THE HUMAN GENOME PROJECT: IMPLICATIONS FOR HEALTH CARE, RESEARCH AND SOCIETY Washington, DC March 25, 2002 Alan E. Guttmacher, M.D. National Human Genome.

Slides:

Advertisements

Similar presentations

PERSONALIZED MEDICINE: Planning for the Future You, Your Biomarkers and Your Rights.

Advertisements

GENOMIC MEDICINE AND PUBLIC HEALTH August 16, 2000 Alan E. Guttmacher, M.D. Senior Clinical Advisor to the Director National Human Genome Research Institute.

Genetic Analysis in Human Disease

How they are caused and why they can be beneficial.

Genomics and You “What is it and why now?” ACTIVITY: KNL Charts

1 Genetics The Study of Biological Information. 2 Chapter Outline DNA molecules encode the biological information fundamental to all life forms DNA molecules.

Genetics: Past, Present, and Future Robert M. Fineman, M.D., Ph.D. Web siteWeb site.

Personalized Medicine Presentation by: Alex Wiki by: John and Lydia.

Genetic Epidemiology Lecture 13 PS Timiras. A Few Definitions GENOME: THE COMPLETE SET OF GENES OF AN ORGANISM GENOTYPE: THE GENETIC CONSTITUTION OF.

Chapter 3: Genetic Bases of Child Development Module 3.1 Mechanisms of Heredity Module 3.2 Genetic Disorders Module 3.3 Heredity is Not Destiny Children.

Human Genetic Disorders

Unit 4 Genetics Ch. 14 The Human Genome.

Genes & Medicine: How DNA is Improving Your Health U3A Mountford, June 2004 Dr Martin Kennedy Department of Pathology Christchurch School of Medicine &

Human Genome Project Janice S. Dorman, PhD University of Pittsburgh School of Nursing.

Introduction to Molecular Epidemiology Jan Dorman, PhD University of Pittsburgh School of Nursing

THE U.S. SURGEON GENERAL’S FAMILY HISTORY INITIATIVE.

Section 18.4 Heredity Today’s Agenda The Basic Rules of Heredity Your Genes, Your Health Assignment in the computer lab. Slide 1 of 17.

Factors Influencing Health Aim: How do heredity, environment, and behavior influence health?

Your Family Health History

Genomics and Personalized Care Leming Zhou, PhD Assistant Professor Department of Health Information Management School of Health and Rehabilitation Sciences.

Georgia Wiesner, MD CREC June 20, GATACAATGCATCATATG TATCAGATGCAATATATC ATTGTATCATGTATCATG TATCATGTATCATGTATC ATGTATCATGTCTCCAGA TGCTATGGATCTTATGTA.

Introduction to Medical Genetics

Unit 5 – Public Health Chronic Diseases

The Human Genome the human genome consists of ~3 billion bp and 30,000-35,000 genes (haploid state) it would fill about 150,000 phone book pages with A’s,

Pre Med III Genetics Guri Tzivion, PhD Extension 506 Summer 2015 Windsor University School of Medicine.

What is the Human Genome Project? Identify all the approximately 35,000 genes in human DNA Determine the sequences of the 3,000,000,000 bases ( = 200 phone.

EMBRACING CHANGE: SOCIETAL AND WORKPLACE IMPLICATIONS OF THE HUMAN GENOME PROJECT June 6, 2001 New Orleans AIHCE Alan E. Guttmacher, M.D. Senior Clinical.

10th Grade genetic Engineering

Chapter 3: Genetic Bases of Child Development 3.1 Mechanisms of Heredity 3.2 Genetic Disorders 3.3 Heredity Is Not Destiny.

The NHGRI Action Plan for Training of Underrepresented Minority Groups in Genomics Dialogue with Professional Societies Francis S. Collins, M.D., Ph.D.

What is Biotechnology? “a collection of technologies that use living cells and/or biological molecules to solve problems and make useful products”

Meiosis &Genetic Inherited Diseases. You are a member of a genetic counselor team works in a hospital to present accurate information to parents about.

Gene Therapy and Pharmacogenomics

Personalized Medicine Dr. M. Jawad Hassan. Personalized Medicine Human Genome and SNPs What is personalized medicine? Pharmacogenetics Case study – warfarin.

Mosby items and derived items © 2007, 2005, 2002 by Mosby, Inc., an affiliate of Elsevier Inc. CHAPTER 50 Gene Therapy and Pharmacogenomics.

HUMAN GENOME PROJECT International effort of 13 years (1990 – 2003) Identified all the approximate 20,000 – 25,000 genes in human DNA Determined the sequences.

SSHRC - ERA - SAGE Workshop Research on the Ethical, Legal and Societal Aspects of Human Genomics: North America Denise Avard PhD Director of Research.

What’s the Difference? Genetic and Common Diseases.

Genomics, Medicine, and Society American College of Radiology May 13, 2003 Francis S. Collins, M.D., Ph.D.

Understanding Genetic Testing

Genes vs. Environment (Nature vs. Nurture).

Medical Research and Education: Ethics Association of American Universities April 22, 2002 Francis S. Collins, M.D., Ph.D.

Genetic Disorders Ch. 5 section 2.

1 DNA Technology. 2 DNA Extraction Chemical treatments Chemical treatments cause cells and nuclei to burst sticky The DNA is inherently sticky, and can.

Meet the Gene Machine Basic Genetics & Background on Genetic Testing.

Genetic disorders can be due to any of the following factors: A. Monogenetic Disorders: Caused by a mutation in a single gene 1. Autosomal recessive alleles:

Cancer 101: A Cancer Education and Training Program for [Target Population] Date Location Presented by: Presenter 1 Presenter 2.

Genetics – general mechanism of heredity and variation of inherited traits Genomics – function of all DNA.

Chris Willocks Year 10 Genetics Chemical code for life.

Genetic Disorders and Genetic Testing © 2010 Project Lead The Way, Inc.Medical Interventions.

Sports Nutrition Introduction. Sports Nutrition There are two main points that this class will be focusing on. 1. The role nutrition and exercise play.

WHAT IS THE IMPACT OF THE HUMAN GENOME PROJECT FOR DRUG DEVELOPMENT? Arman & Fin.

DNA AND ITS STRUCTURE. DNA is located inside the nucleus.

© 2007 McGraw-Hill Higher Education. All rights reserved. Chapter 2 Genetics: You and Your Family Health History.

1 Copyright © 2012 by Mosby, an imprint of Elsevier Inc. Copyright © 2008 by Mosby, Inc., an affiliate of Elsevier Inc. Chapter 11 Genomics in Public Health.

Human Genetic Disorders

SSHRC - ERA - SAGE Workshop Research on the Ethical, Legal and Societal Aspects of Human Genomics: North America Denise Avard PhD Director of Research.

Week 5: Ethical, Legal & Social Issues in Applied Genomics

Chapter 5: Genetics and genomics perspectives in nursing

Card-based discussion activity

What is Biotechnology? “a collection of technologies that use living cells and/or biological molecules to solve problems and make useful products”

Can you think of any characteristics or traits you may have that could be affected by the environment?

The Study of Biological Information

Biology and Your Future

Key Concepts What are two major causes of genetic disorders in humans?

What is Biotechnology? “a collection of technologies that use living cells and/or biological molecules to solve problems and make useful products”

Cells and Inheritance S7L3. Students will recognize how biological traits are passed on to successive generations. a. Explain the role of genes and chromosomes.

Presentation transcript:

THE HUMAN GENOME PROJECT: IMPLICATIONS FOR HEALTH CARE, RESEARCH AND SOCIETY Washington, DC March 25, 2002 Alan E. Guttmacher, M.D. National Human Genome Research Institute National Institutes of Health

What We Will Consider “Traditional genetics” The Human Genome Project The “new genetics” - genomics Genomic health care Genomics and society Genomics and research

“Traditional Genetics” Involves conditions wholly caused by: –An extra or missing complete chromosome or part of a chromosome e.g., Down syndrome –A mutation in a single gene e.g., cystic fibrosis, fragile-x syndrome, sickle cell disease

“Traditional Genetics” These conditions –Are of great importance to individuals and families with them –But, even when added together, are relatively rare –Most people not directly affected –Thus, genetics played small role in health care (and in society)

> 9 of the 10 Leading Causes of Mortality Have Genetic Components 1. Heart disease (29.5% of deaths in ‘00) 2. Cancer (22.9%) 3. Cerebrovascular diseases (6.9%) 4. Chronic lower respiratory dis. (5.1%) ?5. Injury (3.9%) 6. Diabetes (2.9%) 7. Pneumonia/Influenza (2.8%) 8. Alzheimer disease (2.0%) 9. Kidney disease (1.6%) 10. Septicemia (1.3%)

Genomic Medicine Will come largely from knowledge emanating from the Human Genome Project

The Human Genome Project An international government project that is ahead of schedule! And under budget!! And from its start has earmarked funds for consideration of its ethical, legal, and social implications (ELSI) - the largest funding ever devoted to bioethics!!!

The Human Genome Project Human genome consists of three billion base pairs – Adenine, Cytosine, Guanine, Thymine Printing out the A,C,G,T would fill over 150,000 telephone book pages Disease is often caused by a single variation in the three billion bases - one letter in 150,000 pages different

Human Genome Project - Sequence Progress (12/31/01) Draft = 34.8% Finished = 63.0% Total = 97.8%

Genomic Medicine About conditions partly: –Caused by mutation(s) in gene(s) e.g., breast cancer, colon cancer, atherosclerosis, inflammatory bowel disease, diabetes, Alzheimer disease, mood disorders, many others –Prevented by mutation(s) in gene(s) e.g., HIV (CCR5), ?atherosclerosis, ?cancers, ?diabetes, many others

Genomic Medicine These conditions –Are also of great importance to individuals and families with them –But are quite common –Directly affect virtually everyone –Will make genetics play large role in health care and in society

Genomic Medicine These conditions are common enough that: –Genetics care will be supplied with occasional involvement of medical geneticists and genetic counselors, but primarily by primary care providers and other non-genetics specialists

Genomic Medicine Will change health care by... –Creating a fundamental understanding of the biology of many diseases, even many “non- genetic” ones –Leading to defining disorders by mechanism of causation, rather than by symptoms

Genomic Medicine Will change health care by... –providing knowledge of individual genetic predispositions –creating pharmacogenomics

Genomic Medicine Knowledge of individual genetic predispositions will allow: –Individualized screening –Individualized behavior changes –Presymptomatic medical therapies, e.g., antihypertensive agents before hypertension develops, anti-colon cancer agents before cancer occurs

Genomic Medicine Pharmacogenomics will allow: –new approaches to drug design –individualized medication use based on genetically determined variation in effects and side effects –new medications for specific genotypic disease subtypes

Genomic Medicine Will change health care by... –providing better understanding of non-genetic (environmental) factors in health and disease –allowing genetic engineering –emphasizing health maintenance rather than disease treatment

The “New Genetics” Will include knowledge about traits that most of us see as human characteristics, rather than as “diseases” – e.g., height, intelligence, alcoholism, violence, etc.

The “New Genetics” Will also change our lives… –Knowing our own (and others’) disease predispositions –Knowing our (and others’) “characteristics” predispositions –Showing that we are all mutants

The “New Genetics” May also change society… –Genetic stratification, e.g., in employment or marriage –Genetic engineering against (and for) diseases and characteristics –Cloning –Increased opportunity for “private eugenics”

The “New Genetics” Raises new concerns, such as: –Discrimination against individuals –Discrimination against groups –Nature over nurture? (genetic determinism) –Genes run in families –Confidentiality/privacy

The “New Genetics” And more concerns, such as: –Fairness in access –Right not to know and not to act –What is the appropriate informed consent process for genetic testing –Patenting and licensing

Areas of Genomics Related Research Model organisms Annotation of the genome Proteomics Biological pathways, networks, cellular mechanisms, etc. New technologies Pathophysiology of disease

Areas of Genomics Related Research Gene-gene-environment interactions Pharmaceutical design and use Health outcomes Health care delivery Ethical, legal and social issues Etc., etc.