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Much Ado About Nano: The Inve$tment Climate for NanoMedTech Ventures Omar Amirana, MD Oxford Bioscience Partners MassMEDIC April 10, 2007 [email protected] What is nanotechnology? Nanotechnology is the understanding and control of matter at dimensions of roughly 1 to 100 nanometers • Unique phenomena enable novel applications • Nanotechnology involves imaging, measuring, modeling, and manipulating matter at this scale A nanometer is one-billionth of a meter. • Typical C-C bond lengths are in the range .12-.15 nm • DNA double-helix has a diameter around 2 nm • The smallest cellular life forms, the bacteria of the genus Mycoplasma, are around 200 nm in length. Unique behavior: physical, chemical, and biological properties of nanoscale materials can be exploited for a large variety of applications Source: www.nano.gov Source: www.nano.gov Longer term, nanomedical opportunities are mystifying and intoxicating… Respirocytes Implantable Nano Power Sources Nanowires convert mechanical energy into current. They could be implanted in the body, and, driven by muscle contractions, blood flow, or external vibrations transmitted through tissue. They could power implantable sensors. Vascular System and Hematology Police USPTO & Nano: A lot of cool stuff looking to solve problems Results of Search in US Patent Collection db for: nano: 12473 patents. Hits 1 through 15 out of 12473 PAT. NO. Title 7,200,493 Method for screening crystallization or amorphous stage conditions for molecules 7,200,318 Near infra-red composite polymer-nanocrystal materials and electro-optical devices produced therefrom 7,200,308 Frequency conversion with nonlinear optical polymers and high index contrast waveguides 7,200,152 Local area network for distributing data communication, sensing and control signals 7,200,006 Compliant thermal interface for electronic equipment 7,199,983 Magnetoresistive device utilizing a magnetoresistance effect for reading magnetic information 7,199,981 High reliability-parallel data transfer hard disk drive 7,199,924 Apparatus and method for spectral-beam combining of high-power fiber lasers 7,199,809 Graphic design of combinatorial material libraries 7,199,498 Electrical assemblies using molecular-scale electrically conductive and mechanically flexible beams and methods for application of same 7,199,443 Integration of filters using on-chip transformers for RF and wireless applications 7,199,439 Microelectronic imagers and methods of packaging microelectronic imagers 7,199,305 Protosubstrates 7,199,278 Conversion of oxygenates to olefins 7,199,277 Pretreating a catalyst containing molecular sieve and active metal oxide Nano = King of Cool Recommended photo gallery: M. Meyyappan Director, Center for Nanotechnology NASA Ames Research Center Moffett Field, CA 94035 [email protected] web: http://www.ipt.arc.nasa.gov National Nanotechnology Initiative (NNI; founded 2001) = main source of R&D dollars but VC $ is significant Sources of Nanotech Funding 1600 1,351 1400 Private Equity Funding 1200 Government (NNI) Funding 1,081 863 800 697 656 600 399 400 74 84 464 633 649 530 420 417 104 20 07 E 20 08 E 20 06 20 05 20 04 20 03 20 02 20 01 20 00 19 99 19 98 0 19 97 $ 1,445 989 1000 200 1,392 Nanotech is still in its infancy – But the investment sector is real Source(s): www.nano.gov, Thomson VentureSource Venture capitalists have funded <150 “nano” companies in the last 10 years 1997-2007 Nanotech Financings and Post-$ Valuation 100 90 80 70 89.5 Average Raise Average Post- $ Median Raise Median Post-$ 78.1 $ 60 53.5 50 41.0 40.0 40 30 24.0 17.6 20 10 5.8 8.2 11.4 14.2 8.3 10.0 13.0 7.0 3.0 0 Seed/A Round B Round C Round All Other Rounds Source: Thomson VentureSource Exits in nanotech have been scarce Status of 1997-2007 VentureBacked Nanotech Companies Companies Raising Venture Money between 1997 and 2007 120 160 106 140 100 120 100 82 80 54 60 33 40 # of Companies # of Companies 140 80 60 40 20 20 14 14 6 0 0 Seed/A Round B Round C Round All Other Rounds Public Acquired Private Out of Business Source: Thomson VentureSource Life science provided majority of exits (13 of 20); 6 known exits > $100M 2 Nanotech Exits Accent Optical Technologies – Acquired for $45M Acusphere – IPO at $226M Angstron Systems – Acquired at undisclosed price 2 2 4 1 9 Drug delivery Medical Device Life Science Tools Electronic Manufacturing Semiconductor Specialty Materials Applied Optronics – Acquired at undisclosed price Aprio Technologies – Acquired at undisclosed price Arryx – Acquired at $32M BioForce Nanosciences – Acquired at undisclosed price Clinical Micro Sensors – Acquired at $280M Iomai – IPO at $132M MicroE Systems – Acquired for $55M Molecular Insight Pharmaceuticals – IPO at $381M Nanogen – IPO at $217M Nanogram Devices – Acquired for $45M Nanophase Technologies – IPO at $59M Nanotronics – Acquired at undisclosed price NimbleGen Systems – Filed for IPO 3/07 Protometrix – Acquired at undisclosed price Quantum Dot – Acquired at undisclosed price Tailored Materials – Acquired at undisclosed price Third Wave Technologies – IPO at $457M Boxed companies have valuations > $100M Source: Thomson VentureSource Post-IPO performance has been disappointing Biotech/Pharma companies are partnering instead of acquiring nanotech companies • Oxonica licensed nanoparticle tagging technology to Becton Dickinson to create clinical diagnostics (2007) • Nanosyn signed agreements with Amphora, Arqule, and Euroscreen to provide medicial chemistry services using its nanoscale technology (2005-2006) • Psivida, which develops drug delivery products, signed an exclusive research and license agreement for its technology with Pfizer Inc primarily for ophthalmology and oncology. It will receive up to $155 million in development and sales-related milestone payments. MedTech companies are not acquiring nano companies either; and can provide barriers Larger MedTech companies: • do not want to acknowledge flaws in their products. • have no real need to improve unless threatened. • view nanotech as an expensive incremental improvement / alternative • do not want to negatively impact ASP or margin Biophan developed coatings for pacemaker and ICD leads to improve MRI compatibility. The ultimate example: Drug Delivery Needle Injection is: Traumatic Painful Ineffective / Imprecise Dangerous at times Decades old Accepted But… EASY INEXPENSIVE Other $B franchises that might benefit from nanotech where adoption has lagged Success stories include Advanced Magnetics (AMAG)… Ferumoxytol, the primary value driver for Advanced Magnetics, is currently in four Phase III multi-center clinical trials for use as an iron replacement therapeutic in chronic kidney disease (CKD) patients. Combidex is an investigational functional molecular imaging agent consisting of iron oxide nanoparticles for use in conjunction with magnetic resonance imaging, also known as MRI, to aid in the differentiation of cancerous from normal lymph nodes. …but they are rare, recent, and often ‘repurposed’ Even AGAM needed time to reach success Awareness, investments and spending should continue to increase… Nanotechnology related goods and services – by 2010-2015 USD trillions • Conservative case • NSF Estimate •Other •Aerospace 0.5 •Chemical Manufacturing 1.1 •Pharmaceuticals • Aggressive case 2.0 •Materials 9% 6% 31% 9% 17% 28% •Electronics …as the “nano” brand gets diluted and continues to be used for marketing The Next Big Thing is Really Small: How Nanotechnology Will Change the Future of Your Business by Jack Uldrich Recent nano applications/ innovations are not “typical” for typical VCs... • • • • Step assists on vans Bumpers on cars Paints, Ink and coatings Automobile catalytic converters • Metal-cutting tools • Stain-free clothing and mattresses • Dental-bonding agent • Sunscreens and cosmetics • Longer-lasting tennis balls • Longer and straighter flying golf balls • Light-weight, stronger tennis racquets • Burn and wound dressings Source: www.nano.gov …but the future of nanotechnology in medicine could be a VC sweet spot • Advanced drug delivery systems, including implantable devices that automatically administer drugs and sensor drug levels • Medical diagnostic tools, such as cancer tagging mechanisms, lab-on-a-chip, real time diagnostics, or Sensors for airborne chemicals or other toxins • Cooling chips or wafers to replace compressors in cars, refrigerators, air conditioners and multiple other devices, utilizing no chemicals or moving parts • Photovoltaic (solar) cells, fuel cells and portable power to provide inexpensive, clean energy • New high-performance materials • THM: Find a specific problem that NEEDS to be solved. Predictions and Probabilities • Nanotech will grow through corporate partnerships • Large companies will drive nanotech adoption in various areas, avoid adoption in others • VC Investments will be selective (later stage/proven?) • VCs will need to set aside plenty of reserves • More IPOs; VCs will likely invest in more PIPEs • There will be some big winners and many losers Certainty: Things will not stay the same. Thanks to Pei Ho, Oxford Bioscience Partners