1. Syndemics Prevention Network
System Dynamics Applications at the Federal Centers for Disease Control and Prevention (CDC)
Dr. Jack Homer
Institute on Systems Science and Health
University of Michigan School of Public Health
May 6, 2009
Bobby Milstein (August 26, 2004)

2. Syndemics Prevention Network
Agenda
Background
Diabetes Policy Model
Cardiovascular Disease Policy Model
National Health Policy Model and Game
Bobby Milstein (August 26, 2004)

3. Syndemics Prevention Network
CDC Mission
The Centers for Disease Control and Prevention (CDC) serves as the national focus for developing and applying disease prevention and control, environmental health, and health promotion and health education activities designed to improve the health of the people of the United States.
CDC administers the Preventive Health and Health Services Block Grant and specific preventive health categorical grant programs while providing program expertise and assistance in responding to Federal, State, local, and private organizations on matters related to disease prevention and control activities.
Bobby Milstein (August 26, 2004)

4. What Accounts for Poor Population Health? Evolving Views
Syndemics Prevention Network
What Accounts for Poor Population Health? Evolving Views
God’s will
Humors, miasma, ether
Poor living conditions, immorality (e.g., sanitation)
Single disease, single cause (e.g., germ theory)
Single disease, multiple causes (e.g., heart disease)
Single cause, multiple diseases (e.g., tobacco)
Multiple causes, multiple diseases (but no feedback dynamics) (e.g., multi-causality)
Dynamic interaction among afflictions, adverse conditions, and intervention capacities (e.g., syndemics)
1880
1950
1960
1980
2000
1840
God’s will
Humors, miasma, ether
Poor living conditions, immorality (e.g., sanitation)
Single disease, single cause (e.g., germ theory)
Single disease, multiple causes (e.g., heart disease)
Single cause, multiple diseases (e.g., tobacco)
Multiple causes, multiple diseases (but no feedback dynamics) (e.g., multi-level modeling)
Dynamic feedback among afflictions, living conditions, and public strength (e.g., syndemic)
Milstein B. Hygeia's constellation: navigating health futures in a dynamic and democratic world. Atlanta, GA: Syndemics Prevention Network, Centers for Disease Control and Prevention; April 15, <
Richardson GP. Feedback thought in social science and systems theory. Philadelphia, PA: University of Pennsylvania Press, 1991.
Bobby Milstein (August 26, 2004)

5. Syndemics Prevention Network
CDC’s Simulation Studies for Health System Change
Upstream- Downstream Dynamics
Neighborhood Transformation Game
National Health Economics & Reform
Health Protection
Game
Overall Health Protection Enterprise
SD Identified as a Promising Methodology for Health System Change Ventures
2000
2001
2002
2003
2004
2005
2006
2007
2008
Diabetes Action Labs
Obesity Over the Lifecourse
Fetal & Infant Health
Syndemics Modeling
Cardiovascular Health in Context
Selected Health Priority Areas
Bobby Milstein (August 26, 2004)

6. Syndemics Prevention Network
Re-Directing the Course of Change Questions Addressed by System Dynamics Modeling
Prevalence of Diagnosed Diabetes, United States
Simulation Experiments in
Action Labs 40
Historical
Data
Markov Forecasting Model
Where? 30
Million people 20
What?
How?
Markov Model Constants
Incidence rates (%/yr)
Death rates (%/yr)
Diagnosed fractions
(Based on year 2000 data, per demographic segment) 10
Trend is not destiny!
Who?
Why?
1980
1990
2000
2010
2020
2030
2040
2050
Honeycutt A, Boyle J, Broglio K, Thompson T, Hoerger T, Geiss L, Narayan K. A dynamic markov model for forecasting diabetes prevalence in the United States through Health Care Management Science 2003;6:
Jones AP, Homer JB, Murphy DL, Essien JDK, Milstein B, Seville DA. Understanding diabetes population dynamics through simulation modeling and experimentation. American Journal of Public Health 2006;96(3):
Bobby Milstein (August 26, 2004)

7. SD Model Uses and Audiences
Syndemics Prevention Network
SD Model Uses and Audiences
Set Better Goals (Planners & Evaluators)
Identify what is likely and what is possible
Estimate intervention impact time profiles
Evaluate resource needs for meeting goals
Support Better Action (Policymakers)
Explore ways of combining policies for better results
Evaluate cost-effectiveness over extended time periods
Increase policymakers’ motivation to act differently
Develop Better Theory and Estimates (Researchers)
Integrate and reconcile diverse data sources
Identify causal mechanisms driving system behavior
Improve estimates of hard-to-measure or “hidden” variables
Identify key uncertainties to address in intervention studies
Forrester JW. Industrial Dynamics (Chapter 11: Aggregation of Variables). Cambridge, MA: MIT Press, 1961.
Bobby Milstein (August 26, 2004)

8. Practical Options in Causal Modeling
Syndemics Prevention Network
Practical Options in Causal Modeling
High
Impractical
Expansive
Too hard to verify, modify, and understand
Scope (Breadth)
Focused
Simplistic
Low
Low
High
Detail (Disaggregation)
Bobby Milstein (August 26, 2004)

9. Broad Structure of the Health Protection Enterprise
Syndemics Prevention Network
Broad Structure of the Health Protection Enterprise
Society's Health
Response
Adverse Living
Conditions
General
Protection
Tertiary
Prevention
Demand for
response
Targeted
Protection
Primary
Prevention
Secondary
Prevention
“UPSTREAM”
“DOWNSTREAM”
Becoming safer
and healthier
Safer
Afflicted
Vulnerable
Afflicted with
Healthier
without
Complications
People
People
Becoming
Becoming
Complications
Developing
vulnerable
afflicted
complications
Dying from
complications
Milstein B, Homer J. The dynamics of upstream and downstream: why is so hard for the health system to work upstream, and what can be done about it? CDC Futures Health Systems Work Group; Atlanta, GA; December 3, 2003.
Gerberding JL. CDC's futures initiative. Atlanta, GA: Public Health Training Network; April 12, 2004.
Gerberding JL. FY 2008 CDC Congressional Budget Hearing. Testimony before the Committee on Appropriations, Subcommittee on Labor, Health and Human Services, Education and Related Agencies, United States House of Representatives; Washington, DC; March 9, 2007.
Homer JB, Hirsch GB. System dynamics modeling for public health: background and opportunities. American Journal of Public Health 2006;96(3):
Milstein B, Homer J. The dynamics of upstream and downstream: why is so hard for the health system to work upstream, and what can be done about it? CDC Futures Health Systems Workgroup; Atlanta, GA; 2003.
Bobby Milstein (August 26, 2004)

10. Diabetes Policy Model (with Division of Diabetes Translation 2003-07)
Syndemics Prevention Network
Diabetes Policy Model (with Division of Diabetes Translation )
Diabetes programs face tough challenges and questions
With rapid growth in prevalence, is improved control good enough?
Studies show primary prevention is possible, but how much impact in practice and at what cost?
How best to balance interventions?
Model developed with program planners, diabetes researchers, and epidemiologists
Applied initially to U.S. overall, later applied to 13 different states
* Done in conjunction with Sustainability Institute and the Center for Public Health Practice at Emory University
Jones AP, Homer JB, Murphy DL, Essien JDK, Milstein B, Seville DA. Understanding diabetes population dynamics through simulation modeling and experimentation. American Journal of Public Health 2006;96(3):
Bobby Milstein (August 26, 2004)

11. Syndemics Prevention Network
Civic Participation
Social cohesion
Responsibility for others
Local Living Conditions
Availability of good/bad food
Availability of phys activity
Comm norms, culture (e.g., responses to racism,
acculturation)
Safety
Income
Transportation
Housing
Education
Syndemics Prevention Network
We Convened a Model-Scoping Group of 45 CDC Professionals and Epidemiologists in December 2003) to Explore the Full Range of Forces Driving Diabetes Behavior over Time
Forces Outside the Community
Macroeconomy, employment
Food supply
Advertising, media
National health care
Racism
Transportation policies
Voluntary health orgs
Professional assns
University programs
National coalitions
Personal Capacity
Understanding
Motivation
Social support
Literacy
Physio-cognitive function
Life stages
Health Care & Public Health Agency Capacity
Provider supply
Provider understanding, competence
Provider location
System integration
Cost of care
Insurance coverage
Health Care Utilization
Ability to use care (match of patients and providers, language, culture)
Openness to/fear of screening
Self-management, monitoring
Percent of patients screened
Percent of people with diabetes under control
Metabolic Stressors
Nutrition
Physical activity
Stress
Baseline Flows
Population Flows
Bobby Milstein (August 26, 2004) 11

12. Syndemics Prevention Network
Model Overview
Standard boundary
of most epi models and intervention programs
Unhealthy days & costs from diabetes
The model also subdivides the diabetes and prediabetes population stocks into stocks of diagnosed and undiagnosed (not shown here), and includes population inflows and non-diabetes deaths.
Unhealthy days & costs per person with diabetes
Diabetes
prevalence
Prediabetes
onset
Diabetes
onset
Complications
onset
People with
People with
People with
Death
Normal
People with
Uncomplicated
Complicated
Glycemic
Prediabetes
Diabetes
Diabetes
Levels
Recovery
Diabetes detection and management
Obesity
prevalence
Prediabetes detection and management
Black & Hispanic fractions
Elderly
fraction
Bobby Milstein (August 26, 2004)

13. Data Sources for Diabetes Model
Syndemics Prevention Network
Data Sources for Diabetes Model
Source
Topics
U.S. Census Bureau
Population size and projected growth
Fractions elderly, black, Hispanic
Health insurance coverage
Vital Statistics
Total deaths
Diabetes-related deaths - any listed
National Health Interview Survey (NHIS)
Diagnosed diabetes prevalence (US)
National Health and Nutrition Examination Survey (NHANES)
Undiagnosed diabetes prevalence (US)
Prediabetes prevalence (US)
Obesity prevalence (US)
Behavioral Risk Factor Surveillance System (BRFSS)
Health behaviors: Taking meds, Eye exam,
Foot exam, HbA1c test, Flu shot
Unhealthy days
Diagnosed diabetes prevalence (US, states)
Obesity prevalence (US, states)
Research Literature
Effects of risk factors and management
on onset, complications, and costs
Costs of diabetes and prediabetes care
Bobby Milstein (August 26, 2004)

14. Comparing and Combining Strategies
Syndemics Prevention Network
Comparing and Combining Strategies
U.S. Morbidity from Diabetes Simulated
600
Status Quo*
500
Control
Primary prevention
Monthly Unhealthy Days from Diabetes per Thousand
400
Combination
300
* Status Quo assumptions for post-2005: (1) Obesity plateauing per CDC Obesity model projection; (2) Age and ethnicity per Census projection; (3) Health insurance and non-diabetes death rates unchanging; (4) Disease management unchanging
200
1980
1990
2000
2010
2020
2030
2040
2050
With a combination of improved control and aggressive primary prevention (obesity, prediabetes), growth in the burden of diabetes could be limited for the next 10 years and for decades beyond.
Bobby Milstein (August 26, 2004)

15. Syndemics Prevention Network
Cardiovascular Disease Prevention (with Division of Heart Disease & Stroke Prevention, )
What are the key pathways of CV risk, and how do these affect health outcomes and costs?
How might interventions affect the risk factors and outcomes in the short- and long-term?
How might policy efforts be better balanced given limited resources?
Many observational studies go from a single behavioral or social risk factor to CVD endpoints, skipping the intermediate causal links. The results inherently depend on changes in intermediate factors, but these may be affected by other, uncontrolled variables.  
The CDC has partnered on this project with the Austin (Travis County), Texas,
Dept. of Health and Human Services. The model is calibrated to represent the
overall US, but is informed by the experience and local data of the Austin team.
Homer J, Milstein B, Wile K, Pratibhu P, Farris R, Orenstein D. Modeling the local dynamics of cardiovascular health: risk factors, context, and capacity. Preventing Chronic Disease 2008;5(2). Available at
Homer J, Milstein B, Wile K, Trogdon J, Huang P, Labarthe D, Orenstein D. Simulating and evaluating local interventions to improve cardiovascular health. In submission to Preventing Chronic Disease.
Bobby Milstein (August 26, 2004)

16. Syndemics Prevention Network
Risk Factors for CVD
Obesity, Smoking, High BP, High Cholesterol, and Diabetes are modeled as dynamic stocks—with multiple inflows and outflows (e.g., see next slide)
Data sources: NHANES, NHIS, MEPS, AHA/NIH reports, Census, Vital Statistics,
Framingham risk calculators, literature on risk factors and costs
Bobby Milstein (August 26, 2004)

17. Obesity Stock-Flow Structure
Syndemics Prevention Network
Obesity Stock-Flow Structure
Homer J, Milstein B, Dietz W, et al. Obesity population dynamics: exploring historical growth and plausible futures in the U.S. Proc. 24th Int’l System Dynamics Conference; Nijmegen, The Netherlands; July 2006.
Bobby Milstein (August 26, 2004)

18. Tobacco and Air Quality Interventions
Syndemics Prevention Network
Tobacco and Air Quality Interventions
Data sources: NHANES, NHIS, MEPS, AHA/NIH reports, Census, Vital Statistics,
Framingham risk calculators, literature on risk factors and costs
Bobby Milstein (August 26, 2004)

19. Health Care Interventions
Syndemics Prevention Network
Health Care Interventions
Data sources: NHANES, NHIS, MEPS, AHA/NIH reports, Census, Vital Statistics,
Framingham risk calculators, literature on risk factors and costs
Bobby Milstein (August 26, 2004)

20. Interventions Affecting Stress
Syndemics Prevention Network
Interventions Affecting Stress
Data sources: NHANES, NHIS, MEPS, AHA/NIH reports, Census, Vital Statistics,
Framingham risk calculators, literature on risk factors and costs
Bobby Milstein (August 26, 2004)

21. Healthy Diet Interventions
Syndemics Prevention Network
Healthy Diet Interventions
Data sources: NHANES, NHIS, MEPS, AHA/NIH reports, Census, Vital Statistics,
Framingham risk calculators, literature on risk factors and costs
Bobby Milstein (August 26, 2004)

22. Physical Activity & Weight Loss Interventions
Syndemics Prevention Network
Physical Activity & Weight Loss Interventions
Data sources: NHANES, NHIS, MEPS, AHA/NIH reports, Census, Vital Statistics,
Framingham risk calculators, literature on risk factors and costs
Bobby Milstein (August 26, 2004)

23. Syndemics Prevention Network
Adding Up the Costs
Human capital approach to estimating indirect (productivity) costs
Data sources: NHANES, NHIS, MEPS, AHA/NIH reports, Census, Vital Statistics,
Framingham risk calculators, literature on risk factors and costs
Bobby Milstein (August 26, 2004)

24. Syndemics Prevention Network
A Base Case Scenario for Comparison Assumptions for Input Time Series through 2040
Prior to 2004, model reflects historical…
Decline in fraction of workplaces allowing smoking ( )
Decline in air pollution ( )
Decline in CV event fatality ( )
Increase in diagnosis and control of high blood pressure, high cholesterol, and diabetes ( )
Rise & fall in youth smoking ( )
Rise in youth obesity ( , P)
After 2004, make simple yet plausible assumptions…
Assume no further changes in contextual factors affecting risk factor prevalence (aside from rise in youth obesity)
Changes in risk prevalence after 2004 are due to “bathtub” adjustment process (incidence still exceeding outflows) and population aging
Provides an easily-understood basis for comparisons
Bobby Milstein (August 26, 2004)

25. Base Case Trajectories 1990-2040
Syndemics Prevention Network
Base Case Trajectories
Bobby Milstein (August 26, 2004)

26. Syndemics Prevention Network
Estimated Impacts of a 15-Component Intervention, with Sensitivity Ranges
Reductions vs.
Base Case 4
CVD DEATHS
The 15 components include:
(1) “Care” [3 interventions]
(2) “Air” (smoking/pollution) [6],
(3) “Lifestyle”: Nutrition, physical activity, & stress reduction [6]
The model contains 56 causal linkages requiring the estimation of relative risks, effect sizes, or initial values, most of which involved some level of uncertainty.
The upper edge of the sensitivity range results when all uncertain parameters are set to their “lowest plausible impact” values. The lower edge results when all are set to their “greatest plausible impact” values.
Base Case 0%
20%
(15-26%) 2
Deaths from CVD per 1000
Combined 15 interventions
with sensitivity range
60%
Deaths if all risk factors = 0
1990
2000
2010
2020
2030
2040
3,000
DIRECT & INDIRECT COSTS
DIRECT & INDIRECT COSTS
Base Case 0%
2,000
26%
(19-33%)
Total Consequence Costs per
Capita (2005 dollars per year)
Combined 15 interventions
with sensitivity range
1,000
Costs if all risk factors = 0
80%
1990
2000
2010
2020
2030
2040
Bobby Milstein (August 26, 2004)

27. Syndemics Prevention Network
Contributions of 3 Intervention Clusters (Clusters layered in cumulatively)
Reductions vs.
Base Case 4
CVD DEATHS
Contributions to CVD death reduction:
Care: strong from the start; 9%
Air: good from the start (less pollution, secondhand smoke) and growing (due to smoking decline) to 6.5%
Lifestyle: small at first but growing to 5%
Base Case
1) Primary Care 0%
20%
Deaths from CVD per 1000 2
3) + Nutrition, Physical
Activity, and Stress
2) + Air Quality & Tobacco
60%
Deaths if all risk factors = 0
1990
2000
2010
2020
2030
2040
DIRECT & INDIRECT COSTS
Contributions to cost savings:
Air: strong from the start (pollution, SHS) and growing (due to smoking decline) to 18.5%
Lifestyle: small at first but growing to 8.5%
Care: negligible (not cost saving)
3,000
1) Primary Care
Base Case 0%
2,000
2) + Air Quality & Tobacco
26%
Total Consequence Costs per
Capita (2005 dollars per year)
3) + Nutrition, Physical
Activity, and Stress
1,000
Costs if all risk factors = 0
80%
1990
2000
2010
2020
2030
2040
Bobby Milstein (August 26, 2004)

28. Syndemics Prevention Network
National Health Policy Model & Game (with Office of the Director, )
Americans pay the most for health care, yet suffer high rates of morbidity and premature mortality—esp. high among the poor and uneducated
About 16% of Americans have no insurance coverage
Over 75% of Americans think the current system needs fundamental change
Many health leaders realize we need a broader view of health, including health protection and health equity
Many observational studies go from a single behavioral or social risk factor to CVD endpoints, skipping the intermediate causal links. The results inherently depend on changes in intermediate factors, but these may be affected by other, uncontrolled variables.  
Nolte E, McKee CM. Measuring the health of nations: updating an earlier analysis. Health Affairs 2008; 27(1):58-71.
Blendon RJ, Altman DE, Deane C, Benson JM, Brodie M, Buhr T. Health care in the 2008 presidential primaries. New England Journal of Medicine 2008;358(4):
Gerberding JL. Protecting health—the new research imperative. JAMA 2005; 294(11):
Gerberding JL. CDC: protecting people's health. Director's Update; Atlanta, GA; July, 2007.
Bobby Milstein (August 26, 2004)

29. Syndemics Prevention Network
The U.S. Health Policy Arena is Dense with Diverse Issues
Insurance overhead
Extent of care
Overuse of ERs
Healthier behaviors
Reimbursement rates
Adherence to care guidelines
Safer environments
Access to care
Out-of-pocket costs
Socioeconomic disparities
Overuse of specialists
Insurance coverage
Primary care supply
Provider efficiency
Citizen Involvement
Bobby Milstein (August 26, 2004)

30. Simulating the Health System
Syndemics Prevention Network
Simulating the Health System
Integrating prior findings and estimates
On costs, prevalence, risk factors, health disparities, health care utilization, insurance, quality of care, etc.
Our own previous health system modeling*
Simplifying as appropriate
Three states of health: Disease/injury, Asymptomatic disorder, No significant health problem
Two SES categories: Advantaged, Disadvantaged (allowing study of disparities and equity)
Start in equilibrium (all variables unchanging), approximating the U.S. in 2003
Some complicating trends not included for simplicity: aging, migration, technology, economy, etc.
* E.g., Homer, Hirsch, Milstein. Chronic illness in a complex health economy: the perils and promises of downstream and upstream reforms. System Dynamics Review 2007; 23:
Bobby Milstein (August 26, 2004)

31. Syndemics Prevention Network
Some key concepts and measures
Concept
Proxy
Initial Values (~2003)
Sources
Advantaged & Disadvantaged Prevalence
Household income (< or ≥ $25,000)
Advantaged = 78.5%
Disadvantaged = 21.5%
Census
Disease & Injury
Prevalence
Adults: 22 specific conditions
Kids: 12 specific conditions
Overall = 38%
D/A Ratio = 1.60 (= 53.6%/33.5%)
NHIS
JAMA
Asymptomatic Disorder Prevalence
High blood pressure
High cholesterol
Pre-diabetes
Overall = 51.5%
D/A Ratio = 1.15
NHANES
Mortality
Deaths per 1,000
Overall = 7.5
D/A Ratio = 1.80
Vital Statistics
AJPH
Morbidity
Unhealthy days per month per capita
Overall = 5.26
D/A Ratio = 1.78
BRFSS
Health Inequity
Fraction of unhealthy days
attributable to disadvantage
Attributable fraction = 14.3%
(calculated)
Health Insurance
Lack of insurance coverage
Overall = 15.6%
D/A Ratio = 1.82
Sufficiency of Primary Care Providers
Number of PCPs per 10,000
Overall = 8.5 per 10,000
D/A Ratio = 0.76
AMA
Austin Study*
Unhealthy Behavior Prevalence
Smoking
Physical inactivity
Overall = 34%
D/A Ratio = 1.67
Unsafe Environment Prevalence
Survey response: “My
neighborhood is not safe”
Overall = 26%
D/A Ratio = 2.5
* CDC/SD study of cardiovascular risk in Austin/Travis County, TX. See Homer J, Milstein B, Wile K, et al. Modeling the local dynamics of cardiovascular health. Preventing Chronic Disease 2008; 5(2).
Bobby Milstein (August 26, 2004)

32. Syndemics Prevention Network
Connecting the Concepts: Start with the Outcome Measures
Bobby Milstein (August 26, 2004)

33. Syndemics Prevention Network
Several Drivers of Health Care Costs
Bobby Milstein (August 26, 2004)

34. Syndemics Prevention Network
Quality Health Care Improves Health Outcomes
Receipt of quality health care; types:
Preventive care = scheduled screening/diagnosis and mgmt of asymptomatic disorders;
Chronic care = scheduled mgmt of existing disease and injury, incl. both office care and elective hospital procedures;
Acute care = unscheduled treatment of minor events that can be handled in office or outpatient department;
Urgent care = unscheduled treatment of major events that require emergency hospital care.
Bobby Milstein (August 26, 2004)

35. A Shortage of Primary Care Providers Exists for Many Americans
Syndemics Prevention Network
A Shortage of Primary Care Providers Exists for Many Americans
Shortage of Doctors an Obstacle to Obama Goals
By ROBERT PEAR
April 26, 2009
WASHINGTON — Obama administration officials, alarmed at doctor shortages, are looking for ways to increase the supply of physicians to meet the needs of an aging population and millions of uninsured
The Robert Graham Center, with the National Association of Community Health Centers. “Access Denied: A Look at America’s Medically Disenfranchised”, Washington, DC, 2007.
Bobby Milstein (August 26, 2004)

36. Syndemics Prevention Network
PCP Sufficiency: Supply vs. Demand
See ‘Understanding the Big Picture’ document for definitions.
Now we’ll take a tour of the game.
Bobby Milstein (August 26, 2004)

37. Syndemics Prevention Network
Upstream Determinants of Disease & Injury
Bobby Milstein (August 26, 2004)

38. From Model to an Interactive Game
Syndemics Prevention Network
From Model to an Interactive Game
HealthBound
Madon T, Hofman KJ, Kupfer L, Glass RI. Implementation science. Science 2007;318(5857):
Serious Games Initiative. Games for health. Woodrow Wilson International Center for Scholars, Available at <
Integrating prior findings and estimates
On costs, prevalence, risk factors, health disparities, health care utilization, insurance, quality of care, physician supply and income, and role of public leadership
Using sound methodology
“Stock and flow” equations keep accurate accounting of accumulations over time
Other equations depict real-world resource constraints, delays, feedback influences
Simplifying as appropriate
Focus on population health and health care investments and priorities
Current steady-state game does not address secular trends (e.g., aging, migration), growth pressures from industry, nor from tug-of-war between insurers and physicians
Experiential learning for health leaders
Four simultaneous goals: save lives, improve health, achieve health equity, and lower health care cost
Intervene without expense, risk, or delay
Not a prediction, but a way for multiple stakeholders to explore how the health system can change
Milstein B, Homer J, Hirsch G. The "HealthBound" policy simulation game: an adventure in US health reform. International System Dynamics Conference; Albuquerque, NM; July 26-30, 2009.
Bobby Milstein (August 26, 2004)

39. Syndemics Prevention Network
Options for Intervening in the Health System A Short Menu of Major Policy Proposals
Expand insurance coverage
Improve primary care efficiency
Improve quality of care
Coordinate care
Expand primary care supply
Enable healthier behaviors
Simplify insurance
Build safer environments
Change self pay fraction
Create pathways to advantage
Change reimbursement rates
Strengthen civic muscle
Bobby Milstein (August 26, 2004)

40. Syndemics Prevention Network
“Winning” Involves Not Just Posting High Scores, But Understanding How and Why You Got Them
Scorecard
Results in Context
HealthBound
HealthBound
Compare Runs
HealthBound
Progress Report
HealthBound
Bobby Milstein (August 26, 2004)

41. Some Policy Conclusions
Syndemics Prevention Network
Some Policy Conclusions
Expanded coverage and improved quality would improve health but, if done alone, would raise costs and worsen equity
Expanding primary care capacity to eliminate shortages (esp. for the poor) would reduce costs and improve equity
Cutting reimbursement rates would reduce costs but worsen health outcomes
Upstream protection (behavioral and environmental remedies) would— increasingly over time—reduce costs, improve health, and improve equity
Milstein B, Homer J, Hirsch G. Are coverage and quality enough? A dynamic systems approach to health policy. Draft paper currently in CDC clearance.
Bobby Milstein (August 26, 2004)

42. Secrets of Successful Modeling Projects
Learn the client’s perspective—think in practical terms and understand how much transformation is really possible
Keep discussing scope, level of detail, terminology, intervention levers, validation, and documentation as project proceeds—be prepared to change course, even midway through project
Quickly develop a meaningful initial (prototype) model
Keep your eyes open for ways to improve the model—don’t depend on the client for that
Seek the most reliable data, but be open to data of many types
“Freeze” the model at an appropriate time to allow for full policy testing, reporting, and documentation
Roberts EB (1978). “Strategies for Effective Implementation of Complex Corporate Models.” In Managerial Applications of System Dynamics, ed. EB Roberts (pp ). Pegasus Communications;
Robinson JM (1980). “Managerial Sketches of the Steps of Modeling.” In Elements of the System Dynamics Method, ed. J Randers (pp ). Pegasus Communications;
Homer JB (1996). “Why We Iterate: Scientific Modeling in Theory and Practice.” System Dynamics Review 12(1):1-19.

43. Syndemics Prevention Network
EXTRAS
Bobby Milstein (August 26, 2004)

44. Chronic Illness as a Cascade of Bathtubs
Syndemics Prevention Network
Chronic Illness as a Cascade of Bathtubs
Low risk
Risk onset
Risk
prevention
High risk
Illness onset
Risk
mgmt
Mildly ill
Keep this cascade of bathtubs in mind when considering options for addressing chronic illness and its costs. Think both “downstream” and “upstream”.
Complications onset
Disease
mgmt
Bathtub = Stock
Water from faucet = Inflow
Drain = Outflow
Hand = Intervention affecting flow
Severely ill
Urgent &
long-term care
Death
Bobby Milstein (August 26, 2004)

45. System Dynamics Health Applications 1970s to the Present
Syndemics Prevention Network
System Dynamics Health Applications 1970s to the Present
Disease epidemiology
Cardiovascular, diabetes, obesity, HIV/AIDS, cervical cancer, chlamydia, dengue fever, drug-resistant infections
Substance abuse epidemiology
Heroin, cocaine, tobacco
Health care patient flows
Acute care, long-term care
Health care capacity and delivery
Managed care, dental care, mental health care, disaster preparedness, community health programs
Health system economics
Interactions of providers, payers, patients, and investors
Homer J, Hirsch G. System dynamics modeling for public health: Background and opportunities. American Journal of Public Health 2006;96(3):
Bobby Milstein (August 26, 2004)

46. Broad Dynamics of the Health Protection Enterprise
Syndemics Prevention Network
Broad Dynamics of the Health Protection Enterprise
Prevalence of Vulnerability, Risk, or Disease
100%
Values for Health & Equity
Size of the Safer, Healthier
Population - - - B
Taking the Toll
Health
Protection
Efforts B
Responses
to Growth B
Obstacles
Prevalence of Vulnerability, Risk, or Disease R
Drivers of
Growth
Resources &
Resistance R
Reinforcers
Potential Threats
If public health workers aspire to assure safer, healthier conditions–which are politically contested and constantly in flux–the concepts, methods, and moral principles that shape health policy must themselves resemble the features of dynamic, democratic systems.
Broader Benefits
& Supporters 0%
Time
Milstein B. Hygeia's constellation: navigating health futures in a dynamic and democratic world. Atlanta, GA: Syndemics Prevention Network, Centers for Disease Control and Prevention; April 15, <
Bobby Milstein (August 26, 2004)

47. Planned Extensions – Next 2 Years
Syndemics Prevention Network
Planned Extensions – Next 2 Years
Potential value (better health, lower cost) from
Treating borderline conditions (pre-hypertension, borderline cholesterol, pre-diabetes)
Focusing on prevention of recurrent events
Focusing on acute and rehab care
Further reducing control targets for blood pressure, cholesterol, blood glucose
Targeting other risk factors; e.g., excess salt, low vitamin D, periodontal disease, C-reactive protein
Targeting particular age-gender subgroups
Targeting African American or Hispanic populations
Our NIH sponsors feel this analysis will help them set research priorities and extrapolate from clinical trials—more effectively leveraging the value of their (very expensive!) sponsored research.
Bobby Milstein (August 26, 2004)

48. Other CVD Intervention Models
Syndemics Prevention Network
Other CVD Intervention Models
System Dynamics: Heart Failure
Homer J, Hirsch G, et al. Models for collaboration: how system dynamics helped a community organize cost-effective care for chronic illness. System Dynamics Review 2004; 20(3):
Markov: Coronary Heart Disease
Weinstein MC, Coxson PG, et al. Forecasting coronary heart disease incidence, mortality, and cost: the coronary heart disease policy model. American J Public Health 1987; 77(11):
Micro-simulation (Archimedes): CVD
Kahn R, Robertson RM, et al. The impact of prevention on reducing the burden of cardiovascular disease. Circulation 2008; 118(5):
Statistical/Monte Carlo: Coronary Heart Disease
Kottke TE, Gatewood LC, et al. Preventing heart disease: is treating the high risk sufficient? J Clinical Epidemiology 1988; 41(11):
Our model is the most extensive to date in integrating evidence on
multiple risk factor pathways, potential interventions, and outcome costs.
Bobby Milstein (August 26, 2004)