Crizotinib inhibition of ROS1-positive tumours in advanced non-small-cell lung cancer: A Canadian perspective

D. Gwyn Bebb; J. Agulnik; R. Albadine; S. Banerji; G. Bigras; C. Butts; C. Couture; J. C. Cutz; P. Desmeules; D. N. Ionescu; N. B. Leighl; B. Melosky; W. Morzycki; F. Rashid-Kolvear; H. S. Sekhon; A. C. Smith; T. L. Stockley; E. Torlakovic; Z. Xu; M. S. Tsao

doi:10.3747/co.26.5137

Crizotinib inhibition of ROS1-positive tumours in advanced non-small-cell lung cancer: A Canadian perspective

D. Gwyn Bebb, J. Agulnik, R. Albadine, S. Banerji, G. Bigras, C. Butts, C. Couture, J. C. Cutz, P. Desmeules, D. N. Ionescu, N. B. Leighl, B. Melosky, W. Morzycki, F. Rashid-Kolvear, H. S. Sekhon, A. C. Smith, T. L. Stockley, E. Torlakovic, Z. Xu, M. S. Tsao

Medicine

Medicine

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Abstract

The ros1 kinase is an oncogenic driver in non-small-cell lung cancer (nsclc). Fusion events involving the ROS1 gene are found in 1%-2% of nsclc patients and lead to deregulation of a tyrosine kinase-mediated multi-use intracellular signalling pathway, which then promotes the growth, proliferation, and progression of tumour cells. ROS1 fusion is a distinct molecular subtype of nsclc, found independently of other recognized driver mutations, and it is predominantly identified in younger patients (>50 years of age), women, never-smokers, and patients with adenocarcinoma histology. Targeted inhibition of the aberrant ros1 kinase with crizotinib is associated with increased progression-free survival (pfs) and improved quality-of-life measures. As the sole approved treatment for ROS1-rearranged nsclc, crizotinib has been demonstrated, through a variety of clinical trials and retrospective analyses, to be a safe, effective, well-tolerated, and appropriate treatment for patients having the ROS1 rearrangement. Canadian physicians endorse current guidelines which recommend that all patients with nonsquamous advanced nsclc, regardless of clinical characteristics, be tested for ROS1 rearrangement. Future integration of multigene testing panels into the standard of care could allow for efficient and cost-effective comprehensive testing of all patients with advanced nsclc. If a ROS1 rearrangement is found, treatment with crizotinib, preferably in the first-line setting, constitutes the standard of care, with other treatment options being investigated, as appropriate, should resistance to crizotinib develop.

Original language	English
Pages (from-to)	e551-e557
Journal	Current Oncology
Volume	26
Issue number	4
DOIs	https://doi.org/10.3747/co.26.5137
Publication status	Published - Aug 2019

Bibliographical note

Funding Information:
The authors acknowledge Amanda Williams Gibson for her project management and compilation of this article. Amanda Williams Gibson was compensated by a grant from Pfizer. During the process of preparing this article, Pfizer did not influence the content or consensus of the article, did not read or review the article, and did not provide any form of compensation to the named authors of this article.

Publisher Copyright:
© 2019 Multimed Inc.

ASJC Scopus Subject Areas

Oncology

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3747/co.26.5137

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Bebb, D. G., Agulnik, J., Albadine, R., Banerji, S., Bigras, G., Butts, C., Couture, C., Cutz, J. C., Desmeules, P., Ionescu, D. N., Leighl, N. B., Melosky, B., Morzycki, W., Rashid-Kolvear, F., Sekhon, H. S., Smith, A. C., Stockley, T. L., Torlakovic, E., Xu, Z., & Tsao, M. S. (2019). Crizotinib inhibition of ROS1-positive tumours in advanced non-small-cell lung cancer: A Canadian perspective. Current Oncology, 26(4), e551-e557. https://doi.org/10.3747/co.26.5137

Bebb, DG, Agulnik, J, Albadine, R, Banerji, S, Bigras, G, Butts, C, Couture, C, Cutz, JC, Desmeules, P, Ionescu, DN, Leighl, NB, Melosky, B, Morzycki, W, Rashid-Kolvear, F, Sekhon, HS, Smith, AC, Stockley, TL, Torlakovic, E, Xu, Z & Tsao, MS 2019, 'Crizotinib inhibition of ROS1-positive tumours in advanced non-small-cell lung cancer: A Canadian perspective', Current Oncology, vol. 26, no. 4, pp. e551-e557. https://doi.org/10.3747/co.26.5137

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title = "Crizotinib inhibition of ROS1-positive tumours in advanced non-small-cell lung cancer: A Canadian perspective",

abstract = "The ros1 kinase is an oncogenic driver in non-small-cell lung cancer (nsclc). Fusion events involving the ROS1 gene are found in 1%-2% of nsclc patients and lead to deregulation of a tyrosine kinase-mediated multi-use intracellular signalling pathway, which then promotes the growth, proliferation, and progression of tumour cells. ROS1 fusion is a distinct molecular subtype of nsclc, found independently of other recognized driver mutations, and it is predominantly identified in younger patients (>50 years of age), women, never-smokers, and patients with adenocarcinoma histology. Targeted inhibition of the aberrant ros1 kinase with crizotinib is associated with increased progression-free survival (pfs) and improved quality-of-life measures. As the sole approved treatment for ROS1-rearranged nsclc, crizotinib has been demonstrated, through a variety of clinical trials and retrospective analyses, to be a safe, effective, well-tolerated, and appropriate treatment for patients having the ROS1 rearrangement. Canadian physicians endorse current guidelines which recommend that all patients with nonsquamous advanced nsclc, regardless of clinical characteristics, be tested for ROS1 rearrangement. Future integration of multigene testing panels into the standard of care could allow for efficient and cost-effective comprehensive testing of all patients with advanced nsclc. If a ROS1 rearrangement is found, treatment with crizotinib, preferably in the first-line setting, constitutes the standard of care, with other treatment options being investigated, as appropriate, should resistance to crizotinib develop.",

author = "Bebb, {D. Gwyn} and J. Agulnik and R. Albadine and S. Banerji and G. Bigras and C. Butts and C. Couture and Cutz, {J. C.} and P. Desmeules and Ionescu, {D. N.} and Leighl, {N. B.} and B. Melosky and W. Morzycki and F. Rashid-Kolvear and Sekhon, {H. S.} and Smith, {A. C.} and Stockley, {T. L.} and E. Torlakovic and Z. Xu and Tsao, {M. S.}",

note = "Funding Information: The authors acknowledge Amanda Williams Gibson for her project management and compilation of this article. Amanda Williams Gibson was compensated by a grant from Pfizer. During the process of preparing this article, Pfizer did not influence the content or consensus of the article, did not read or review the article, and did not provide any form of compensation to the named authors of this article. Publisher Copyright: {\textcopyright} 2019 Multimed Inc.",

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T2 - A Canadian perspective

AU - Bebb, D. Gwyn

AU - Agulnik, J.

AU - Albadine, R.

AU - Banerji, S.

AU - Bigras, G.

AU - Butts, C.

AU - Couture, C.

AU - Cutz, J. C.

AU - Desmeules, P.

AU - Ionescu, D. N.

AU - Leighl, N. B.

AU - Melosky, B.

AU - Morzycki, W.

AU - Rashid-Kolvear, F.

AU - Sekhon, H. S.

AU - Smith, A. C.

AU - Stockley, T. L.

AU - Torlakovic, E.

AU - Xu, Z.

AU - Tsao, M. S.

N1 - Funding Information: The authors acknowledge Amanda Williams Gibson for her project management and compilation of this article. Amanda Williams Gibson was compensated by a grant from Pfizer. During the process of preparing this article, Pfizer did not influence the content or consensus of the article, did not read or review the article, and did not provide any form of compensation to the named authors of this article. Publisher Copyright: © 2019 Multimed Inc.

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Crizotinib inhibition of ROS1-positive tumours in advanced non-small-cell lung cancer: A Canadian perspective

Abstract

Bibliographical note

ASJC Scopus Subject Areas

PubMed: MeSH publication types

UN SDGs

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