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Presentation 2
The Biological Nexus of Technological Innovation.
Kelvin Willoughby
Australian Centre for InnovationAddressing the challenges of the future through innovation
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For One Baby, Life Begins with Genome Revealed
How a California father made an end run around medicine to decode his son’s DNA.
Antonio Regalado, MIT Technology Review, June 13, 2014http://www.technologyreview.com/news/527936/for-one-baby-life-begins-with-genome-revealed/
An infant delivered last week in California appears to be the first healthy person ever born in the U.S. with his entire genetic makeup deciphered in advance.His father, Razib Khan, is a graduate student and professional blogger on genetics who says he worked out a rough draft of his son’s genome early this year in a do-it-yourself fashion after managing to obtain a tissue sample from the placenta of the unborn baby during the second trimester.… The idea of sequencing fetuses is extremely new and sensitive. Khan, who had no real medical reason to learn his son’s DNA code, says sequencing his son in utero “was more cool than practical.” He did it to show where technology is headed and because he likes “pushing the envelope.”
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Myriad Genetics Posts Key myPath Melanoma Data -
Analyst BlogNASDAQ --- Zacks.com, June 03, 2014
http://www.nasdaq.com/article/-myriad-genetics-posts-key-mypath-melanoma-data-analyst-blog-cm358611/
Myriad Genetics, Inc. ( MYGN ) reported results from a crucial clinical validation study of its myPath Melanoma test at the 2014 American Society of Clinical Oncology (ASCO) annual meeting in Chicago. The Myriad myPath Melanoma test is a clinically validated gene expression molecular test that has been designed to differentiate malignant melanoma from benign skin lesions, with a high level of accuracy. With certain melanomas imitating benign skin lesions, it becomes quite difficult for clinicians to diagnose melanoma in patients accurately. In such situations, Myriad myPath Melanoma comes of help as it has the ability to discriminate malignant melanoma from benign skin lesions, as has been observed in the validation study. The test differentiates between the two diseases by using traditional dermatopathology as a gold standard. A quick and accurate diagnosis of potentially fatal melanoma is now possible, thanks to Myriad myPath Melanoma.
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U.S. organizations signing: American Farm Bureau Federation; National Association of Wheat Growers; National Farmers Union; North American Millers' Association and U.S. Wheat Associates.
Canadian signatories: Canadian National Millers Association; Cereals Canada; Grain Farmers of Ontario; Grain Growers of Canada and Western Canadian Wheat Growers Association.
Australian signatories: AgForce Queensland; Grain Growers Limited; Grain Producers Australia; Grain Producers SA; Pastoral and Graziers Association of Western Australia and Victorian Farmers Federations Grains Group.
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Metabolix biopolymers are based on polyhydroxyalkanoate polymers (PHAs) and are made by fermentation using renewable carbon based feedstocks, making them 100% biobased in neat form. Metabolix has developed leading technology for production of a broad range of PHA biopolymers as evidenced by an industry leading intellectual property portfolio and continues to innovate further to expand the range of performance and production economics of our PHA biopolymers.
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© Prof. Kelvin W. Willoughby, 2005.
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© Prof. Kelvin W. Willoughby, 2005.
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Technologies categorized by thetypes of MEANS they incorporate
An approach to categorizingbiology-related technologies
Technologies categorized by thetypes of ENDS they serve
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Technologies categorized by thetypes of bio-related MEANS they incorporate
Fields of Bioscience Technology
Biotechnology
MedicalTechnology
Bio-systemsTechnology
Technologies categorized by thetypes of bio-related ENDS they serve
BioscienceTechnology
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2006 Professor Kelvin W. Willoughby.
Technologies categorized by thetypes of bio-related MEANS they incorporate
Fields of Bioscience Technology
Biotechnology
MedicalTechnology
Bio-systemsTechnology
Technologies categorized by thetypes of bio-related ENDS they serve
“Life Sciences”
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Technologies categorized by thetypes of bio-related MEANS they incorporate
Fields of Bioscience Technology
Biotechnology
MedicalTechnology
Bio-systemsTechnology
Technologies categorized by thetypes of bio-related ENDS they serve
BioscienceTechnologyMedical
Devices
Agri-bio
Technology
Bio-industrial
TechnologyPharmaceuticals
Sub-categorized by the
types of bio-related
means they incorporate
Sub-categorized by
the types of bio-related
applications they express
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Technologies categorized by thetypes of bio-related MEANS they incorporate
Fields of Bioscience Technology
Biotechnology
MedicalTechnology
Bio-systemsTechnology
Technologies categorized by thetypes of bio-related ENDS they serve
BioscienceTechnologyMedical
Devices
Agri-bio
Technology
Bio-industrial
TechnologyPharmaceuticals
Molecular biology, genomics, proteomics
Drug delivery devices,
Cardiac rhythm devices
Monoclonal antibody based diagnostics
Fermentation,
Industrial bioprocessing,
Food processing.
IllustrativeExamples(selections only)
Pharmacologically active GMOs
Nutritionally enhanced food
“Nutraceuticals”
Bio-pharmaceuticals
Pharmaceuticals (traditional)
Veterinary
technologies
Agri-biotech
Diagnostic devices,
Medical biosensors Bio-materials
Bio-fibers
Bio-fuels / Bio-energy
Bio-security technologies
Bio-sensors
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1800s 1900s 1950 1960 1970 1980 1990 2000 2025
Today’s advances leverage the accomplishments of previous ages, products, and technologies.
“Bio” business …
Industrial Age
Machine Age
Space AgeInformation Age
Biology AgeAtomic Age
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U.S. Bioscience and Total Private Sector Employment, 2001-10, Indexed (2001 = 100)
Source: Battelle/BIO, State Bioscience Industry Development Report (Battelle & Biotechnology Industry Organization,
2012)
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Employment Trends in the Biosciences and Other Knowledge-intensive Industries, 2001-10
Source: Battelle/BIO, State Bioscience Industry Development Report (Battelle & Biotechnology Industry Organization,
2012)
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Change in Real Average Annual Wages, United States, 2001-10
Source: Battelle/BIO, State Bioscience Industry Development Report (Battelle & Biotechnology
Industry Organization, 2012)
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U.S. Employment by Bioscience Subsector, 2007-10
Source: Battelle/BIO, State Bioscience Industry Development Report (Battelle & Biotechnology
Industry Organization, 2012)
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Food
Minnesota Life Science Community
NanoTech & Materials
Science
Genomics,Proteomics & High
ThroughputBiology
Bioinformatics &Systems Biology
Imaging / Navigation
Catalysis & Synthesis
(Biological & Chemical)
EnablingKnowledge
Clusters
Education Infrastructure PolicyFoundational Capabilities
Minnesota Industries
v.19jan09
Renew-able
Energy
Renew-
ableMaterials
Medical Devices
Biologics/Biopharma
Animal Health
CommercializationCatalysts
Int’l BusinessSupport Center
Component/Service Suppliers
Academic
Tech Transfer
Acceleration/Incubation
Funding
Leadership Talent
Skilled Workforce
Bioengineering & Clinical Capabilities
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Modes of Activity, Bioscience Technology Firms, New York, Late 1990s
Percentage of firms in the industry engaged significantly in each function.Source: Willoughby
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71%
89%
67%
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
Production Research &development
Productionand R&D
Percentage of Utah's bioscience technology firms engaged in production or research, 1998
Modes of Activity, Bioscience Technology Firms, Utah, Late 1990s
Source: Willoughby
Pe
rce
nta
ge
of
firm
s in
th
e in
du
stry
en
ga
ge
d s
ign
ifica
ntly
in e
ach
fu
nct
ion
.
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Variations in Modes of Activity Between Industry Sectors, Bioscience Technology Firms
Source: Willoughby
Per
cent
age
of fi
rms
in th
e in
dust
ry e
ngag
ed s
igni
fican
tly in
eac
h fu
nctio
n.
New York, Late 1990s
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Source: Willoughby
Technological Diversification by Bioscience-Technology FirmsNew York State, Late 1990s
Primary Field of Technology
Number of Firms in Population
% of Population Active in Other
Fields of Bioscience-Technology
% of "C" Active in Biotechnology
Biotechnology 140 57% 100%
Pharmaceuticals 74 55% 85%
Medical Devices 109 21% 91%
Life-Systems Technology 40 88% 80%
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Source: Willoughby
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Source: Willoughby
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“Take Away” Themes
• Biology is an emerging nexus zone of technological innovation.
• The business of bioscience-technology plays an increasingly significant role the wider economy and in a range of other industries.
• The business of bioscience-technology may provide great leverage for regional wealth generation.
• Communities compete with one another to become bio-business zones.
• Successful bioscience-technology firms tend to be multi-functional, interdisciplinary, and communicative.