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Biodefense Detection to Protect the Nation

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Biodefense Detection to Protect the Nation Frank Y. S. Chuang & Dora M. Gutierrez Lawrence Livermore National Laboratory J. Kirk Brown Tracy High School – PowerPoint PPT presentation

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Title: Biodefense Detection to Protect the Nation


1
BiodefenseDetection to Protect the Nation
  • Frank Y. S. Chuang Dora M. Gutierrez
  • Lawrence Livermore National Laboratory
  • J. Kirk Brown
  • Tracy High School

UCRL-PRES-204341
2
Main Questions
  • What are germs?
  • Why are they dangerous?
  • How do we recognize them?
  • How can we protect ourselves against them?

3
Introduction
  • Throughout history, infectious disease has
    plagued mankind.
  • Smallpox may have emerged 10,000 years ago in
    Asia or Africa. Scarred faces of mummies can be
    found in the Cairo Museum.

Smallpox is caused by the variola virus.
4
Achievements in Infectious Disease Medicine
  • Vaccines - cause the body to become immune to
    infectious disease
  • Antibiotics - kill or stop germs that cause
    infectious disease

Disease Max. cases Cases in 1996
Measles 894,000 (1941) 500
Diptheria 207,000 (1921) 1
Mumps 152,000 (1968) 600
Louis Pasteur 1822 - 1895 French chemist who
discovered germ theory of infectious disease
demonstrated the benefits of sterilization.
Edward Jenner 1749 - 1823 Used cowpox to protect
against smallpox. (Vaccination from Latin vacca
for cow.)
5
So - why worry?
New Biological Threats
Severe Acute Respiratory Syndrome (SARS)
Bacillus anthracis (anthrax)
Speed of Epidemic Outbreak
6
Destructive power of germs
Recent Human Epidemics
20,000,000 18,000,000 16,000,000 14,000,000 12,000
,000 10,000,000 8,000,000 6,000,000 4,000,000 2,00
0,000 70,000
of deaths
  • Severe Acute Respiratory Syndrome (SARS)
    Asia, Canada, U.S. 2003
  • Anthrax United States, Oct.
    2001
  • West Nile Virus United States 1999 - ?
  • Ebola hemorrhagic fever Gabon 2001
  • Meningococcal disease Ethiopia 2001

Atomic Bomb (Hiroshima)
Jewish Holocaust WWII
Spanish Flu of 1918
7
Types of germs
Bacteria 1 micron Staphylococcus aureus Escherichia coli Bacillus anthracis Smallest single-celled organism. Able to replicate outside the body.
Viruses 100 nanometers Influenza Variola (smallpox) HIV/AIDS Packets of genetic material -- requires host cell to replicate.
Fungi Mushrooms, mold (aspergillus) Not all are harmful to human health
8
Viral Infection I - Invading host cell
9
Viral Infection II - Replication of virus
10
Viral Infection III - Host cell lysis
11
The Immune System
  • The bodys natural defense against foreign and/or
    infectious agents
  • Skin
  • White blood cells
  • Antibodies

Antibodies recognize and bind to epitopes of
foreign molecules (antigens).
Phagocytes eat and destroy bacteria.
12
Immune System Antibodies
  • Antibodies help recognize foreign material in the
    body.
  • Anything that antibodies stick to will be
    attacked by the immune system.
  • Healthy individuals carry trillions of different
    antibodies in the bloodstream.

13
Immune System White Cells
  • White blood cells
  • macrophages
  • neutrophils
  • lymphocytes
  • use either native or adaptive immunity to
    destroy infectious agents.

T-lymphocytes use antibodies to recognize and
destroy infected cells.
14
War against germs
  • The immune system works constantly to keep
    infectious microbes in check.
  • Germs that can bypass or overwhelm primary
    defenses cause infectious disease.
  • Early detection of infectious disease is often
    the key to preventing widespread outbreak.

15
Methods of Biodetection
Laboratory culture microscopy
Immunoassay (ELISA)
DNA hybridization sequencing
16
Methods of Biodetection
Procedure put clinical sample in incubator and
wait for germs to grow. Look for germs under
microscope. Advantage Laboratory Gold
Standard Disadvantage Results take 7-10 days
Laboratory culture microscopy
17
How can we make him easier to spot?
18
Paint him bright purple??
???
19
Make him glow-in-the-dark !!
20
Immunoassays
  • Antibodies can be used to identify germs
  • Fluorescent labels allow us to locate antibodies
    without having to see germs
  • Capture antibody layer targeted germs
    reporter antibody layer Sandwich Immunoassay

Fluorescent Reporter Antibodies
Targeted germs
Capture Antibodies
21
Enzyme-linked Immunosorbent Assay (ELISA)
Positive test
ELISA is also known as a sandwich assay --
because the antibody and antigen layers are
stacked like a sandwich.
22
Methods of Biodetection
New methods detect molecules associated with
germs, instead of germs themselves. Advantages
very sensitive, results in 1-3 hours, no need for
microscope Disadvantages ?
Immunoassay (ELISA)
DNA hybridization sequencing
23
Advanced Biodetection
  • Need for better technology
  • Faster results
  • More accurate (no false readings)
  • Higher throughput
  • Cost-efficient
  • Automatic

24
Bead-Based Sandwich Immunoassay
Fluorescent reporter molecule binds to microbead
only in the presence of targeted antigen.
Bead schematics courtesy of Luminex Corp.
lthttp//www.luminexcorp.com/tech/gt
25
Multiplex Optical Encoding
26
Multiplex Immunoassay
100 bead classes 100
immunoassays
influenza
adenovirus
RSV
anthrax
etc...
Optically encoded beads allow multiple tests to
be run on a single sample.
27
Analyzing the Microbeads
28
Potential biodefense applications
  • Hospital-based flow cytometer systems
  • High-throughput screening of clinical samples
  • Handheld point-of-care instruments
  • Local clinic or paramedic first responder use
  • Autonomous monitoring systems
  • For continuous surveillance in strategic
    environments

29
Autonomous Pathogen Detection System (APDS)
  • Completely autonomous
  • Sample, concentrate, detect, identify and report.
  • Multiplex detection
  • Up to 100 discrete channels.
  • Detects all bioagent types
  • Bacterial spore / virus / toxin

30
Biodefense - A Multidisciplinary Field
  • Discovery through basic research
  • Innovative biotechnology
  • Excellent clinical medicine

31
Basic Science Research
  • Basic scientists
  • biologists
  • chemists
  • physicists
  • discover new mechanisms of disease that could
    offer new ways to detect or treat infectious
    disease.

32
Bioengineering Biotechnology
  • Engineers
  • electrical
  • mechanical
  • computer
  • apply scientific knowledge to develop new medical
    technologies.

33
Clinical Medicine
Doctors are the first to respond to infectious
disease, and also guide the direction of future
research and development.
34
Conclusions
  • Biodefense is everyones business. Public
    awareness is the first step towards prevention.
  • No solution lasts forever. Science and
    technology must adapt to cope with the evolving
    nature of infectious disease.
  • Future advances in biomedical research depend on
    experts in all disciplines..!

35
Acknowledgements
  • LLNL M-Division Medical Physics Biophysics
  • Candice Cook
  • Christine Paulson
  • Christine P. Nguyen
  • Ben Hindson
  • John T. Chang
  • Steven R. Visuri
  • Mary T. McBride
  • Kodumudi Venkateswaran
  • Bill W. Colston, Jr.
  • UC Davis Medical Center
  • James Carlson, Ph.D. (Clinical Microbiology)
  • Robert Derlet, M.D. (Emergency Medicine)
  • Luminex Corporation
  • Education Outreach - LLNL
  • Marsha McInnis
  • Jason Windsor
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