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Integrating comprehensive genomic sequencing of non-small cell lung cancer into a public healthcare system.
Perdrizet, Kirstin; Stockley, Tracy L; Law, Jennifer H; Smith, Adam; Zhang, Tong; Fernandes, Roxanne; Shabir, Muqdas; Sabatini, Peter; Youssef, Nadia Al; Ishu, Christine; Li, Janice Jn; Tsao, Ming-Sound; Pal, Prodipto; Cabanero, Michael; Schwock, Joerg; Ko, Hyang Mi; Boerner, Scott; Ruff, Heather; Shepherd, Frances A; Bradbury, Penelope A; Liu, Geoffrey; Sacher, Adrian G; Leighl, Natasha B.
Afiliación
  • Perdrizet K; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada; William Osler Health System, Brampton, Ontario, Canada. Electronic address: kirstin.perdrizet@williamoslerhs.ca.
  • Stockley TL; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada; Advanced Molecular Diagnostics Laboratory, University Health Network, Toronto, Canada.
  • Law JH; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Smith A; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada; Advanced Molecular Diagnostics Laboratory, University Health Network, Toronto, Canada.
  • Zhang T; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada; Advanced Molecular Diagnostics Laboratory, University Health Network, Toronto, Canada.
  • Fernandes R; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Shabir M; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Sabatini P; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada; Advanced Molecular Diagnostics Laboratory, University Health Network, Toronto, Canada.
  • Youssef NA; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada; Advanced Molecular Diagnostics Laboratory, University Health Network, Toronto, Canada.
  • Ishu C; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada; Advanced Molecular Diagnostics Laboratory, University Health Network, Toronto, Canada.
  • Li JJ; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Tsao MS; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Pal P; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Cabanero M; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Schwock J; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Ko HM; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Boerner S; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Ruff H; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Shepherd FA; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Bradbury PA; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Liu G; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Sacher AG; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada.
  • Leighl NB; Princess Margaret Cancer Centre/University Health Network, Toronto, Canada. Electronic address: Natasha.Leighl@uhn.ca.
Cancer Treat Res Commun ; 31: 100534, 2022.
Article en En | MEDLINE | ID: mdl-35278845
ABSTRACT

OBJECTIVES:

Standard molecular testing for patients with stage IV non-small cell lung cancer (NSCLC) in the Canadian publicly funded health system includes single gene testing for EGFR, ALK, and ROS-1. Comprehensive genomic profiling (CGP) may broaden treatment options for patients. This study examined the impact of CGP in a publicly funded health system.

METHODS:

Consenting patients with stage IV NSCLC without known targetable alterations underwent CGP on diagnostic samples. Patients that had progressed on targeted therapy were also eligible. The CGP assay was a hybrid capture next generation sequencing (NGS) panel (Oncomine Comprehensive Assay Version 3, ThermoFisher). The number of actionable alterations, changes in treatment, clinical trial eligibility and costs as a result of CGP were evaluated and patient willingness-to-pay.

RESULTS:

Of 182 screened patients,134 (74%) had successful CGP testing. Twenty percent had received prior targeted therapy. Incremental actionable alterations were identified in 31% of patients. The most common novel targets identified were mutations in ERBB2 (exon 20 insertions), MET (exon 14 skipping) and KRAS (G12C). At data cut off (31/12/2020), 16% of patients had a change in treatment as a result of CGP. Additional clinical trial options were identified for 75% of patients. The incremental direct laboratory cost for CGP beyond public reimbursement for single gene tests was $747 CAD/case.

CONCLUSION:

CGP identifies additional actionable targets beyond single gene tests with a direct impact on patient treatment and increased clinical trial eligibility. These benefits highlight the value of CGP in patients with NSCLC in public health systems.
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Texto completo: 1 Bases de datos: MEDLINE Asunto principal: Carcinoma de Pulmón de Células no Pequeñas / Neoplasias Pulmonares Límite: Humans País/Región como asunto: America do norte Idioma: En Revista: Cancer Treat Res Commun Año: 2022 Tipo del documento: Article
Texto completo
Añadir a Mi BVS
Imprimir
XML
PubMed Links
Buscar en Google

Texto completo: 1 Bases de datos: MEDLINE Asunto principal: Carcinoma de Pulmón de Células no Pequeñas / Neoplasias Pulmonares Límite: Humans País/Región como asunto: America do norte Idioma: En Revista: Cancer Treat Res Commun Año: 2022 Tipo del documento: Article