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 Thanks to advances in delivering genes to targeted cells, more
treatments based on fixing faulty DNA in patients are coming soon,
including the first ones in the United States.
Yet the lack of sales for the two drugs already launched to treat
ultra-rare diseases in Europe highlights the hurdles ahead for
drugmakers in marketing new, extremely expensive products for
genetic diseases.
After decades of frustrations, firms believe there are now major
opportunities for gene therapy in treating inherited conditions such
as haemophilia. They argue that therapies offering one-off cures for
intractable diseases will save health providers large sums in the
long term over conventional treatments which each patient may need
for years.
In the past five years, European regulators have approved two gene
therapies - the first of their kind in the world, outside China -
but only three patients have so far been treated commercially.
UniQure's <QURE.O> Glybera, for a very rare blood disorder, is now
being taken off the market given lack of demand.
The future of GlaxoSmithKline's <GSK.L> Strimvelis for ADA-SCID - or
"bubble boy" disease, where sufferers are highly vulnerable to
infections - is uncertain after the company decided to review and
possibly sell its rare diseases unit.
Glybera, costing around $1 million per patient, has been used just
once since approval in 2012. Strimvelis, at about $700,000, has seen
two sales since its approval in May 2016, with two more patients due
to be treated later this year.
"It's disappointing that so few patients have received gene therapy
in Europe," said KPMG chief medical adviser Hilary Thomas. "It shows
the business challenges and the problems faced by publicly-funded
healthcare systems in dealing with a very expensive one-off
treatment."
These first two therapies are for exceptionally rare conditions -
GSK estimates there are only 15 new cases of ADA-SCID in Europe each
year - but both drugs are expected to pave the way for bigger
products.
The idea of using engineered viruses to deliver healthy genes has
fuelled experiments since the 1990s. Progress was derailed by a
patient death and cancer cases, but now scientists have learnt how
to make viral delivery safer and more efficient.
Spark Therapeutics <ONCE.O> hopes to win U.S. approval in January
2018 for a gene therapy to cure a rare inherited form of blindness,
while Novartis <NOVN.S> could get a U.S. go-ahead as early as next
month for its gene-modified cell therapy against leukaemia - a
variation on standard gene therapy.
At the same time, academic research is advancing by leaps and
bounds, with last week's successful use of CRISPR-Cas9 gene editing
to correct a defect in a human embryo pointing to more innovative
therapies down the line.
PAY-FOR-PERFORMANCE
Spark Chief Executive Jeffrey Marrazzo thinks there are specific
reasons why Europe's first gene therapies have sold poorly,
reflecting complex reimbursement systems, Glybera's patchy clinical
trials record and the fact Strimvelis is given at only one clinic in
Italy.
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He expects Spark will do better. It plans to have treatment centers
in each country to address a type of blindness affecting about 6,000
people around the world.
Marrazzo admits, however, there are many questions about how his
firm should be rewarded for the $400 million it has spent developing
the drug, given that healthcare systems are geared to paying for
drugs monthly rather than facing a huge upfront bill.
A one-time cure, even at $1 million, could still save money over the
long term by reducing the need for expensive care, in much the same
way that a kidney transplant can save hundreds of thousands of
dollars in dialysis costs.
But gene therapy companies - which also include Bluebird Bio <BLUE.O>,
BioMarin <BMRN.O>, Sangamo <SGMO.O> and GenSight <SIGHT.PA> - may
need new business models.
One option would be a pay-for-performance system, where governments
or insurers would make payments to companies that could be halted if
the drug stopped working.
"In an area like haemophilia I think that approach is going to make
a ton of sense, since the budget impact there starts to get more
significant," Marrazzo said.
Haemophilia, a hereditary condition affecting more than 100,000
people in markets where specialty drugmakers typically operate,
promises to be the first really big commercial opportunity. It
offers to free patients from regular infusions of blood-clotting
factors that can cost up to $400,000 a year.
Significantly, despite its move away from ultra-rare diseases, GSK
is still looking to use its gene therapy platform to develop
treatments for more common diseases, including cancer and beta-thalassaemia,
another inherited blood disorder.
Rivals such as Pfizer <PFE.N> and Sanofi <SASY.PA> are also
investing, and overall financing for gene and gene-modified cell
therapies reached $1 billion in the first quarter of 2017, according
to the Alliance of Regenerative Medicine.
Shire <SHP.L> CEO Flemming Ornskov - who has a large conventional
haemophilia business and is also chasing Biomarin and Spark in
hunting a cure for the bleeding disorder - sees both the
opportunities and the difficulties of gene therapy.
"Is it something that I think will take market share mid- to
long-term if the data continues to be encouraging? Yes. But I think
everybody will have to figure out a business model."
(Reporting by Ben Hirschler; editing by David Stamp)
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