As a result of these significant accomplishments at the University of Wisconsin, the Wisconsin Alumni Research Foundation (WARF) filed a series of landmark patents that have affected the intellectual property landscape ever since. These “composition of matter” patents concerning primate embryonic stem cells are controversial because they are so broad that they cover all human embryonic stem cell lines in the United States, not just the specific stem cell lines developed by James Thompson.
Since this time, WARF has been the major gatekeeper determining which research product companies have been allowed to conduct research and create commercial products using hESCs. WARF has also been in control of what pharmaceutical companies have been able to develop hESC therapies. Since obtaining its landmark patents in 1998, WARF has only entered into licensing agreements with 27 commercial partners for its intellectual portfolio related to isolating and differentiating hESCs, of which only 15 have been disclosed. 300 academic laboratories have also received agreements for using the technology without charge.
The low number of licensing agreements suggests that many companies find WARFs licensing fees to be unwieldy, which isnt surprising given that disclosed fees have ranged from $75,000 to more than $250,000, plus annual payments and royalties. While Invitrogen, Becton Dickinson and Chemicon have disclosed licensing agreements with WARF, many research products companies have to explore less costly alternatives such as circumventing the claims, conducting research off-shore, potential use of abnormal karyotypes, developing embryonic stem cell products for other species, and pursuing strategic collaborations.
I. Background
A. Human Embryonic Stem Cells (hESC)
B. Brief History
C. Use in Treatment of Disease
D. Human Embryonic Stem Cell Line Availability
II. Available Stem Cell Lines
A. NIH Registry Approved
B. Sources of Additional Published hESC Lines
C. Sources of Additional Unpublished hESC Lines
III. Applications
A. Basic Stem Cell Biology
B. Cellular Therapies
1. Overview
2. Heart Regeneration
3. Pancreatic Islet Cell Replacement
4. Neural Regeneration
C. Tissue Engineering
D. Toxicology Testing
IV. Application Priorities
A. Overall
1. Cell-Based Therapies: Greatest shared priority across research community
a. Beneficial hESC Characteristics
b. hESC Safety Concerns
c. hESC Characterization in Vitro
d. hESC Characterization in Vivo
2. Toxicology Assessment: Another area of huge potential
a. Overview
b. Commercial Interest
B. By Segment
1. Academic
2. Biotech
3. Pharma
V. Patent Environment
A. Landmark hESC Patents: WARF Composition of Matter Patents
1. Background
2. Licensing of WARF Patent Rights
a. Overview of WARF Licensees
b. Most Recent WARF Licensee: Pfizer, Inc. (May 2009)
3. WARF Patent Exemption: Federal Rights to hESC Research
4. U.S. WARF Patent Challenges
5. Circumventing WARF Patent Rights Using Geographic Limitations
B. Global Stem Cell Patent Landscape
C. U.S. Patents of Importance
1. Geron Corporation Patents
2. Regents of the University of California Patents
3. BresaGen, Inc. Patents
4. Regeneron Pharmaceuticals, Inc.
5. Vanderbuilt University Patents
D. Worldwide Patents of Importance
1. ES Cell International PTE Ltd. Patents (Singapore)
2. DNAVEC Research Inc. Patents (Ibaraki, JP)
3. University of Edinburgh Patents (Edinburgh, GB)
E. Summary of the hESC Intellectual Property Landscape
VI. Historical and Future Growth Projections
A. PubMed Analysis
1. Historical Analysis (Trailing 10 Years)
2. Future Growth Predictions (5-Year Forecasts)
3. Breakdown of ESC Research by Species
B. CRISP Analysis
C. Patent Analysis
1. All Fields
2. Abstract Only
VII. hESC PRODUCT COMPETITORS
A. Cellartis AB
1. Human embryonic stem cell lines
2. Monoclonal Antibodies for hESC Research
3. Differentiated Cell Products
4. Associated hESC products
B. Vitrolife
C. Tataa Biocenter
D. Invitrogen
1. hESC Culture Media and Reagents
2. hESC-qualified Basement Membrane Extract
3. hESC cDNA Libraries
4. hESC Reporter Cells
5. hESC PCR Kits
6. hESC Stem Cell Antibodies
7. hESC Stem Cell Growth Factors
E. Stem Cell Technologies
1. hESC Culture Media and Reagents
2. hESC Primary and Secondary Antibodies
F. BD Biosciences
G. Chemicon
1. hESC Culture Media and Reagents
2. hESC Lines
3. hESC Kits
4. hESC Antibodies
H. R and D Systems
I. SA Biosciences
J. Thermo Scientific
K. Australian Stem Cell Centre
VIII. Specialty Pharmaceutical Companies developing hESC Therapies
A. Geron
B. Novocell
C. Cell Cure Neurosciences Ltd
D. Cell Dynamics International
E. Advanced Cell Technology
IX. Featured Labs (Potential Customers)
A. Academic Labs
B. Private Labs
C. Government Labs
D. International Labs
X. Toxicology Testing Legislation
1. European Union to Ban Animal-Testing for Cosmetic Development in 2009
2. Responses to the European Ban on Animal Testing for Cosmetic Development
a. Overview
b. Skin Irritation
c. Eye Irritation
d. Skin Sensitisation
e. Mutagenicity/Genotoxicity
f. Reproductive Toxicity
3. EU Legislation Regarding Animal-Based Testing for Drug Discovery
XI. Product Development Suggestions
A. Product Categories
1. hESCs
2. hESC Derivative Cells
3. hESC Reporter Cells
4. hESC Antibodies
5. hESC Characterization and PCR Kits
6. hESC Qualified BME
7. hESC cDNA Libraries
8. hESC Growth Factors
9. hESC Media and Culture Reagents
B. Product Ideas and Suggestions
1. Areas of Underdeveloped Competition
2. Mouse ESC Products
3. iPS Cells Products
4. Non-animal-derived Culture Reagents for hESCs
5. Strategic Collaborations
6. Products for generating Pure ESC populations
7. hESC Toxicity Assay Kit
XII. Events of Interest
A. Annual Wisconsin Stem Cell Symposium
B. World Stem Cells and Regenerative Medicine Congress
C. World Stem Cell Summit 2010
D. Stem Cells 2010, Achieving Success in Science and Commercialization
E. International Society for Stem Cell Research, Upcoming Events
1. This Year (2010)
2. Next Year (2011)