Life-saving scientific research is being stifled by a "broken" patent
system, according to a new report.
"Blocking patents" are delaying advances in cancer medicine and food
crops, says the Canada-based Innovation Partnership, a non-profit
consultancy.
The full benefits of synthetic biology and nanotechnology will not be
realised without urgent reforms to encourage sharing of information,
they say.
Their findings will be reported next week to UK policymakers and NGOs.
The report is compiled by the Innovation Partnership's International
Expert Group on Biotechnology, Innovation and Intellectual Property.
It cites examples of medical advances which have been delayed from
reaching people in need - in both the developed and developing world.
These include HIV/Aids drugs, cancer screening tests, and rice
engineered to contain vitamin A.
The authors offer guidelines for a transition from "Old IP" to "New IP",
in which companies, researchers and governments recognise that sharing
information is mutually beneficial.
"If we are to turn the atoms of publicly funded discovery into molecules
of innovation... we have to make sure research avenues stay open," said
the report's lead author, Professor Richard Gold.
"That doesn't mean there will be no patents. It simply means that
patents don't become a barrier to early stage research.
"We do not want to end up in the same situation with nanotechnology that
we are in with genetics."
Fortress IP
The traditional view is that strong patent protection stimulates
innovation, reassuring companies that it is safe to invest in research
without fear of being stung by rivals.
Under this "old" model of intellectual property (IP), biotech firms
raced to file a "fortress" of patents around newly discovered genes,
closing off avenues of research for their competitors.
But this strategy is ultimately counter-productive for both industry and
consumers, argues the report, not least because it deters grass roots
research in universities.
Work on the BRCA1 and BRCA2 genes that can cause breast cancer has been
held up by legal disputes over patents held on the genes by Myriad
Genetics, a biotech firm based in Utah, US.
Meanwhile, patients in European countries were denied access to the
cancer screening kits, because national health services were unwilling
to meet the cost.
The Myriad case is "an anatomy of old IP gone wrong", said Dr Gold,
Professor of Intellectual Property Law at McGill University in Montreal.
"Myriad is not the exception - it is the rule. Others are following and
will continue to follow, unless we drastically change things."
Golden rice
Another casualty is the "golden rice" strain, genetically engineered to
contain vitamin A.
The rice was intended to be freely distributed to farmers in the
developing world, where vitamin A deficiency is responsible for more
than 1 million deaths and 500,000 cases of irreversible blindness each
year.
But even though the strain was created in 2005, farmers have still not
reaped the benefits.
Distribution has been held up while its inventors negotiate agreements
with dozens of companies holding patents for technologies used to
engineer the rice.
"It has taken years just to figure out how many patents there actually
are and who owns them. We must address this lack of transparency," said
Professor Gold.
To facilitate sharing of information, he believes companies should be
encouraged to form "patent pools", allowing them to cross-license their
technologies without losing out on royalties.
An example is the pool established by the international partnership
Unitaid to provide HIV patients in developing countries with access to
affordable anti-retroviral drugs.
Governments should develop public-private partnerships to conduct early
stage research, and seek other ways to encourage innovation - via tax
credits, for instance.
Meanwhile, patent offices must standardise their information gathering
and do more to help firms in developing countries gain access to
accurate patent information, the report recommends.
Synthetic biology
Reform now would ensure that society feels the full benefit of new
fields such as synthetic biology, a discipline that could lead to cells
with novel genomes which perform useful functions, such as making
biofuels or absorbing greenhouse gases.
Dr Craig Venter, the man who led the private sector effort to sequence
the human genome, has already raised eyebrows by applying to patent the
method he plans to use to create a "synthetic organism".
Fears that these patents may be too broad have been raised by the ETC
Group, which campaigns for the reform of biotech patenting.
"The patenting system is not functioning. It is more of a barrier than
an incentive," said Pat Mooney, the organisation's executive director.
"In pharmacy, we no longer see much discovery - we see firms playing
safe and holding onto their turf.
"Meanwhile, in nanotechnology, we have seen some dangerously broad
patents, which cut off whole areas of research.
"Patent offices must get up to speed with new areas of science, so they
know exactly how much they are giving away." |