While development of personalized medicines has grown since the human genome was first sequenced in 2001, biopharmaceutical sponsors face a number of hurdles that are impeding more rapid market uptake, according to a recently completed study by the Tufts Center for the Study of Drug Development.

Fourteen years after the human genome was initially sequenced, paving the way for development of personalized medicine, 13 percent of drugs marketed in the United States today post pharmacogenomic information on the label, but developers continue to encounter challenges relating to basic science, regulatory and reimbursement policies, and, equally critical, clinical adoption, according to Tufts CSDD.

“The biopharmaceutical industry is increasingly committed to translating genomic discoveries into personalized medicines, but it needs to overcome scientific, regulatory, and economic challenges,” says Joshua Cohen, associate professor at Tufts CSDD. “In particular, the continued development of personalized medicine depends on identifying biomarkers and developing clinically useful diagnostic tests.”

He noted, however, that higher R&D success rates alone may not translate into commercial success without physicians increasing the rate at which they prescribe personalized medicines, supported by payer willingness to reimburse users.

Biopharmaceutical companies said they expect investment in personalized medicine to increase 33 percent, and medicines in development to increase 69 percent, over the next five years. Biomarker identification and diagnostic test development rank highest in terms of scientific challenges, followed by regulatory and reimbursement issues. Oncology products continue to rank highest in terms of average share of personalized medicines in development across all phases, followed by neurology and cardiovascular drugs.

To date, the Food and Drug Administration has approved 137 drugs with pharmacogenomics information in their labeling, with 20 percent of all FDA approvals in 2014 for personalized medicines, according to Tufts CSDD.