Bluebird Bio's sickle cell gene therapy
working for French boy
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[June 13, 2015]
By Ben Hirschler
LONDON (Reuters) - A pioneering gene
therapy for sickle cell disease is working well so far for a 13-year-old
French boy with the hereditary blood disorder, researchers said on
Saturday, in a boost for the technology to fix faulty genes.
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He is the first patient with severe sickle cell disease (SCD) to
be treated with Bluebird Bio's LentiGlobin BB305 product, which the
U.S. biotech company believes could cure the disorder.
SCD is caused by a mutated gene, resulting in abnormal red blood
cell function. Patients suffer anemia, painful obstruction of blood
vessels and, in some cases, early death.
Bluebird's gene therapy treats the condition by extracting blood
stem cells and then adding a working version of the malfunctioning
gene.
Results presented at the European Hematology Association meeting in
Vienna showed the French patient has not needed a life-sustaining
blood transfusion for more than three months and his body was
producing 45 percent so-called anti-sickling hemoglobin at six
months.
"(This) is cause for optimism as we expect levels of anti-sickling
hemoglobin of 30 percent or more could significantly improve and
potentially eliminate the serious and life-threatening complications
associated with sickle cell disease,” said lead investigator Marina
Cavazzana of Paris Descartes University.
Two other patients with a related blood disorder called
beta-thalassemia remained transfusion-independent at 16 and 14
months respectively. Bluebird had already reported success with
beta-thalassemia patients for a shorter period of time.
Shares in Bluebird have doubled this year on growing hopes for its
gene therapy drug pipeline and the latest results may shore up
confidence further, although analysts said data from more patients
was needed to better understand the treatment's potential.
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Gene therapy is currently undergoing a renaissance following a
series of setbacks in the late 1990s and early 2000s, and several
large drugmakers are now buying into the field.
The medical approach has the potential to revolutionize a number of
diseases caused by faulty genes, ranging from blood disorders to eye
problems to heart failure.
But producing gene therapy products is extremely complex and the $1
million price tag for the first such drug approved in Europe, from
Dutch firm UniQure, highlights the quandary facing governments and
insurers as to whether they will offer value for money.
(Editing by Mark Potter)
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