FAIRLESS HILLS – Investors fled drug developer BioMarin in droves on Wednesday, driving shares down by a third after U.S. regulators rejected the company’s potentially game-changing hemophilia A gene therapy over concerns it might not really be a one-and-done lifetime treatment.
The U.S. Food and Drug Administration's rejection late Tuesday means the San Rafael, California-based company will have to complete an ongoing late-stage patient study, likely delaying possible approval till late in 2022.
The infused therapy, called Roctavian, could have freed hemophilia A patients from frequent, extremely expensive infusions of a blood-clotting therapy to prevent dangerous internal bleeding. It had been highly anticipated by doctors, patients and investors.
In a statement, BioMarin said the company and the FDA previously agreed on how much patient testing data the agency required to review the therapy, but in its rejection letter the FDA for the first time recommended Biomarin finish the late-stage study and provide two years of follow-up data on the therapy’s safety and efficacy in preventing internal bleeding for all study participants.
The company added that FDA concluded differences between the results of a small, early-stage study and interim data from the late-stage study left unclear how long the therapy’s effect would last.
Roctavian was meant to free patients with severe hemophilia A from 100 to 150 IV infusions of Factor VIII per year to prevent or at least reduce painful, spontaneous bleeding into joints and muscles, which can cause permanent damage to them.
Also known as valoctocogene roxaparvovec or valrox for short, it would have been the first gene therapy approved in the U.S. for any type of hemophilia. That's a rare, genetic bleeding disorder in which people don’t have enough of a clotting protein called Factor VIII due to a mutation in the gene responsible for producing it. They repeatedly suffer spontaneous internal bleeding. About 1 in 10,000 people, mostly males, have hemophilia A, including about 20,000 in the U.S. About half have severe disease.
The gene therapy works by using an inactivated virus, created in a lab, to deliver to liver cells a working gene via a one-time IV infusion meant to enable the body to produce FVIII on its own.