistance to the agent • Altering the host’s behaviors • Improved nutrition • Immunization • Exercise

  9. Epidemiology In Summary • Epidemiology is the study of the distribution and determinants of health states and the use of this information in the control of disease. • Disease control can be achieved by: (1) destroying or removing the agent at its source, (2) altering the environment to reduce transmission of the agent, or improving the host’s resistance to the agent, and (3) altering the host’s behaviors such as improved nutrition, immunization, and exercise.

  10. Test Example • What is the definition of epidemiology being used in the textbook • What is characteristics of chronic (degenerative disease) • In the epidemiologic triad, which factor is considered in the cause of a disease • The reasons cause Titanic sunk 100 year ago

  11. Epidemiology Infectious and Degenerative Diseases • Infectious diseases • Tuberculosis • Pneumonia • Chronic (degenerative) diseases • Cancer, heart disease, and stroke • Responsible for 56% of all deaths in U.S. in 2004 • Difficult to establish cause of disease • Due to genetic, environmental, and behavioral factors

  12. Epidemiology Web of Causation • Difficult to establish the cause of chronic diseases • Atherosclerosis • Complex involvement of factors • Risk factors • Genetic • Gender, race • Environmental • Access to high-fat foods, places to exercise • Behavioral • Diet • Smoking • Physical activity/inactivity

  13. Epidemiology Web of Causation: Titanic Disaster Figure 14.2

  14. Epidemiology Web of Causation: Atherosclerosis Figure 14.3

  15. Epidemiology Major Risk Factor Categories Figure 14.4

  16. Epidemiology Degenerative Diseases • Result from interaction of genetics and environment • Inherited/biological factors • Age, gender, race, ease of developing disease • Cannot be changed • Environmental and behavioral risk factors • Most susceptible to change • Importance of personal responsibility

  17. Leading causes of death Heart disease Cancer Stroke Chronic lung disease Unintentional injuries Diabetes Actual causes of death Tobacco Diet and physical inactivity Alcohol consumption Infection Toxic agents Motor vehicles Firearms Epidemiology A Closer Look 14.1Leading and Actual Causes of Death

  18. Epidemiology In Summary • Epidemiologists show that the major causes of death in the United States are degenerative diseases such as heart disease and cancer. The development and progress of these diseases are affected by the interaction of environmental and behavioral risk factors.

  19. Test Example • What is the medical situation associated with atherosclerosis • The major risk factors for coronary heart disease that can all be changed • Increases risk of CHD in and of itself has been called

  20. Coronary Heart Disease Coronary Heart Disease (CHD) • Associated with atherosclerosis • Thickening of the inner lining of arteries • Contributor to heart attack and stroke death • Diseases of the heart and blood vessels are the leading cause of death in the U.S. • Associated with risk factors • Each risk factor magnifies the risk of CHD • Eliminating a risk factor causes a reduction in risk

  21. Coronary Heart Disease A Closer Look 14.2Risk Factors for Coronary Heart Disease • Primary • Increases risk of CHD in and of itself • Secondary • Increases risk of CHD if primary risk factor is present • Negative risk factor • Reduces risk of CHD • HDL-C • Some can’t be changed • Some can be changed

  22. Can’t be changed Heredity Gender Age Race Can be changed Cigarette smoking High serum cholesterol High blood pressure Physical inactivity Blood glucose Obesity Stress Coronary Heart Disease A Closer Look 14.2Risk Factors for Coronary Heart Disease

  23. Coronary Heart Disease In Summary • Risk factors can be divided into three categories: genetic/biological, environmental, and behavioral. • The risk factors of smoking, high cholesterol, and hypertension interact to magnify the risk of CHD. Similarly, elimination of one of them causes a disproportionate reduction in the risk of CHD.

  24. Test Example • What are the terms determining association between risk factor and disease • Upon epidemiologist guideline, relative risk is sometimes expressed as the ratio of the risk of disease among those exposed to the factor to the risk of those unexposed that is called ?

  25. Physical Inactivity as a Risk Factor Determining Association Between Risk Factor and Disease • Temporal Association • Plausibility • Consistency • Strength of association (relative risk) • Dose-response relationship • Reversibility • Study design • Judging the evidence

  26. Physical Inactivity as a Risk Factor Physical Inactivity as a Risk Factor • Independent risk factor for CHD • Relative risk of CHD due to inactivity is similar to other risk factors • Smoking • High cholesterol • High blood pressure • High population attributable risk • Percentage of population at risk • Due to large number of inactive individuals

  27. Physical Inactivity as a Risk Factor U.S. Population at Risk Figure 14.5

  28. Physical Inactivity as a Risk Factor In Summary • Physical inactivity is an independent risk factor for CHD. • The relative risk of CHD due to inactivity (1.9) is similar to that of hypertension (2.1) and high cholesterol (2.4). The fact that about 59% of the population is inactive indicates the enormous impact a change in physical activity habits can have on the nation’s risk for CHD.

  29. Question • Now a day, investigators have to offer to convince the scientific community that independent risk factor for CHD is?

  30. Physiology Hypertension • Often occurs with other metabolic abnormalities • Abdominal obesity • Peripheral insulin resistance • Dyslipidemia • High triglycerides • Metabolic syndrome • Coexistance of these risk factors

  31. Physiology Metabolic Syndrome • Insulin resistance • Reduced ability of peripheral tissues to take up glucose • Leads to hyperinsulinemia • Due to higher insulin secretion by pancreas • Also increases FFA level in the blood • Together with abdominal obesity • Hyperinsulinemia associated with: • Increased SNS activity • Increased sodium and water retention • Increased smooth muscle proliferation in blood vessels

  32. Physiology The Insulin-Resistance and Hypertension Hypothesis Figure 14.6

  33. Physiology What Causes the Metabolic Syndrome? • Several competing hypotheses • Insulin resistance • Changes in blood vessels and water retention cause hypertension • Hypertension • Decrease in small blood vessels reduces glucose and insulin delivery to muscle, causing insulin resistance • Increased SNS activity • Increases blood pressure and blood glucose • Obesity • Adipose tissue secretions affect insulin resistance

  34. Physiology A Closer Look 14.3The Metabolic Syndrome—Is It a Real Syndrome? • Reasons for this question: • Only half to two-thirds of people diagnosed with metabolic syndrome have insulin resistance • Both hypertension and dyslipidemia can exist without obesity or insulin resistance • However: • Diagnosis helps direct lifestyle changes • Classification as a disease allows insurance coverage

  35. Physiology Definition of the Metabolic Syndrome • Three or more of the following risk factors: • Abdominal obesity • Waist circumference >102 cm (men) and >88 cm (women) • Hypertriglyceridemia • ≥150 mg/dl • Low HDL cholesterol • <40 mg/dl (men) and <50 mg/dl (women) • High blood pressure • ≥130/85 mmHg • High fasting blood glucose • ≥110 mg/dl

  36. Physiology Prevalence of the Metabolic Syndrome • Overall, 23.7% of the population • 6.7% in those 20–29 years of age • 40% in those >60 years of age • Highest in Mexican-Americans • 31.9% of that population

  37. Physiology A Closer Look 14.4Overweight and Obesity • Prevalence in US adults • 66.3% are overweight (BMI = 25.0–29.9 kg/m2) • 32.2% are obese (BMI ≥30.0 kg/m2) • Prevalence in children and adolscents • 16% females and 18.2% males overweight • Linked to rise in diabetes • Recommendations for control of overweight and obesity • Surgeon General “Call to Action” • Healthy People 2010 • 2005 Dietary Guidelines for Americans

  38. Physiology In Summary • The metabolic syndrome model describes the potential causative connections between and among obesity, peripheral insulin resistance, hypertension, and dyslipidemia. • The insulin resistance is located primarily in skeletal muscle, being greater in type II muscles with their limited capillary supply. • Exercise can both directly and indirectly decrease the risk of CHD by influencing obesity, insulin resistance, and hypertension.

  39. Question • How investigators describe metabolic syndrome? • Hypertension is defined as a systolic/ diastolic pressure of at least ____ • When a triglyceride level is over 150 mg/dl is being usually called

  40. Nutrition objectives Achieve a healthy body weight Eat <30% total calories from fat and <10% total calories from saturated fat Eat at least five servings of fruits and vegetables and six servings of grains daily Physical activity objectives Engage in any leisure-time activity Participate in sustained activity for at least 30 minutes daily Engage in activity that promotes cardiovascular fitness three or more days per week for 20 minutes or more per occasion Participate in activity to enhance strength and flexibility Synthesis Healthy People 2010

  41. Self Study Questions • There is a sudden increase in the number of birth defects in one section of a large city. Describe what an epidemiologist might do to determine what is causing this problem. • Why is a web of causation model needed to study the causes of degenerative diseases, in contrast to infectious diseases? • Physical inactivity was long considered only a secondary risk factor. What “proof” did investigators have to offer to convince the scientific community otherwise? • What is the difference between primary and secondary risks for coronary heart disease (CHD)? Why does a high-fat diet not appear as a risk factor for CHD?

  42. Study Questions • Draw a diagram of the hypothesized connections between and among obesity, insulin resistance, hypertension, and dyslipidemia. Indicate the primary site of insulin resistance, and explain how exercise training might reduce the problem.

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