Please use this identifier to cite or link to this item: https://doi.org/10.3389/fonc.2014.00058
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dc.titleWill the requirement by the US FDA to simultaneously co-develop companion diagnostics (CDx) delay the approval of receptor tyrosine kinase inhibitors for RTK-rearranged (ROS1-, RET-, AXL-, PDGFR-α-, NTRK1-) non-small cell lung cancer globally?
dc.contributor.authorOu, S.-H.I
dc.contributor.authorSoo, R.A
dc.contributor.authorKubo, A
dc.contributor.authorKawaguchi, T
dc.contributor.authorAhn, M.-J
dc.date.accessioned2020-11-10T00:26:54Z
dc.date.available2020-11-10T00:26:54Z
dc.date.issued2014
dc.identifier.citationOu, S.-H.I, Soo, R.A, Kubo, A, Kawaguchi, T, Ahn, M.-J (2014). Will the requirement by the US FDA to simultaneously co-develop companion diagnostics (CDx) delay the approval of receptor tyrosine kinase inhibitors for RTK-rearranged (ROS1-, RET-, AXL-, PDGFR-α-, NTRK1-) non-small cell lung cancer globally?. Frontiers in Oncology 43559 : Article 58. ScholarBank@NUS Repository. https://doi.org/10.3389/fonc.2014.00058
dc.identifier.issn2234943X
dc.identifier.urihttps://scholarbank.nus.edu.sg/handle/10635/183179
dc.description.abstractThe discovery of anaplastic lymphoma kinase (ALK) rearrangement in non-small cell lung cancer (NSCLC) in 2007 and the approval of crizotinib for the treatment of advanced ALK-rearranged NSCLC in 2011 represents a landmark in the development of targeted oncology therapy. The approval of crizotinib was accompanied simultaneously by the approval of the Vysis (Abbott Molecular) break-apart fluorescence in situ hybridization (FISH) test as the companion diagnostic (CDx) test to detect ALK rearrangement. Pfizer, the manufacturer of crizotinib, sponsored the screening of thousands of patients and the standardization of the ALK FISH test as part of the approval process for crizotinib, a first in class ALK inhibitor. Many pharmaceutical companies are now using the Food and Drug Administration (FDA)-approved ALK FISH assay to enroll patients onto trials for their own respective ALK inhibitors. In essence they are "piggybacking" on the FDA-approved ALK FISH assay without having to pay for the development of a CDx, nor screening for ALK-rearranged NSCLC patients in the protocols because screening for ALK rearrangement is now the standard of care in NSCLC after the approval of crizotinib. Since 2007, rearrangement in more receptor tyrosine kinases (RTKs) such as ROS1, RET, AXL, PDGFR-α, and NTRK1 have been discovered in NSCLC but the incidence of each subtype of RTK-rearranged NSCLC is quite rare. Crizotinib has now demonstrated significant clinical activity in ROS1-rearranged NSCLC patients. Whether crizotinib will gain official FDA approval for use in ROS1-rearranged NSCLC, on the other hand, remains unclear as there is no test for ROS1-rearrangement currently being developed to support US FDA approval as a CDx. This may be due in part to the fact that the full cost associated with the development of a pre-market approved-approved CDx must be borne by the company seeking the first drug approval in a new indication. Given the low incidence of ROS1-rearrangement in NSCLC, and the availability of crizotinib in most countries, a more cost-effective way is for crizotinib to gain compendium listing for ROS1-rearranged NSCLC in treatment guidelines. However, without a formal indication from the FDA, a drug cannot be marketed for off label use, it is unlikely that payers public or private will routinely pay for molecular testing for ROS1-rearrangement in NSCLC let alone reimburse off label use of crizotinib. Similarly, several marketed tyrosine kinase inhibitors (TKIs) in the US (sorafenib, sunitinib, vandetanib, cabozantinib, regorafenib) are potent RET inhibitors in vitro. It does not make sense for any one pharmaceutical company to shoulder the full cost of developing a particular CDx for RET-rearranged NSCLC where, once approved, it may be used by other pharmaceutical companies to gain addition labeling approval for their own RET inhibitors. Thus, the requirement by the US FDA that a specific CDx have to be co-developed and standardized for each of the molecular subtype of NSCLC as part of the drug approval process, while prudent, may have the un-intended consequence of deterring clinical development of these TKIs in these very rare molecular subsets of NSCLC. While we all march to the drumbeat of precision cancer medicine, the stringent requirement of co-development CDx for each molecular subtype of solid tumor may inadvertently make this goal substantially more difficult to achieve. © 2014 Ou, Soo, Kubo, Kawaguchi and Ahn.
dc.rightsAttribution 4.0 International
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/
dc.sourceUnpaywall 20201031
dc.subjectanaplastic lymphoma kinase
dc.subjectbrain derived neurotrophic factor receptor
dc.subjectcabozantinib
dc.subjectCD74 antigen
dc.subjectcrizotinib
dc.subjectlenvatinib
dc.subjectplatelet derived growth factor alpha receptor
dc.subjectplatelet derived growth factor receptor
dc.subjectponatinib
dc.subjectprotein Ret
dc.subjectprotein tyrosine kinase
dc.subjectprotein tyrosine kinase A
dc.subjectprotein tyrosine kinase inhibitor
dc.subjectRaf protein
dc.subjectregorafenib
dc.subjectsorafenib
dc.subjectsunitinib
dc.subjectvandetanib
dc.subjectvasculotropin receptor 1
dc.subjectvasculotropin receptor 3
dc.subjectbreast cancer
dc.subjectchronic myelomonocytic leukemia
dc.subjectclinical trial (topic)
dc.subjectcolorectal carcinoma
dc.subjectcost effectiveness analysis
dc.subjectDNA transfection
dc.subjectdrug approval
dc.subjectdrug industry
dc.subjectfluorescence in situ hybridization
dc.subjectfood and drug administration
dc.subjectgene rearrangement
dc.subjecthuman
dc.subjectimmunohistochemistry
dc.subjectlung non small cell cancer
dc.subjectmolecular diagnostics
dc.subjectoff label drug use
dc.subjectreverse transcription polymerase chain reaction
dc.subjectreview
dc.subjectsequence analysis
dc.subjectsequence homology
dc.subjectthyroid cancer
dc.typeReview
dc.contributor.departmentCANCER SCIENCE INSTITUTE OF SINGAPORE
dc.description.doi10.3389/fonc.2014.00058
dc.description.sourcetitleFrontiers in Oncology
dc.description.volume43559
dc.description.pageArticle 58
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