Cost-Effectiveness of Shortening Treatment Duration Based on Interim PET Outcome in Patients With Diffuse Large B-cell Lymphoma

PETRA consortium

doi:https://doi.org/10.1016/j.clml.2021.11.008

Cost-Effectiveness of Shortening Treatment Duration Based on Interim PET Outcome in Patients With Diffuse Large B-cell Lymphoma

PETRA consortium

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

Abstract

Background: Guideline recommendations for diffuse large-B-cell lymphoma (DLBCL) treatment are shifting from long to short treatment duration, although it is still unclear whether shortening treatment duration does not cause any harm. As interim PET (I-PET) has high negative predictive value for progression, we evaluated the cost-effectiveness of shortening treatment duration dependent on I-PET result. Materials and Methods: We developed a Markov cohort model using the PET Re-Analysis (PETRA) database to evaluate a long treatment duration (LTD) strategy, ie 8x R-CHOP or 6x R-CHOP plus 2 R, and a short treatment duration (STD) strategy, ie 6x R-CHOP. Strategies were evaluated separately in I-PET2 positive and I-PET2 negative patients. Outcomes included total costs and quality-adjusted life-years (QALYs) per patient (pp) from a societal perspective. Net monetary benefit (NMB) per strategy was calculated using a willingness-to-pay threshold of €50,000/QALY. Robustness of model predictions was assessed in sensitivity analyses. Results: In I-PET2 positive patients, shortening treatment duration led to 50.4 additional deaths per 1000 patients. The STD strategy was less effective (-0.161 [95%CI: -0.343;0.028] QALYs pp) and less costly (-€2768 [95%CI: -€8420;€1105] pp). Shortening treatment duration was not cost-effective (incremental NMB -€5281). In I-PET2 negative patients, shortening treatment duration led to 5.0 additional deaths per 1000 patients and a minor difference in effectiveness (-0.007 [95%CI: -0.136;0.140] QALY pp). The STD strategy was less costly (-€5807 [95%CI: -€10,724;-€2685] pp) and led to an incremental NMB of €5449, indicating that it is cost-effective to shorten treatment duration. Robustness of these findings was underpinned by deterministic and probabilistic sensitivity analyses. Conclusion: Treatment duration should not be shortened in I-PET2 positive patients whereas it is cost-effective to shorten treatment duration in I-PET2 negative patients.

Original language	English
Journal	Clinical Lymphoma, Myeloma and Leukemia
Early online date	2021
DOIs	https://doi.org/10.1016/j.clml.2021.11.008
Publication status	E-pub ahead of print - 2021

Keywords

FDG-PET
Health technology assessment
Interim response assessment
Non–Hodgkin lymphoma
Treatment duration

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https://doi.org/10.1016/j.clml.2021.11.008

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@article{d95cd6d721dd4381a0ee0fe15fa4b84d,

title = "Cost-Effectiveness of Shortening Treatment Duration Based on Interim PET Outcome in Patients With Diffuse Large B-cell Lymphoma",

abstract = "Background: Guideline recommendations for diffuse large-B-cell lymphoma (DLBCL) treatment are shifting from long to short treatment duration, although it is still unclear whether shortening treatment duration does not cause any harm. As interim PET (I-PET) has high negative predictive value for progression, we evaluated the cost-effectiveness of shortening treatment duration dependent on I-PET result. Materials and Methods: We developed a Markov cohort model using the PET Re-Analysis (PETRA) database to evaluate a long treatment duration (LTD) strategy, ie 8x R-CHOP or 6x R-CHOP plus 2 R, and a short treatment duration (STD) strategy, ie 6x R-CHOP. Strategies were evaluated separately in I-PET2 positive and I-PET2 negative patients. Outcomes included total costs and quality-adjusted life-years (QALYs) per patient (pp) from a societal perspective. Net monetary benefit (NMB) per strategy was calculated using a willingness-to-pay threshold of €50,000/QALY. Robustness of model predictions was assessed in sensitivity analyses. Results: In I-PET2 positive patients, shortening treatment duration led to 50.4 additional deaths per 1000 patients. The STD strategy was less effective (-0.161 [95%CI: -0.343;0.028] QALYs pp) and less costly (-€2768 [95%CI: -€8420;€1105] pp). Shortening treatment duration was not cost-effective (incremental NMB -€5281). In I-PET2 negative patients, shortening treatment duration led to 5.0 additional deaths per 1000 patients and a minor difference in effectiveness (-0.007 [95%CI: -0.136;0.140] QALY pp). The STD strategy was less costly (-€5807 [95%CI: -€10,724;-€2685] pp) and led to an incremental NMB of €5449, indicating that it is cost-effective to shorten treatment duration. Robustness of these findings was underpinned by deterministic and probabilistic sensitivity analyses. Conclusion: Treatment duration should not be shortened in I-PET2 positive patients whereas it is cost-effective to shorten treatment duration in I-PET2 negative patients.",

keywords = "FDG-PET, Health technology assessment, Interim response assessment, Non–Hodgkin lymphoma, Treatment duration",

author = "Greuter, {M. J. E.} and Eertink, {J. J.} and G. Jongeneel and U. D{\"u}hrsen and A. H{\"u}ttmann and C. Schmitz and Lugtenburg, {P. J.} and Barrington, {S. F.} and Mikhaeel, {N. G.} and L. Ceriani and E. Zucca and R. Carr and T. Gy{\"o}rke and Burggraaff, {C. N.} and {de Vet}, {H. C. W.} and {PETRA consortium} and Hoekstra, {O. S.} and Zijlstra, {J. M.} and Coup{\'e}, {V. M. H.}",

note = "Funding Information: U.D. received research funding from Amgen and Roche and honoraria for advisory boards from Amgen and Roche. P.J.L. received research funding from Takeda, Servier and Roche and honoraria for advisory boards from Takeda, Servier, Roche, Genmab, Celgene, Regeneron and Incyte. S.F.B. is on the speaker's bureau of Takeda and Hofman la Roche and received departmental funding from Bristol Myers Squibb international corporation, Pfizer and Amgen Ltd. J.M.Z. received research funding from Roche and received honoraria for advisory boards from Takeda, Gilead and Roche. All remaining authors have declared no conflict of interest. This work was financially supported by an Alpe d'Huzes/KWF fund provided by the Dutch Cancer Society (# VU 2012–5848). The PETAL trial was supported by grants from the Deutsche Krebshilfe (no. 107592 and no. 110515). Greuter MJE: Conceptualization, Formal analysis, Writing - original draft; Eertink JJ: Conceptualization, Formal analysis; Jongeneel G: Formal analysis; D{\"u}hrsen U: Data curation; H{\"u}ttmann A: Data curation; Schmitz C: Data curation; Lugtenburg PJ: Data curation; Barrington SF: Data curation; Mikhaeel NG: Data curation; Ceriani L: Data curation; Zucca E: Data curation; Carr R: Data curation; Gy{\"o}rke T: Data curation; Burggraaff CN: Conceptualization, Formal analysis; de Vet HCW: Conceptualization; Hoekstra OS: Conceptualization; Zijlstra JM: Conceptualization; Coup{\'e} VMH: Conceptualization. Publisher Copyright: {\textcopyright} 2021",

year = "2021",

doi = "https://doi.org/10.1016/j.clml.2021.11.008",

language = "English",

journal = "Clinical Lymphoma, Myeloma and Leukemia",

issn = "2152-2650",

publisher = "Cancer Media Group",

}

TY - JOUR

T1 - Cost-Effectiveness of Shortening Treatment Duration Based on Interim PET Outcome in Patients With Diffuse Large B-cell Lymphoma

AU - Greuter, M. J. E.

AU - Eertink, J. J.

AU - Jongeneel, G.

AU - Dührsen, U.

AU - Hüttmann, A.

AU - Schmitz, C.

AU - Lugtenburg, P. J.

AU - Barrington, S. F.

AU - Mikhaeel, N. G.

AU - Ceriani, L.

AU - Zucca, E.

AU - Carr, R.

AU - Györke, T.

AU - Burggraaff, C. N.

AU - de Vet, H. C. W.

AU - PETRA consortium

AU - Hoekstra, O. S.

AU - Zijlstra, J. M.

AU - Coupé, V. M. H.

N1 - Funding Information: U.D. received research funding from Amgen and Roche and honoraria for advisory boards from Amgen and Roche. P.J.L. received research funding from Takeda, Servier and Roche and honoraria for advisory boards from Takeda, Servier, Roche, Genmab, Celgene, Regeneron and Incyte. S.F.B. is on the speaker's bureau of Takeda and Hofman la Roche and received departmental funding from Bristol Myers Squibb international corporation, Pfizer and Amgen Ltd. J.M.Z. received research funding from Roche and received honoraria for advisory boards from Takeda, Gilead and Roche. All remaining authors have declared no conflict of interest. This work was financially supported by an Alpe d'Huzes/KWF fund provided by the Dutch Cancer Society (# VU 2012–5848). The PETAL trial was supported by grants from the Deutsche Krebshilfe (no. 107592 and no. 110515). Greuter MJE: Conceptualization, Formal analysis, Writing - original draft; Eertink JJ: Conceptualization, Formal analysis; Jongeneel G: Formal analysis; Dührsen U: Data curation; Hüttmann A: Data curation; Schmitz C: Data curation; Lugtenburg PJ: Data curation; Barrington SF: Data curation; Mikhaeel NG: Data curation; Ceriani L: Data curation; Zucca E: Data curation; Carr R: Data curation; Györke T: Data curation; Burggraaff CN: Conceptualization, Formal analysis; de Vet HCW: Conceptualization; Hoekstra OS: Conceptualization; Zijlstra JM: Conceptualization; Coupé VMH: Conceptualization. Publisher Copyright: © 2021

PY - 2021

Y1 - 2021

N2 - Background: Guideline recommendations for diffuse large-B-cell lymphoma (DLBCL) treatment are shifting from long to short treatment duration, although it is still unclear whether shortening treatment duration does not cause any harm. As interim PET (I-PET) has high negative predictive value for progression, we evaluated the cost-effectiveness of shortening treatment duration dependent on I-PET result. Materials and Methods: We developed a Markov cohort model using the PET Re-Analysis (PETRA) database to evaluate a long treatment duration (LTD) strategy, ie 8x R-CHOP or 6x R-CHOP plus 2 R, and a short treatment duration (STD) strategy, ie 6x R-CHOP. Strategies were evaluated separately in I-PET2 positive and I-PET2 negative patients. Outcomes included total costs and quality-adjusted life-years (QALYs) per patient (pp) from a societal perspective. Net monetary benefit (NMB) per strategy was calculated using a willingness-to-pay threshold of €50,000/QALY. Robustness of model predictions was assessed in sensitivity analyses. Results: In I-PET2 positive patients, shortening treatment duration led to 50.4 additional deaths per 1000 patients. The STD strategy was less effective (-0.161 [95%CI: -0.343;0.028] QALYs pp) and less costly (-€2768 [95%CI: -€8420;€1105] pp). Shortening treatment duration was not cost-effective (incremental NMB -€5281). In I-PET2 negative patients, shortening treatment duration led to 5.0 additional deaths per 1000 patients and a minor difference in effectiveness (-0.007 [95%CI: -0.136;0.140] QALY pp). The STD strategy was less costly (-€5807 [95%CI: -€10,724;-€2685] pp) and led to an incremental NMB of €5449, indicating that it is cost-effective to shorten treatment duration. Robustness of these findings was underpinned by deterministic and probabilistic sensitivity analyses. Conclusion: Treatment duration should not be shortened in I-PET2 positive patients whereas it is cost-effective to shorten treatment duration in I-PET2 negative patients.

AB - Background: Guideline recommendations for diffuse large-B-cell lymphoma (DLBCL) treatment are shifting from long to short treatment duration, although it is still unclear whether shortening treatment duration does not cause any harm. As interim PET (I-PET) has high negative predictive value for progression, we evaluated the cost-effectiveness of shortening treatment duration dependent on I-PET result. Materials and Methods: We developed a Markov cohort model using the PET Re-Analysis (PETRA) database to evaluate a long treatment duration (LTD) strategy, ie 8x R-CHOP or 6x R-CHOP plus 2 R, and a short treatment duration (STD) strategy, ie 6x R-CHOP. Strategies were evaluated separately in I-PET2 positive and I-PET2 negative patients. Outcomes included total costs and quality-adjusted life-years (QALYs) per patient (pp) from a societal perspective. Net monetary benefit (NMB) per strategy was calculated using a willingness-to-pay threshold of €50,000/QALY. Robustness of model predictions was assessed in sensitivity analyses. Results: In I-PET2 positive patients, shortening treatment duration led to 50.4 additional deaths per 1000 patients. The STD strategy was less effective (-0.161 [95%CI: -0.343;0.028] QALYs pp) and less costly (-€2768 [95%CI: -€8420;€1105] pp). Shortening treatment duration was not cost-effective (incremental NMB -€5281). In I-PET2 negative patients, shortening treatment duration led to 5.0 additional deaths per 1000 patients and a minor difference in effectiveness (-0.007 [95%CI: -0.136;0.140] QALY pp). The STD strategy was less costly (-€5807 [95%CI: -€10,724;-€2685] pp) and led to an incremental NMB of €5449, indicating that it is cost-effective to shorten treatment duration. Robustness of these findings was underpinned by deterministic and probabilistic sensitivity analyses. Conclusion: Treatment duration should not be shortened in I-PET2 positive patients whereas it is cost-effective to shorten treatment duration in I-PET2 negative patients.

KW - FDG-PET

KW - Health technology assessment

KW - Interim response assessment

KW - Non–Hodgkin lymphoma

KW - Treatment duration

UR - http://www.scopus.com/inward/record.url?scp=85121591032&partnerID=8YFLogxK

U2 - https://doi.org/10.1016/j.clml.2021.11.008

DO - https://doi.org/10.1016/j.clml.2021.11.008

M3 - Article

C2 - 34953740

SN - 2152-2650

JO - Clinical Lymphoma, Myeloma and Leukemia

JF - Clinical Lymphoma, Myeloma and Leukemia

ER -

Cost-Effectiveness of Shortening Treatment Duration Based on Interim PET Outcome in Patients With Diffuse Large B-cell Lymphoma

Abstract

Keywords

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