TY - JOUR
T1 - IASLC Multidisciplinary Recommendations for Pathologic Assessment of Lung Cancer Resection Specimens After Neoadjuvant Therapy
AU - Travis, William D.
AU - Dacic, Sanja
AU - Wistuba, Ignacio
AU - Sholl, Lynette
AU - Adusumilli, Prasad
AU - Bubendorf, Lukas
AU - Bunn, Paul
AU - Cascone, Tina
AU - Chaft, Jamie
AU - Chen, Gang
AU - Chou, Teh Ying
AU - Cooper, Wendy
AU - Erasmus, Jeremy J.
AU - Ferreira, Carlos Gil
AU - Goo, Jin Mo
AU - Heymach, John
AU - Hirsch, Fred R.
AU - Horinouchi, Hidehito
AU - Kerr, Keith
AU - Kris, Mark
AU - Jain, Deepali
AU - Kim, Young T.
AU - Lopez-Rios, Fernando
AU - Lu, Shun
AU - Mitsudomi, Tetsuya
AU - Moreira, Andre
AU - Motoi, Noriko
AU - Nicholson, Andrew G.
AU - Oliveira, Ricardo
AU - Papotti, Mauro
AU - Pastorino, Ugo
AU - Paz-Ares, Luis
AU - Pelosi, Giuseppe
AU - Poleri, Claudia
AU - Provencio, Mariano
AU - Roden, Anja C.
AU - Scagliotti, Giorgio
AU - Swisher, Stephen G.
AU - Thunnissen, Erik
AU - Tsao, Ming S.
AU - Vansteenkiste, Johan
AU - Weder, Walter
AU - Yatabe, Yasushi
N1 - Publisher Copyright:
© 2020
PY - 2020/5
Y1 - 2020/5
N2 - Currently, there is no established guidance on how to process and evaluate resected lung cancer specimens after neoadjuvant therapy in the setting of clinical trials and clinical practice. There is also a lack of precise definitions on the degree of pathologic response, including major pathologic response or complete pathologic response. For other cancers such as osteosarcoma and colorectal, breast, and esophageal carcinomas, there have been multiple studies investigating pathologic assessment of the effects of neoadjuvant therapy, including some detailed recommendations on how to handle these specimens. A comprehensive mapping approach to gross and histologic processing of osteosarcomas after induction therapy has been used for over 40 years. The purpose of this article is to outline detailed recommendations on how to process lung cancer resection specimens and to define pathologic response, including major pathologic response or complete pathologic response after neoadjuvant therapy. A standardized approach is recommended to assess the percentages of (1) viable tumor, (2) necrosis, and (3) stroma (including inflammation and fibrosis) with a total adding up to 100%. This is recommended for all systemic therapies, including chemotherapy, chemoradiation, molecular-targeted therapy, immunotherapy, or any future novel therapies yet to be discovered, whether administered alone or in combination. Specific issues may differ for certain therapies such as immunotherapy, but the grossing process should be similar, and the histologic evaluation should contain these basic elements. Standard pathologic response assessment should allow for comparisons between different therapies and correlations with disease-free survival and overall survival in ongoing and future trials. The International Association for the Study of Lung Cancer has an effort to collect such data from existing and future clinical trials. These recommendations are intended as guidance for clinical trials, although it is hoped they can be viewed as suggestion for good clinical practice outside of clinical trials, to improve consistency of pathologic assessment of treatment response.
AB - Currently, there is no established guidance on how to process and evaluate resected lung cancer specimens after neoadjuvant therapy in the setting of clinical trials and clinical practice. There is also a lack of precise definitions on the degree of pathologic response, including major pathologic response or complete pathologic response. For other cancers such as osteosarcoma and colorectal, breast, and esophageal carcinomas, there have been multiple studies investigating pathologic assessment of the effects of neoadjuvant therapy, including some detailed recommendations on how to handle these specimens. A comprehensive mapping approach to gross and histologic processing of osteosarcomas after induction therapy has been used for over 40 years. The purpose of this article is to outline detailed recommendations on how to process lung cancer resection specimens and to define pathologic response, including major pathologic response or complete pathologic response after neoadjuvant therapy. A standardized approach is recommended to assess the percentages of (1) viable tumor, (2) necrosis, and (3) stroma (including inflammation and fibrosis) with a total adding up to 100%. This is recommended for all systemic therapies, including chemotherapy, chemoradiation, molecular-targeted therapy, immunotherapy, or any future novel therapies yet to be discovered, whether administered alone or in combination. Specific issues may differ for certain therapies such as immunotherapy, but the grossing process should be similar, and the histologic evaluation should contain these basic elements. Standard pathologic response assessment should allow for comparisons between different therapies and correlations with disease-free survival and overall survival in ongoing and future trials. The International Association for the Study of Lung Cancer has an effort to collect such data from existing and future clinical trials. These recommendations are intended as guidance for clinical trials, although it is hoped they can be viewed as suggestion for good clinical practice outside of clinical trials, to improve consistency of pathologic assessment of treatment response.
KW - Lung Cancer
KW - Neoadjuvant therapy
KW - Pathology
KW - Resection specimens
KW - Specimen processing
KW - Treatment response
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U2 - 10.1016/j.jtho.2020.01.005
DO - 10.1016/j.jtho.2020.01.005
M3 - Review article
C2 - 32004713
AN - SCOPUS:85081912352
SN - 1556-0864
VL - 15
SP - 709
EP - 740
JO - Journal of Thoracic Oncology
JF - Journal of Thoracic Oncology
IS - 5
ER -