Michael Scordo1,2, Trent P Wang3, Kwang W Ahn4,5, Yue Chen4, Sairah Ahmed6, Farrukh T Awan7, Amer Beitinjaneh3, Andy Chen8, Victor A Chow9, Bhagirathbhai Dholaria10, Narendranath Epperla11, Umar Farooq12, Nilanjan Ghosh13, Natalie Grover14, Nada Hamad15, Gerhard C Hildebrandt16, Leona Holmberg9, Sanghee Hong17, David J Inwards18, Antonio Jimenez-Jimenez3, Reem Karmali19, Vaishalee P Kenkre20, Farhad Khimani21, Evgeny Klyuchnikov22, Maxwell M Krem16, Pashna N Munshi23, Yago Nieto24, Tim Prestidge25, Praveen Ramakrishnan Geethakumari26, Andrew R Rezvani27, Peter A Riedell28, Sachiko Seo29, Nirav N Shah30, Melhem Solh31, Jean A Yared32, Mohamed A Kharfan-Dabaja33, Alex Herrera34, Mehdi Hamadani4, Craig S Sauter1,2. 1. Adult Bone Marrow Transplant Service, Department of Medicine, Memorial Sloan Kettering Cancer Center, New York, New York. 2. Department of Medicine, Weill Cornell Medical College, New York, New York. 3. Division of Transplantation and Cellular Therapy, University of Miami Miller School of Medicine, Miami, Florida. 4. Center for International Blood and Marrow Transplant Research, Department of Medicine, Medical College of Wisconsin, Milwaukee. 5. Institute for Health and Equity, Division of Biostatistics, Medical College of Wisconsin, Milwaukee. 6. Department of Lymphoma and Myeloma, The University of Texas MD Anderson Cancer Center, Houston, Texas. 7. Department of Internal Medicine, University of Texas Southwestern Medical Center, Dallas. 8. Department of Medicine, Oregon Health and Science University, Portland. 9. Fred Hutchinson Cancer Research Center, Seattle, Washington. 10. Department of Medicine, Vanderbilt University Medical Center, Nashville, Tennessee. 11. The James Cancer Hospital and Solove Research Institute, Division of Hematology, Department of Medicine, The Ohio State University, Columbus. 12. Division of Hematology, Oncology and Blood & Marrow Transplantation, University of Iowa Hospitals and Clinics, Iowa City. 13. Levine Cancer Institute, Department of Hematologic Oncology and Blood Disorders, Atrium Health, Charlotte, North Carolina. 14. Department of Medicine, University of North Carolina Hospitals, Chapel Hill. 15. St Vincent's Hospital, Darlinghurst, New South Wales, Australia. 16. Markey Cancer Center, University of Kentucky, Lexington. 17. Blood and Marrow Transplant Program, Taussig Cancer Center, Cleveland Clinic, Cleveland, Ohio. 18. Division of Hematology, Mayo Clinic, Rochester, Minnesota. 19. Department of Medicine, Northwestern University, Chicago, Illinois. 20. Department of Medicine, University of Wisconsin-Madison, Madison. 21. H. Lee Moffitt Cancer Center and Research Institute, Tampa, Florida. 22. Department for Stem Cell Transplantation, University Cancer Center, Hamburg, Germany. 23. Department of Medicine, Georgetown University Hospital, Washington, DC. 24. Department of Stem Cell Transplantation and Cellular Therapy, The University of Texas MD Anderson Cancer Center, Houston. 25. Blood and Cancer Centre, Starship Children's Hospital, Auckland, New Zealand. 26. Lymphoma, BMT and Cellular Therapy Program, University of Texas Southwestern Medical Center, Dallas. 27. Division of Blood & Marrow Transplantation, Stanford University, Stanford, California. 28. Department of Medicine, The University of Chicago Medicine, Chicago, Illinois. 29. Department of Hematology and Oncology, Dokkyo Medical University, Tochigi, Japan. 30. Department of Medicine, Medical College of Wisconsin, Milwaukee. 31. The Blood and Marrow Transplant Group of Georgia, Northside Hospital, Atlanta. 32. Blood & Marrow Transplantation Program, Greenebaum Comprehensive Cancer Center, Division of Hematology/Oncology, Department of Medicine, University of Maryland, Baltimore. 33. Division of Hematology-Oncology, Blood and Marrow Transplantation Program, Mayo Clinic, Jacksonville, Florida. 34. Department of Hematology and Hematopoietic Cell Transplantation, City of Hope National Medical Center, Duarte, California.
Abstract
IMPORTANCE: Primary central nervous system lymphoma (PCNSL) requires induction and consolidation to achieve potential cure. High-dose therapy and autologous hematopoietic cell transplant (AHCT) is an accepted and effective consolidation strategy for PCNSL, but no consensus exists on the optimal conditioning regimens. OBJECTIVE: To assess the outcomes in patients with PCNSL undergoing AHCT with the 3 most commonly used conditioning regimens: thiotepa/busulfan/cyclophosphamide (TBC), thiotepa/carmustine (TT-BCNU), and carmustine/etoposide/cytarabine/melphalan (BEAM). DESIGN, SETTING, AND PARTICIPANTS: This observational cohort study used registry data from the Center for International Blood and Marrow Transplant Research registry. The Center is a working group of more than 380 transplantation centers worldwide that contributed detailed data on HCT to a statistical center at the Medical College of Wisconsin, Milwaukee. The participant data were from 603 adult patients with PCNSL who underwent AHCT as initial, or subsequent, consolidation between January 2010 and December 2018. Patients were excluded if they had a non-Hodgkin lymphoma subtype other than diffuse large B-cell lymphoma, systemic non-Hodgkin lymphoma, or HIV; received an uncommon conditioning regimen; or were not in partial remission or complete remission prior to AHCT. Statistical analysis was performed from July 5, 2020, to March 1, 2021. INTERVENTIONS: Patients received 1 of 3 conditioning regimens: TBC (n = 263), TT-BCNU (n = 275), and BEAM (n = 65). MAIN OUTCOMES AND MEASURES: The primary outcome was progression-free survival. Secondary outcomes included hematopoietic recovery, incidence of relapse, nonrelapse mortality, and overall survival. RESULTS: Of 603 patients, the mean age was 57 (range, 19-77) years and 318 (53%) were male. The 3-year adjusted progression-free survival rates were higher in the TBC cohort (75%) and TT-BCNU cohort (76%) compared with the BEAM cohort (58%) (P = .03) owing to a higher relapse risk in the BEAM cohort (hazard ratio [HR], 4.34; 95% CI, 2.45-7.70; P < .001). In a multivariable regression analysis, compared with the TBC cohort, patients who received TT-BCNU had a higher relapse risk (HR, 1.79; 95% CI, 1.07-2.98; P = .03), lower risk of nonrelapse mortality (NRM) (HR, 0.50; 95% CI, 0.29-0.87; P = .01), and similar risk of all-cause mortality more than 6 months after HCT (HR, 1.54; 95% CI, 0.93-2.55; P = .10). Age of 60 years or older, Karnofsky performance status less than 90, and an HCT-comorbidity index greater than or equal to 3 were associated with lower rates of survival across all 3 cohorts. Subgroup analyses demonstrated that patients aged 60 years and older had considerably higher NRM with TBC. CONCLUSIONS AND RELEVANCE: In this cohort study, thiotepa-based conditioning regimen was associated with higher rates of survival compared with BEAM, despite higher rates of early toxic effects and NRM; these findings may assist clinicians in choosing between TBC or TT-BCNU based on patient and disease characteristics.
IMPORTANCE: Primary central nervous system lymphoma (PCNSL) requires induction and consolidation to achieve potential cure. High-dose therapy and autologous hematopoietic cell transplant (AHCT) is an accepted and effective consolidation strategy for PCNSL, but no consensus exists on the optimal conditioning regimens. OBJECTIVE: To assess the outcomes in patients with PCNSL undergoing AHCT with the 3 most commonly used conditioning regimens: thiotepa/busulfan/cyclophosphamide (TBC), thiotepa/carmustine (TT-BCNU), and carmustine/etoposide/cytarabine/melphalan (BEAM). DESIGN, SETTING, AND PARTICIPANTS: This observational cohort study used registry data from the Center for International Blood and Marrow Transplant Research registry. The Center is a working group of more than 380 transplantation centers worldwide that contributed detailed data on HCT to a statistical center at the Medical College of Wisconsin, Milwaukee. The participant data were from 603 adult patients with PCNSL who underwent AHCT as initial, or subsequent, consolidation between January 2010 and December 2018. Patients were excluded if they had a non-Hodgkin lymphoma subtype other than diffuse large B-cell lymphoma, systemic non-Hodgkin lymphoma, or HIV; received an uncommon conditioning regimen; or were not in partial remission or complete remission prior to AHCT. Statistical analysis was performed from July 5, 2020, to March 1, 2021. INTERVENTIONS: Patients received 1 of 3 conditioning regimens: TBC (n = 263), TT-BCNU (n = 275), and BEAM (n = 65). MAIN OUTCOMES AND MEASURES: The primary outcome was progression-free survival. Secondary outcomes included hematopoietic recovery, incidence of relapse, nonrelapse mortality, and overall survival. RESULTS: Of 603 patients, the mean age was 57 (range, 19-77) years and 318 (53%) were male. The 3-year adjusted progression-free survival rates were higher in the TBC cohort (75%) and TT-BCNU cohort (76%) compared with the BEAM cohort (58%) (P = .03) owing to a higher relapse risk in the BEAM cohort (hazard ratio [HR], 4.34; 95% CI, 2.45-7.70; P < .001). In a multivariable regression analysis, compared with the TBC cohort, patients who received TT-BCNU had a higher relapse risk (HR, 1.79; 95% CI, 1.07-2.98; P = .03), lower risk of nonrelapse mortality (NRM) (HR, 0.50; 95% CI, 0.29-0.87; P = .01), and similar risk of all-cause mortality more than 6 months after HCT (HR, 1.54; 95% CI, 0.93-2.55; P = .10). Age of 60 years or older, Karnofsky performance status less than 90, and an HCT-comorbidity index greater than or equal to 3 were associated with lower rates of survival across all 3 cohorts. Subgroup analyses demonstrated that patients aged 60 years and older had considerably higher NRM with TBC. CONCLUSIONS AND RELEVANCE: In this cohort study, thiotepa-based conditioning regimen was associated with higher rates of survival compared with BEAM, despite higher rates of early toxic effects and NRM; these findings may assist clinicians in choosing between TBC or TT-BCNU based on patient and disease characteristics.
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