1. Human Genome Epidemiology (HuGE)� Outline Objectives
Historical Perspectives
Epidemiology in Post Genome Project era
Definitions and Scope HuGE Continuum
Gene discovery
Gene Characterization
Assessing genetic tests
2. Breakthrough of the Year For 2000, one word sums it up-GENOMES
Science (December 2000)
3. Human Genes and Disease 2002� � Human Genes 35,000
OMIM Entries 14,000
GeneTests Entries 1000
4. Course Objectives Overall
Introduce participants to an epidemiologic approach to the range of data from gene discovery to assessing genetic tests
Specific
Key genetic and epidemiologic concepts
Identifying types of studies and measures
Show examples from the literature
5. Human Genome Epidemiology:�Historical Perspectives 1 1865 -Mendel
1865 -Galton
1902 -Inborn errors
1908- Hardy-Weinberg
1918-Fisher-
1954 -Neel & Schull
1965 Chronic Disease
Plant Experiments
Family Resemblance
Alkaptonuria
Population Genetics
Polygenes
Epidemiological Genetics
Conference
6. Human Genome Epidemiology:�Historical Perspectives 2 1973 Pharmacogenetics
1978 -Ecogenetics
1978 -N.E. Morton
1984 -New Journal
1990 HGP
1991- Society
1998- HuGE Net
Drug Response
GE Interaction
First book
Genetic Epi
NIH/DOE
IGES
Genetics & Public Health Conferences
7. I���Identification of a Novel Common Genetic Risk Factor for Lumbar Disk Disease�P. Paassilta JAMA April 11, 2001 ��� A team of researchers has identified a genetic risk factor for a debilitating lower back disorder, opening the door to new ways to prevent, diagnose and treat a disease that affects millions of people worldwide
Reuters health (4/2001) Case-control study in Finland
171 LDD (MRI dx)
321 controls
Collagen IX Trp3 allele
12.2% in cases vs. 4.7% in controls (3-fold risk)
8. Genetic Defect Doubles Colon Cancer Risk�Laken SJ et al. Nat Genetics 1997;17:79-83. Researchers have found a new genetic defect present in one of every 17 American Jews that doubles a person's colon cancer risk.
The good news is that scientists have developed a blood test, available for $200, that can detect this genetic defect. The test is advisable for everyone in the Ashkhenazi population, whether they have a family history of colon cancer or not. http://www.preventcancer.org/ coloncancer.html
9. Gene-Based Medicine in 2010? � Collins FC, New Engl J Med 1999;341:28-37.
Condition Genes RR Lifetime
Prostate Ca HPC1, 2, 3 0.4 7%
Alzheimers APOE,FAD3,XAD 0.3 10%
Heart disease APOB,CETP 2.5 70%
Colon Cancer FCC4,APC 4.0 23%
Lung Cancer NAT2 6.0 40%
10. Epidemiology (#@??!!) What is Epidemiology?
The study of the distribution and determinants of health-related states or events in populations, and the application of this study to control health problems
JM Last (1995)
Epidemiologists drive us crazy
S Mirsky, ScientificAmerican (2000)
11. Epidemiology in the 21st Century:Population Impact of Human Genome Variation�Calculation, Communication, and Intervention� The sequencing of the human genome offers the greatest opportunity for epidemiology since John Snow discovered the Broad Street pump
Shpilberg et al. J Clin Epidemiol (1997)
12. Dissecting Human Disease in the PostGenome Era: The Importance of Epidemiology Although experimental species are of great value for the initial identification and functional analysis of complex disease genes, final evidence for the involvement of these genes in human diseases must come from extensive epidemiological studies, preferably in different populations
Peltonen and McKusick, Science 2002;291:1224
13. Emerging Genomic Methods in Epidemiology Susceptibility
Exposure
Outcomes
DNA Polymorphisms
RNA Studies (Toxicogenomics)
Disease characterization (Proteomics)
14. Limits of Individual Risk Prediction�GA Colditz, AJPH 2001;91:357-359. The complex pathophysiology suggest that prediction of disease at the individual level is meaningless in the short term and probably will never be applicable for widespread population use
It is time to implement existing prevention strategies. It is also time to stop chasing after new risk factors
15. What is Genetic Epidemiology? The study of the role of genetic factors and their interaction with environmental factors in the occurrence of disease in human populations
Khoury et al. Fundamentals of Genetic Epidemiology (1993)
16. Human Genome Epidemiology� (AKA Genetic Epidemiology with a Capital E) Applications of epidemiologic methods and approaches in evaluating the impact of human genome variation on health and disease in various populations
HuGE involves a continuum from discovery to applications
17. Human Genome Epidemiology:�From Gene Discovery to Public Health Action Gene Discovery (classical genetic epidemiology)
Family Studies
Association Studies
Gene Characterization (molecular epidemiology)
Assessing Genetic Tests (applied epidemiology)
21. Importance of the Epidemiologic Approach to Genetic Information Prevalence
Associations
Interactions Most current data based on selected unrepresentative populations
Need for unbiased data on relative, absolute & attributable risks
Enhances biologic plausibility and targeting interventions
23. Epidemiologic Approach to Genetic Tests Analytic Validity
Clinical Validity
Clinical Utility How good is the test in measuring genotype?
How good is the test in predicting clinical outcome?
How good is the test and ensuing intervention in improving health and preventing disease?
26. Human Genome Epidemiologic Data�From Gene Discovery to Medical and Public Health Action Gene Discovery
Gene location, function, variants
Gene Characterization
Prevalence, associations, interactions
Assessing Genetic Tests
Analytic validity
Clinical validity and utility
ELSI data
Population impact
27. Multidisciplinary Nature of Human Genome Epidemiology Genetics
Clinical Medicine
Laboratory Sciences
Behavioral and Social Sciences
Statistics
28. Who Needs HuGE information? Policy makers
Researchers
Health care providers
Consumers
29. The Genome is Mapped: Now What?�(M.D. Lemonick, Time Magazine 7/3/2000 p24) Gene Sequencing
Gene Discovery
Gene Characterization
Clinical Utility
Public Health Utility
