introduction to social epidemiology illustration via a case study: type 2 diabetes
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Introduction to Social Introduction to Social EpidemiologyEpidemiology
Illustration via a case study:Illustration via a case study:Type 2 DiabetesType 2 Diabetes
The prevalence of diabetes varies widely among The prevalence of diabetes varies widely among people, apparently both according to race and people, apparently both according to race and
living circumstances: living circumstances:
• People of European origin– In Britain 2%– Germany 2%– Australia 8%– USA 8%
• Native Americans– Chilean Mapuche 1%– US Hispanic 17%– US Pima 50%
• People in New Guinea– Rural 0%– Urban 37%
• Aboriginal Australians– Traditional 0%– Westernized 23%
• Black Africans– Rural Tanzania 1%– Urban S. Africa 8%– United States 13%
Source: Jared Diamond. Nature 2003;423:599WHY?
Type 2 non-insulin dependent diabetesType 2 non-insulin dependent diabetes
• Etiologically heterogeneous; common feature is high blood glucose due to altered insulin secretion and insulin resistance
• Patients still produce insulin but are unable to respond effectively to it
• Patients are typically obese
• Often a disease of socioeconomic disadvantage.
Genes and DiabetesGenes and Diabetes
• Several genes implicated; presumably these must have conferred a survival advantage at some time
• For example, the hypothesized ‘thrifty gene’ enables a person carrying it to use food efficiently in times of plenty in preparation for famine conditions. (JV Neel. Am J Human Genet 1962;14:353-362)
• Perhaps this may be relevant to diabetes?
Genes interacting with lifestyle?Genes interacting with lifestyle?
1. Diabetes involves genetic factors and lifestyle, especially diet
2. Symptoms disappear under conditions of starvation (e.g., siege of Paris, 1870)
3. Migrant populations see increases (immigrants to Israel; Japanese moving to USA); perhaps their diet changes when they migrate?
4. Rates fluctuate with economic conditions
5. = Lifestyle disorder seen in genetically susceptible populations; environmental factors associated with lifestyle unmask the disease.
The counter-argumentsThe counter-arguments1. 30 years of searching have not identified a culprit
gene
2. Obesity and Type 2 diabetes are responses to late 20th century lifestyles, so it’s really a social-environmental issue
3. There is also a rival hypothesis of intra-uterine exposure to hyperglycemia that has been supported in cohort studies
4. Or, alternatively, hypothesis of early childhood under-nutrition (see McDermott, Soc Sci Med 1998;47:1189-95)
Some remaining questions…Some remaining questions…1. Explanations are not merely scientific; they lead to blame
and action. Do we blame individuals for their unhealthy diet, or do we blame their cultural heritage, or capitalism for its marketing practices, or governments, or scientists, or … ?
2. Will advances in bench science remove the need to worry about the social context of illness?
3. What are the social implications of the current emphasis on searching for genetic explanations?
4. More broadly, are the causes of individual cases the same as the causes of incidence rates? (I.e., is it the same factor that explains why one individual is diabetic, that also explains racial differences?)
5. So, should we view a population as just an aggregation of individuals, or is it somehow different?
Ways of thinking about Ways of thinking about diseasedisease
Susser’s Eras in EpidemiologySusser’s Eras in Epidemiology
EraParadigm Analytic
approachPrevention
Sanitary Miasma theory
Clustering of mortality
Sanitation
Infectious disease
Germ theory Laboratory Vaccination
Chronic disease
Black box Risk ratios Host, agent, environment
Eco-epidemiology
Systems theory (?)
Determinants at many levels
Contextual to molecular
Source: M. Susser. Am J Public Health 1996;86:674-7.
Life-course human development viewLife-course human development view
• Health is a consequence of multiple deficits
• Health is an interaction between living context and bio-behavioral regulatory systems
• Personal health trajectories reflect the effect of many exposures; these cumulate over time
• The timing and sequence of the events is important – there are periods of enhanced susceptibility– E.g., the weathering hypothesis: cumulative exposure
to stressors leads to vulnerability
Things the social epidemiologist Things the social epidemiologist typically worries about typically worries about
• Biological determinism, represented in the human genome project; perception that we are largely controlled by our genes
• Social Darwinism; sociobiology
• Implicit reductionistic & deterministic stance; narrow focus on pathogenesis
• Treatment or early detection rather than primordial prevention
• Denial of the agency of people and communities
Reactions to uncertaintyReactions to uncertainty• There is much we do not understand.
DL Weed (1988) described three reactions to scientific uncertainty:– Belief (“retreat to commitment”). Implies cessation of
enquiry. Characteristic of the religious right– Statistics and reference to probability. This does not
help us decide where to look for further evidence, or what to ignore, nor when we have arrived
– Criticism. Will not make us certain, but helps to bring weaknesses to the surface
• Fourth way may be to integrate disciplines; how do we do this?
Conceptual Model for Social Conceptual Model for Social EpidemiologyEpidemiology
Explanations & Causal Theory
LifeEvents
Personality
SociologicalExplanations
StressTheories
Coping,Vulnerability & Resistance
BiologicalProcesses& Overall
Model
Starting Point: Inequalities
in Health
SocialSupport
Individual
Biological
PNI
Designing MultipleInterventions
SocietalProcesses
BehavioralTheories
Work