Skip to content

At the moment we can only deliver in the UK. Click here to visit Cambridge.org for international orders.

  • Bestsellers
  • Latest releases
  • Offers
  • Events

    Cart

    Your cart is empty

    EGFR-Directed Therapy in Lung Cancer

    Author(s): So Yeon Kim , Daniel B. Costa , Daisuke Shibahara , Susumu Kobayashi , Balazs Halmos

    ISBN: 9781009342308
    Publication Date: 26/01/2023
    Pages: 44
    Format: Paperback
    Sale price£18.00 GBP

    Quantity

    Pickup available at Cambridge University Press Bookshop

    Usually ready in 24 hours

    EGFR-Directed Therapy in Lung Cancer

    EGFR-Directed Therapy in Lung Cancer

    Cambridge University Press Bookshop

    Pickup available, Usually ready in 24 hours

    1-2 Trinity Street
    Cambridge CB2 1SZ
    United Kingdom

    +441223333333

    🚚 Please note we can only ship within the UK.

    FREE delivery on books (excluding sale).

    Delivery for other items is £1.50 - £4.50, calculated at checkout.

    T&Cs apply.

    Free click & collect on all orders.

    Epidermal growth factor receptor (EGFR)-mutant non-small cell lung cancer (NSCLC) is a clinically important driver alteration affecting approximately one-third of lung cancer patients. Treatments for EGFR-exon 19 deletion and exon 21 L858R NSCLC have evolved over the last decade from first-generation reversible tyrosine kinase inhibitors (TKI) to third-generation irreversible TKIs, of which osimertinib has been the widely accepted as first-line therapy. Despite survival improvement seen with osimertinib and its efficacy against acquired T790M mutation, resistance through on-target and off-target pathways eventually develop. This Element describes the structural biology and pathophysiology of EGFR-mutant NSCLC and discusses past, current, and future treatment options in the metastatic, neoadjuvant, and adjuvant settings. It describes the biology and recently approved treatment for EGFR-exon 20 insertion mutation and the treatment for the uncommon exon 18 (G719X), 20 (S768I), and 21 (L861Q) mutations. It also outlines the promising clinical applications of circulating tumor DNA (ctDNA).