Concurrent Administration of Immune Checkpoint Inhibitors and Single Fraction Stereotactic Radiosurgery in Patients With Non-Small Cell Lung Cancer, Melanoma, and Renal Cell Carcinoma Brain Metastases

Eric J. Lehrer; Roman O. Kowalchuk; Jason Gurewitz; Kenneth Bernstein; Douglas Kondziolka; Ajay Niranjan; Zhishuo Wei; L. Dade Lunsford; Kareem R. Fakhoury; Chad G. Rusthoven; David Mathieu; Claire Trudel; Timothy D. Malouff; Henry Ruiz-Garcia; Phillip Bonney; Lindsay Hwang; Cheng Yu; Gabriel Zada; Samir Patel; Christopher P. Deibert; Piero Picozzi; Andrea Franzini; Luca Attuati; Rahul N. Prasad; Raju R. Raval; Joshua D. Palmer; Cheng chia Lee; Huai che Yang; William S. Harmsen; Brianna M. Jones; Sonam Sharma; Manmeet S. Ahluwalia; Jason P. Sheehan; Daniel M. Trifiletti

doi:10.1016/j.ijrobp.2023.01.017

Concurrent Administration of Immune Checkpoint Inhibitors and Single Fraction Stereotactic Radiosurgery in Patients With Non-Small Cell Lung Cancer, Melanoma, and Renal Cell Carcinoma Brain Metastases

Eric J. Lehrer, Roman O. Kowalchuk, Jason Gurewitz, Kenneth Bernstein, Douglas Kondziolka, Ajay Niranjan, Zhishuo Wei, L. Dade Lunsford, Kareem R. Fakhoury, Chad G. Rusthoven, David Mathieu, Claire Trudel, Timothy D. Malouff, Henry Ruiz-Garcia, Phillip Bonney, Lindsay Hwang, Cheng Yu, Gabriel Zada, Samir Patel, Christopher P. DeibertPiero Picozzi, Andrea Franzini, Luca Attuati, Rahul N. Prasad, Raju R. Raval, Joshua D. Palmer, Cheng chia Lee, Huai che Yang, William S. Harmsen, Brianna M. Jones, Sonam Sharma, Manmeet S. Ahluwalia, Jason P. Sheehan, Daniel M. Trifiletti

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

Abstract

Purpose: Stereotactic radiosurgery (SRS) and immune checkpoint inhibitors (ICI) are highly effective treatments for brain metastases, particularly when these therapies are administered concurrently. However, there are limited data reporting the risk of radiation necrosis (RN) in this setting. Methods and Materials: Patients with brain metastases from primary non-small cell lung cancer, renal cell carcinoma, or melanoma treated with SRS and ICI were considered. Time-to-event analyses were conducted for any grade RN and symptomatic RN (SRN) with death incorporated as a competing risk. As a secondary analysis, recursive partitioning analysis (RPA) was used for model development, and a loop of potential models was analyzed, with the highest-fidelity model selected. Brain V12 Gy thresholds identified on RPA were then incorporated into the competing risks analysis. Concurrent SRS and ICI administration. Results: Six hundred fifty-seven patients with 4182 brain metastases across 11 international institutions were analyzed. The median follow-up for all patients was 13.4 months. The median follow-up was 12.8 months and 14.1 months for the concurrent and nonconcurrent groups, respectively (P = .03). The median patient age was 66 years, and the median Karnofsky Performance Status was 90. In patients with any grade RN, 1- and 2-year rates were 6.4% and 9.9%, respectively. In patients with SRN, 1- and 2-year rates were 4.8% and 7.2%, respectively. On RPA, the highest-fidelity models consistently identified V12 Gy as the dominant variable predictive of RN. Three risk groups were identified by V12 Gy: (1) < 12 cm³; (2) 20 cm³ ≥ V12 Gy ≥ 12 cm³; (3) V12 Gy > 20 cm³. In patients with any grade RN, 1-year rates were 3.7% (V12 Gy < 12 cm³), 10.3% (20 cm³ ≥ V12 Gy ≥ 12 cm³), and 12.6% (V12 Gy > 20 cm³); the 2-year rates were 7.5% (V12 Gy < 12 cm³), 13.8% (20 cm³ ≥ V12 Gy ≥ 12 cm³), and 15.4% (V12 Gy > 20 cm³) (P < 0.001). In patients with any SRN, 1-year rates were 2.4% (V12 Gy < 12 cm³), 8.9% (20 cm³ ≥ V12 Gy ≥ 12 cm³), and 10.3% (V12 Gy > 20 cm³); the 2-year rates were 4.4% (V12 Gy < 12 cm³), 12.4% (20 cm³ ≥ V12 Gy ≥ 12 cm³), and 13.1% (V12 Gy > 20 cm³; P < 0.001). There were no statistically significant differences in rates of any grade RN or SRN when accounting for therapy timing for all patients and by V12 risk group identified on RPA. Conclusions: The use of SRS and ICI results in a low risk of any grade RN and SRN. This risk is not increased with concurrent administration. Therefore, ICI can safely be administered within 4-weeks of SRS. Three risk groups based on V12 Gy were identified, which clinicians may consider to further reduce rates of RN.

Original language	English (US)
Pages (from-to)	858-868
Number of pages	11
Journal	International Journal of Radiation Oncology Biology Physics
Volume	116
Issue number	4
DOIs	https://doi.org/10.1016/j.ijrobp.2023.01.017
State	Published - Jul 15 2023

ASJC Scopus subject areas

Radiation
Oncology
Radiology Nuclear Medicine and imaging
Cancer Research

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10.1016/j.ijrobp.2023.01.017

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Lehrer, E. J., Kowalchuk, R. O., Gurewitz, J., Bernstein, K., Kondziolka, D., Niranjan, A., Wei, Z., Lunsford, L. D., Fakhoury, K. R., Rusthoven, C. G., Mathieu, D., Trudel, C., Malouff, T. D., Ruiz-Garcia, H., Bonney, P., Hwang, L., Yu, C., Zada, G., Patel, S., ... Trifiletti, D. M. (2023). Concurrent Administration of Immune Checkpoint Inhibitors and Single Fraction Stereotactic Radiosurgery in Patients With Non-Small Cell Lung Cancer, Melanoma, and Renal Cell Carcinoma Brain Metastases. International Journal of Radiation Oncology Biology Physics, 116(4), 858-868. https://doi.org/10.1016/j.ijrobp.2023.01.017

Concurrent Administration of Immune Checkpoint Inhibitors and Single Fraction Stereotactic Radiosurgery in Patients With Non-Small Cell Lung Cancer, Melanoma, and Renal Cell Carcinoma Brain Metastases. / Lehrer, Eric J.; Kowalchuk, Roman O.; Gurewitz, Jason et al.
In: International Journal of Radiation Oncology Biology Physics, Vol. 116, No. 4, 15.07.2023, p. 858-868.

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

Lehrer, EJ, Kowalchuk, RO, Gurewitz, J, Bernstein, K, Kondziolka, D, Niranjan, A, Wei, Z, Lunsford, LD, Fakhoury, KR, Rusthoven, CG, Mathieu, D, Trudel, C, Malouff, TD, Ruiz-Garcia, H, Bonney, P, Hwang, L, Yu, C, Zada, G, Patel, S, Deibert, CP, Picozzi, P, Franzini, A, Attuati, L, Prasad, RN, Raval, RR, Palmer, JD, Lee, CC, Yang, HC, Harmsen, WS, Jones, BM, Sharma, S, Ahluwalia, MS, Sheehan, JP & Trifiletti, DM 2023, 'Concurrent Administration of Immune Checkpoint Inhibitors and Single Fraction Stereotactic Radiosurgery in Patients With Non-Small Cell Lung Cancer, Melanoma, and Renal Cell Carcinoma Brain Metastases', International Journal of Radiation Oncology Biology Physics, vol. 116, no. 4, pp. 858-868. https://doi.org/10.1016/j.ijrobp.2023.01.017

Lehrer EJ, Kowalchuk RO, Gurewitz J, Bernstein K, Kondziolka D, Niranjan A et al. Concurrent Administration of Immune Checkpoint Inhibitors and Single Fraction Stereotactic Radiosurgery in Patients With Non-Small Cell Lung Cancer, Melanoma, and Renal Cell Carcinoma Brain Metastases. International Journal of Radiation Oncology Biology Physics. 2023 Jul 15;116(4):858-868. doi: 10.1016/j.ijrobp.2023.01.017

@article{7ccc85fe9b004b2296558eb380cfaef0,

title = "Concurrent Administration of Immune Checkpoint Inhibitors and Single Fraction Stereotactic Radiosurgery in Patients With Non-Small Cell Lung Cancer, Melanoma, and Renal Cell Carcinoma Brain Metastases",

abstract = "Purpose: Stereotactic radiosurgery (SRS) and immune checkpoint inhibitors (ICI) are highly effective treatments for brain metastases, particularly when these therapies are administered concurrently. However, there are limited data reporting the risk of radiation necrosis (RN) in this setting. Methods and Materials: Patients with brain metastases from primary non-small cell lung cancer, renal cell carcinoma, or melanoma treated with SRS and ICI were considered. Time-to-event analyses were conducted for any grade RN and symptomatic RN (SRN) with death incorporated as a competing risk. As a secondary analysis, recursive partitioning analysis (RPA) was used for model development, and a loop of potential models was analyzed, with the highest-fidelity model selected. Brain V12 Gy thresholds identified on RPA were then incorporated into the competing risks analysis. Concurrent SRS and ICI administration. Results: Six hundred fifty-seven patients with 4182 brain metastases across 11 international institutions were analyzed. The median follow-up for all patients was 13.4 months. The median follow-up was 12.8 months and 14.1 months for the concurrent and nonconcurrent groups, respectively (P = .03). The median patient age was 66 years, and the median Karnofsky Performance Status was 90. In patients with any grade RN, 1- and 2-year rates were 6.4% and 9.9%, respectively. In patients with SRN, 1- and 2-year rates were 4.8% and 7.2%, respectively. On RPA, the highest-fidelity models consistently identified V12 Gy as the dominant variable predictive of RN. Three risk groups were identified by V12 Gy: (1) < 12 cm3; (2) 20 cm3 ≥ V12 Gy ≥ 12 cm3; (3) V12 Gy > 20 cm3. In patients with any grade RN, 1-year rates were 3.7% (V12 Gy < 12 cm3), 10.3% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 12.6% (V12 Gy > 20 cm3); the 2-year rates were 7.5% (V12 Gy < 12 cm3), 13.8% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 15.4% (V12 Gy > 20 cm3) (P < 0.001). In patients with any SRN, 1-year rates were 2.4% (V12 Gy < 12 cm3), 8.9% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 10.3% (V12 Gy > 20 cm3); the 2-year rates were 4.4% (V12 Gy < 12 cm3), 12.4% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 13.1% (V12 Gy > 20 cm3; P < 0.001). There were no statistically significant differences in rates of any grade RN or SRN when accounting for therapy timing for all patients and by V12 risk group identified on RPA. Conclusions: The use of SRS and ICI results in a low risk of any grade RN and SRN. This risk is not increased with concurrent administration. Therefore, ICI can safely be administered within 4-weeks of SRS. Three risk groups based on V12 Gy were identified, which clinicians may consider to further reduce rates of RN.",

author = "Lehrer, {Eric J.} and Kowalchuk, {Roman O.} and Jason Gurewitz and Kenneth Bernstein and Douglas Kondziolka and Ajay Niranjan and Zhishuo Wei and Lunsford, {L. Dade} and Fakhoury, {Kareem R.} and Rusthoven, {Chad G.} and David Mathieu and Claire Trudel and Malouff, {Timothy D.} and Henry Ruiz-Garcia and Phillip Bonney and Lindsay Hwang and Cheng Yu and Gabriel Zada and Samir Patel and Deibert, {Christopher P.} and Piero Picozzi and Andrea Franzini and Luca Attuati and Prasad, {Rahul N.} and Raval, {Raju R.} and Palmer, {Joshua D.} and Lee, {Cheng chia} and Yang, {Huai che} and Harmsen, {William S.} and Jones, {Brianna M.} and Sonam Sharma and Ahluwalia, {Manmeet S.} and Sheehan, {Jason P.} and Trifiletti, {Daniel M.}",

note = "Publisher Copyright: {\textcopyright} 2023 Elsevier Inc.",

year = "2023",

month = jul,

day = "15",

doi = "10.1016/j.ijrobp.2023.01.017",

language = "English (US)",

volume = "116",

pages = "858--868",

journal = "International Journal of Radiation Oncology Biology Physics",

issn = "0360-3016",

publisher = "Elsevier Inc.",

number = "4",

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TY - JOUR

T1 - Concurrent Administration of Immune Checkpoint Inhibitors and Single Fraction Stereotactic Radiosurgery in Patients With Non-Small Cell Lung Cancer, Melanoma, and Renal Cell Carcinoma Brain Metastases

AU - Lehrer, Eric J.

AU - Kowalchuk, Roman O.

AU - Gurewitz, Jason

AU - Bernstein, Kenneth

AU - Kondziolka, Douglas

AU - Niranjan, Ajay

AU - Wei, Zhishuo

AU - Lunsford, L. Dade

AU - Fakhoury, Kareem R.

AU - Rusthoven, Chad G.

AU - Mathieu, David

AU - Trudel, Claire

AU - Malouff, Timothy D.

AU - Ruiz-Garcia, Henry

AU - Bonney, Phillip

AU - Hwang, Lindsay

AU - Yu, Cheng

AU - Zada, Gabriel

AU - Patel, Samir

AU - Deibert, Christopher P.

AU - Picozzi, Piero

AU - Franzini, Andrea

AU - Attuati, Luca

AU - Prasad, Rahul N.

AU - Raval, Raju R.

AU - Palmer, Joshua D.

AU - Lee, Cheng chia

AU - Yang, Huai che

AU - Harmsen, William S.

AU - Jones, Brianna M.

AU - Sharma, Sonam

AU - Ahluwalia, Manmeet S.

AU - Sheehan, Jason P.

AU - Trifiletti, Daniel M.

PY - 2023/7/15

Y1 - 2023/7/15

N2 - Purpose: Stereotactic radiosurgery (SRS) and immune checkpoint inhibitors (ICI) are highly effective treatments for brain metastases, particularly when these therapies are administered concurrently. However, there are limited data reporting the risk of radiation necrosis (RN) in this setting. Methods and Materials: Patients with brain metastases from primary non-small cell lung cancer, renal cell carcinoma, or melanoma treated with SRS and ICI were considered. Time-to-event analyses were conducted for any grade RN and symptomatic RN (SRN) with death incorporated as a competing risk. As a secondary analysis, recursive partitioning analysis (RPA) was used for model development, and a loop of potential models was analyzed, with the highest-fidelity model selected. Brain V12 Gy thresholds identified on RPA were then incorporated into the competing risks analysis. Concurrent SRS and ICI administration. Results: Six hundred fifty-seven patients with 4182 brain metastases across 11 international institutions were analyzed. The median follow-up for all patients was 13.4 months. The median follow-up was 12.8 months and 14.1 months for the concurrent and nonconcurrent groups, respectively (P = .03). The median patient age was 66 years, and the median Karnofsky Performance Status was 90. In patients with any grade RN, 1- and 2-year rates were 6.4% and 9.9%, respectively. In patients with SRN, 1- and 2-year rates were 4.8% and 7.2%, respectively. On RPA, the highest-fidelity models consistently identified V12 Gy as the dominant variable predictive of RN. Three risk groups were identified by V12 Gy: (1) < 12 cm3; (2) 20 cm3 ≥ V12 Gy ≥ 12 cm3; (3) V12 Gy > 20 cm3. In patients with any grade RN, 1-year rates were 3.7% (V12 Gy < 12 cm3), 10.3% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 12.6% (V12 Gy > 20 cm3); the 2-year rates were 7.5% (V12 Gy < 12 cm3), 13.8% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 15.4% (V12 Gy > 20 cm3) (P < 0.001). In patients with any SRN, 1-year rates were 2.4% (V12 Gy < 12 cm3), 8.9% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 10.3% (V12 Gy > 20 cm3); the 2-year rates were 4.4% (V12 Gy < 12 cm3), 12.4% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 13.1% (V12 Gy > 20 cm3; P < 0.001). There were no statistically significant differences in rates of any grade RN or SRN when accounting for therapy timing for all patients and by V12 risk group identified on RPA. Conclusions: The use of SRS and ICI results in a low risk of any grade RN and SRN. This risk is not increased with concurrent administration. Therefore, ICI can safely be administered within 4-weeks of SRS. Three risk groups based on V12 Gy were identified, which clinicians may consider to further reduce rates of RN.

AB - Purpose: Stereotactic radiosurgery (SRS) and immune checkpoint inhibitors (ICI) are highly effective treatments for brain metastases, particularly when these therapies are administered concurrently. However, there are limited data reporting the risk of radiation necrosis (RN) in this setting. Methods and Materials: Patients with brain metastases from primary non-small cell lung cancer, renal cell carcinoma, or melanoma treated with SRS and ICI were considered. Time-to-event analyses were conducted for any grade RN and symptomatic RN (SRN) with death incorporated as a competing risk. As a secondary analysis, recursive partitioning analysis (RPA) was used for model development, and a loop of potential models was analyzed, with the highest-fidelity model selected. Brain V12 Gy thresholds identified on RPA were then incorporated into the competing risks analysis. Concurrent SRS and ICI administration. Results: Six hundred fifty-seven patients with 4182 brain metastases across 11 international institutions were analyzed. The median follow-up for all patients was 13.4 months. The median follow-up was 12.8 months and 14.1 months for the concurrent and nonconcurrent groups, respectively (P = .03). The median patient age was 66 years, and the median Karnofsky Performance Status was 90. In patients with any grade RN, 1- and 2-year rates were 6.4% and 9.9%, respectively. In patients with SRN, 1- and 2-year rates were 4.8% and 7.2%, respectively. On RPA, the highest-fidelity models consistently identified V12 Gy as the dominant variable predictive of RN. Three risk groups were identified by V12 Gy: (1) < 12 cm3; (2) 20 cm3 ≥ V12 Gy ≥ 12 cm3; (3) V12 Gy > 20 cm3. In patients with any grade RN, 1-year rates were 3.7% (V12 Gy < 12 cm3), 10.3% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 12.6% (V12 Gy > 20 cm3); the 2-year rates were 7.5% (V12 Gy < 12 cm3), 13.8% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 15.4% (V12 Gy > 20 cm3) (P < 0.001). In patients with any SRN, 1-year rates were 2.4% (V12 Gy < 12 cm3), 8.9% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 10.3% (V12 Gy > 20 cm3); the 2-year rates were 4.4% (V12 Gy < 12 cm3), 12.4% (20 cm3 ≥ V12 Gy ≥ 12 cm3), and 13.1% (V12 Gy > 20 cm3; P < 0.001). There were no statistically significant differences in rates of any grade RN or SRN when accounting for therapy timing for all patients and by V12 risk group identified on RPA. Conclusions: The use of SRS and ICI results in a low risk of any grade RN and SRN. This risk is not increased with concurrent administration. Therefore, ICI can safely be administered within 4-weeks of SRS. Three risk groups based on V12 Gy were identified, which clinicians may consider to further reduce rates of RN.

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JO - International Journal of Radiation Oncology Biology Physics

JF - International Journal of Radiation Oncology Biology Physics

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Concurrent Administration of Immune Checkpoint Inhibitors and Single Fraction Stereotactic Radiosurgery in Patients With Non-Small Cell Lung Cancer, Melanoma, and Renal Cell Carcinoma Brain Metastases

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