Clinical Models to Define Response and Survival With Anti-PD-1 Antibodies Alone or Combined With Ipilimumab in Metastatic Melanoma

Ines Pires Da Silva; Tasnia Ahmed; Jennifer L. McQuade; Caroline A. Nebhan; John J. Park; Judith M. Versluis; Patricio Serra-Bellver; Yasir Khan; Tim Slattery; Honey K. Oberoi; Selma Ugurel; Lauren E. Haydu; Rudolf Herbst; Jochen Utikal; Claudia Pfohler; Patrick Terheyden; Michael Weichenthal; Ralf Gutzmer; Peter Mohr; Rajat Rai; Jessica L. Smith; Richard A. Scolyer; Ana M. Arance; Lisa Pickering; James Larkin; Paul Lorigan; Christian U. Blank; Dirk Schadendorf; Michael A. Davies; Matteo S. Carlino; Douglas B. Johnson; Georgina V. Long; Serigne N. Lo; Alexander M. Menzies

doi:10.1200/JCO.21.01701

Clinical Models to Define Response and Survival With Anti-PD-1 Antibodies Alone or Combined With Ipilimumab in Metastatic Melanoma

Ines Pires Da Silva, Tasnia Ahmed, Jennifer L. McQuade, Caroline A. Nebhan, John J. Park, Judith M. Versluis, Patricio Serra-Bellver, Yasir Khan, Tim Slattery, Honey K. Oberoi, Selma Ugurel, Lauren E. Haydu, Rudolf Herbst, Jochen Utikal, Claudia Pfohler, Patrick Terheyden, Michael Weichenthal, Ralf Gutzmer, Peter Mohr, Rajat RaiJessica L. Smith, Richard A. Scolyer, Ana M. Arance, Lisa Pickering, James Larkin, Paul Lorigan, Christian U. Blank, Dirk Schadendorf, Michael A. Davies, Matteo S. Carlino, Douglas B. Johnson, Georgina V. Long, Serigne N. Lo, Alexander M. Menzies

Melanoma Medical Oncology

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

PURPOSE Currently, there are no robust biomarkers that predict immunotherapy outcomes in metastatic melanoma. We sought to build multivariable predictive models for response and survival to anti-programmed cell death protein 1 (anti-PD-1) monotherapy or in combination with anticytotoxic T-cell lymphocyte-4 (ipilimumab [IPI]; anti-PD-1 6 IPI) by including routine clinical data available at the point of treatment initiation. METHODS One thousand six hundred forty-four patients withmetastaticmelanoma treated with anti-PD-16 IPI at 16 centers from Australia, the United States, and Europe were included. Demographics, disease characteristics, and baseline blood parameters were analyzed. The end points of this study were objective response rate (ORR), progression-free survival (PFS), and overall survival (OS). The final predictive models for ORR, PFS, and OS were determined through penalized regression methodology (least absolute shrinkage and selection operator method) to select the most significant predictors for all three outcomes (discovery cohort, N =633). Each model was validated internally and externally in two independent cohorts (validation-1 [N5 419] and validation-2 [N5 592]) and nomograms were created. RESULTS The final model for predicting ORR (area under the curve [AUC] = 0.71) in immunotherapy-treated patients included the following clinical parameters: Eastern Cooperative Oncology Group Performance Status, presence/absence of liver and lung metastases, serum lactate dehydrogenase, blood neutrophil-lymphocyte ratio, therapy (monotherapy/ combination), and line of treatment. The final predictive models for PFS (AUC5 0.68) and OS (AUC5 0.77) included the same variables as those in the ORR model (except for presence/absence of lung metastases), and included presence/absence of brain metastases and blood hemoglobin. Nomogram calculators were developed from the clinical models to predict outcomes for patients with metastatic melanoma treated with anti-PD-1 ± IPI. CONCLUSION Newly developed combinations of routinely collected baseline clinical factors predict the response and survival outcomes of patients with metastatic melanoma treated with immunotherapy and may serve as valuable tools for clinical decision making.

Original language	English (US)
Pages (from-to)	1068-1080
Number of pages	13
Journal	Journal of Clinical Oncology
Volume	40
Issue number	10
DOIs	https://doi.org/10.1200/JCO.21.01701
State	Published - Apr 1 2022

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1200/JCO.21.01701

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Da Silva, I. P., Ahmed, T., McQuade, J. L., Nebhan, C. A., Park, J. J., Versluis, J. M., Serra-Bellver, P., Khan, Y., Slattery, T., Oberoi, H. K., Ugurel, S., Haydu, L. E., Herbst, R., Utikal, J., Pfohler, C., Terheyden, P., Weichenthal, M., Gutzmer, R., Mohr, P., ... Menzies, A. M. (2022). Clinical Models to Define Response and Survival With Anti-PD-1 Antibodies Alone or Combined With Ipilimumab in Metastatic Melanoma. Journal of Clinical Oncology, 40(10), 1068-1080. https://doi.org/10.1200/JCO.21.01701

Da Silva, IP, Ahmed, T, McQuade, JL, Nebhan, CA, Park, JJ, Versluis, JM, Serra-Bellver, P, Khan, Y, Slattery, T, Oberoi, HK, Ugurel, S, Haydu, LE, Herbst, R, Utikal, J, Pfohler, C, Terheyden, P, Weichenthal, M, Gutzmer, R, Mohr, P, Rai, R, Smith, JL, Scolyer, RA, Arance, AM, Pickering, L, Larkin, J, Lorigan, P, Blank, CU, Schadendorf, D, Davies, MA, Carlino, MS, Johnson, DB, Long, GV, Lo, SN & Menzies, AM 2022, 'Clinical Models to Define Response and Survival With Anti-PD-1 Antibodies Alone or Combined With Ipilimumab in Metastatic Melanoma', Journal of Clinical Oncology, vol. 40, no. 10, pp. 1068-1080. https://doi.org/10.1200/JCO.21.01701

@article{4bbf0c3ded2b4cb3bbf044d348903c2c,

title = "Clinical Models to Define Response and Survival With Anti-PD-1 Antibodies Alone or Combined With Ipilimumab in Metastatic Melanoma",

abstract = "PURPOSE Currently, there are no robust biomarkers that predict immunotherapy outcomes in metastatic melanoma. We sought to build multivariable predictive models for response and survival to anti-programmed cell death protein 1 (anti-PD-1) monotherapy or in combination with anticytotoxic T-cell lymphocyte-4 (ipilimumab [IPI]; anti-PD-1 6 IPI) by including routine clinical data available at the point of treatment initiation. METHODS One thousand six hundred forty-four patients withmetastaticmelanoma treated with anti-PD-16 IPI at 16 centers from Australia, the United States, and Europe were included. Demographics, disease characteristics, and baseline blood parameters were analyzed. The end points of this study were objective response rate (ORR), progression-free survival (PFS), and overall survival (OS). The final predictive models for ORR, PFS, and OS were determined through penalized regression methodology (least absolute shrinkage and selection operator method) to select the most significant predictors for all three outcomes (discovery cohort, N =633). Each model was validated internally and externally in two independent cohorts (validation-1 [N5 419] and validation-2 [N5 592]) and nomograms were created. RESULTS The final model for predicting ORR (area under the curve [AUC] = 0.71) in immunotherapy-treated patients included the following clinical parameters: Eastern Cooperative Oncology Group Performance Status, presence/absence of liver and lung metastases, serum lactate dehydrogenase, blood neutrophil-lymphocyte ratio, therapy (monotherapy/ combination), and line of treatment. The final predictive models for PFS (AUC5 0.68) and OS (AUC5 0.77) included the same variables as those in the ORR model (except for presence/absence of lung metastases), and included presence/absence of brain metastases and blood hemoglobin. Nomogram calculators were developed from the clinical models to predict outcomes for patients with metastatic melanoma treated with anti-PD-1 ± IPI. CONCLUSION Newly developed combinations of routinely collected baseline clinical factors predict the response and survival outcomes of patients with metastatic melanoma treated with immunotherapy and may serve as valuable tools for clinical decision making.",

author = "{Da Silva}, {Ines Pires} and Tasnia Ahmed and McQuade, {Jennifer L.} and Nebhan, {Caroline A.} and Park, {John J.} and Versluis, {Judith M.} and Patricio Serra-Bellver and Yasir Khan and Tim Slattery and Oberoi, {Honey K.} and Selma Ugurel and Haydu, {Lauren E.} and Rudolf Herbst and Jochen Utikal and Claudia Pfohler and Patrick Terheyden and Michael Weichenthal and Ralf Gutzmer and Peter Mohr and Rajat Rai and Smith, {Jessica L.} and Scolyer, {Richard A.} and Arance, {Ana M.} and Lisa Pickering and James Larkin and Paul Lorigan and Blank, {Christian U.} and Dirk Schadendorf and Davies, {Michael A.} and Carlino, {Matteo S.} and Johnson, {Douglas B.} and Long, {Georgina V.} and Lo, {Serigne N.} and Menzies, {Alexander M.}",

note = "Funding Information: Supported by Melanoma Institute Australia funded the development of the predictive tool. The multicenter translational study Tissue Registry in Melanoma (TRIM) within the framework of the skin cancer registry ADOREG of the German Dermatologic Cooperative Oncology Group (DeCOG) was supported by Bristol Myers Squibb. R.A.S. and G.V.L. are supported by NHMRC Practitioner Fellowships, and G.V.L. is also supported by The University of Sydney Medical Foundation. A.M.M. is supported by Nicholas and Helen Moore and Melanoma Institute Australia. Support from the Cameron family for the Melanoma Institute Australia research database is also gratefully acknowledged. Publisher Copyright: {\textcopyright} 2022 American Society of Clinical Oncology. All rights reserved.",

year = "2022",

month = apr,

day = "1",

doi = "10.1200/JCO.21.01701",

language = "English (US)",

volume = "40",

pages = "1068--1080",

journal = "Journal of Clinical Oncology",

issn = "0732-183X",

publisher = "American Society of Clinical Oncology",

number = "10",

}

TY - JOUR

T1 - Clinical Models to Define Response and Survival With Anti-PD-1 Antibodies Alone or Combined With Ipilimumab in Metastatic Melanoma

AU - Da Silva, Ines Pires

AU - Ahmed, Tasnia

AU - McQuade, Jennifer L.

AU - Nebhan, Caroline A.

AU - Park, John J.

AU - Versluis, Judith M.

AU - Serra-Bellver, Patricio

AU - Khan, Yasir

AU - Slattery, Tim

AU - Oberoi, Honey K.

AU - Ugurel, Selma

AU - Haydu, Lauren E.

AU - Herbst, Rudolf

AU - Utikal, Jochen

AU - Pfohler, Claudia

AU - Terheyden, Patrick

AU - Weichenthal, Michael

AU - Gutzmer, Ralf

AU - Mohr, Peter

AU - Rai, Rajat

AU - Smith, Jessica L.

AU - Scolyer, Richard A.

AU - Arance, Ana M.

AU - Pickering, Lisa

AU - Larkin, James

AU - Lorigan, Paul

AU - Blank, Christian U.

AU - Schadendorf, Dirk

AU - Davies, Michael A.

AU - Carlino, Matteo S.

AU - Johnson, Douglas B.

AU - Long, Georgina V.

AU - Lo, Serigne N.

AU - Menzies, Alexander M.

N1 - Funding Information: Supported by Melanoma Institute Australia funded the development of the predictive tool. The multicenter translational study Tissue Registry in Melanoma (TRIM) within the framework of the skin cancer registry ADOREG of the German Dermatologic Cooperative Oncology Group (DeCOG) was supported by Bristol Myers Squibb. R.A.S. and G.V.L. are supported by NHMRC Practitioner Fellowships, and G.V.L. is also supported by The University of Sydney Medical Foundation. A.M.M. is supported by Nicholas and Helen Moore and Melanoma Institute Australia. Support from the Cameron family for the Melanoma Institute Australia research database is also gratefully acknowledged. Publisher Copyright: © 2022 American Society of Clinical Oncology. All rights reserved.

PY - 2022/4/1

Y1 - 2022/4/1

N2 - PURPOSE Currently, there are no robust biomarkers that predict immunotherapy outcomes in metastatic melanoma. We sought to build multivariable predictive models for response and survival to anti-programmed cell death protein 1 (anti-PD-1) monotherapy or in combination with anticytotoxic T-cell lymphocyte-4 (ipilimumab [IPI]; anti-PD-1 6 IPI) by including routine clinical data available at the point of treatment initiation. METHODS One thousand six hundred forty-four patients withmetastaticmelanoma treated with anti-PD-16 IPI at 16 centers from Australia, the United States, and Europe were included. Demographics, disease characteristics, and baseline blood parameters were analyzed. The end points of this study were objective response rate (ORR), progression-free survival (PFS), and overall survival (OS). The final predictive models for ORR, PFS, and OS were determined through penalized regression methodology (least absolute shrinkage and selection operator method) to select the most significant predictors for all three outcomes (discovery cohort, N =633). Each model was validated internally and externally in two independent cohorts (validation-1 [N5 419] and validation-2 [N5 592]) and nomograms were created. RESULTS The final model for predicting ORR (area under the curve [AUC] = 0.71) in immunotherapy-treated patients included the following clinical parameters: Eastern Cooperative Oncology Group Performance Status, presence/absence of liver and lung metastases, serum lactate dehydrogenase, blood neutrophil-lymphocyte ratio, therapy (monotherapy/ combination), and line of treatment. The final predictive models for PFS (AUC5 0.68) and OS (AUC5 0.77) included the same variables as those in the ORR model (except for presence/absence of lung metastases), and included presence/absence of brain metastases and blood hemoglobin. Nomogram calculators were developed from the clinical models to predict outcomes for patients with metastatic melanoma treated with anti-PD-1 ± IPI. CONCLUSION Newly developed combinations of routinely collected baseline clinical factors predict the response and survival outcomes of patients with metastatic melanoma treated with immunotherapy and may serve as valuable tools for clinical decision making.

AB - PURPOSE Currently, there are no robust biomarkers that predict immunotherapy outcomes in metastatic melanoma. We sought to build multivariable predictive models for response and survival to anti-programmed cell death protein 1 (anti-PD-1) monotherapy or in combination with anticytotoxic T-cell lymphocyte-4 (ipilimumab [IPI]; anti-PD-1 6 IPI) by including routine clinical data available at the point of treatment initiation. METHODS One thousand six hundred forty-four patients withmetastaticmelanoma treated with anti-PD-16 IPI at 16 centers from Australia, the United States, and Europe were included. Demographics, disease characteristics, and baseline blood parameters were analyzed. The end points of this study were objective response rate (ORR), progression-free survival (PFS), and overall survival (OS). The final predictive models for ORR, PFS, and OS were determined through penalized regression methodology (least absolute shrinkage and selection operator method) to select the most significant predictors for all three outcomes (discovery cohort, N =633). Each model was validated internally and externally in two independent cohorts (validation-1 [N5 419] and validation-2 [N5 592]) and nomograms were created. RESULTS The final model for predicting ORR (area under the curve [AUC] = 0.71) in immunotherapy-treated patients included the following clinical parameters: Eastern Cooperative Oncology Group Performance Status, presence/absence of liver and lung metastases, serum lactate dehydrogenase, blood neutrophil-lymphocyte ratio, therapy (monotherapy/ combination), and line of treatment. The final predictive models for PFS (AUC5 0.68) and OS (AUC5 0.77) included the same variables as those in the ORR model (except for presence/absence of lung metastases), and included presence/absence of brain metastases and blood hemoglobin. Nomogram calculators were developed from the clinical models to predict outcomes for patients with metastatic melanoma treated with anti-PD-1 ± IPI. CONCLUSION Newly developed combinations of routinely collected baseline clinical factors predict the response and survival outcomes of patients with metastatic melanoma treated with immunotherapy and may serve as valuable tools for clinical decision making.

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Clinical Models to Define Response and Survival With Anti-PD-1 Antibodies Alone or Combined With Ipilimumab in Metastatic Melanoma

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