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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT05681260
Other study ID # CCCG-T-LBL-2023
Secondary ID
Status Recruiting
Phase Phase 3
First received
Last updated
Start date February 6, 2023
Est. completion date December 31, 2029

Study information

Verified date February 2024
Source Children's Cancer Group, China
Contact Yi-Jin Gao, M.D.
Phone 0086-21-38087513
Email gaoyijin@scmc.com.cn
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

T-cell lymphoblastic lymphoma (T-LBL) is the second most common subtype of non-Hodgkin lymphoma (NHL) in children and adolescents. With current treatment, event-free survival (EFS) rates vary between 75%~85%. Two different MTX intensification strategies are used commonly: HD-MTX with leucovorin rescue, and Capizzi-style MTX without leucovorin rescue plus PEG-ASP (C-MTX). Although superior outcome of patients with T-ALL receiving C-MTX compared with HD-MTX on the AALL0434 trial, the 2 approaches had not been compared directly in patients with T-LBL. There remains controversy on PET/CT interpretation in children with NHL. Large prospective studies in pediatric patients with T-LBL regarding PET/CT value for this is scarce. Around 1% pediatric patients with T-LBL will not achieve remission at the end of Induction (induction failure). The optimal treatment for this small subgroup is largely unclear. The BFM HR Blocks usually are applied to these patients even though the efficacy is unknown. Novel targeted therapies are needed for use. Dasatinib is identified as a targeted therapy for T-cell ALL in preclinical drug screening.


Description:

1. T-cell lymphoblastic lymphoma (T-LBL) which involves 90% of LBL cases is the second most common subtype of non-Hodgkin lymphoma (NHL) in children and adolescents. With current treatment, event-free survival (EFS) rates vary between 75%~85%. Poor probabilities of survival (10~15%) for patients after relapse leave no room for treatment de-escalation in frontline protocols. Limitations in numbers of newly diagnosed patients impeded evaluation potential prognostic markers and validation or conducting clinical studies. 2. In the GER-GPOH-NHL-BFM-95 study, the prophylactic cranial radiation was omitted, and the intensity of induction therapy was decreased slightly. There were no significant increases in CNS relapses, suggesting cranial radiation may be reserved for patients with CNS disease at diagnosis. The 5-year EFS was worse in NHL-BFM-95 (82%) than in NHL-BFM-90 (90%). It was proposed that the major difference in EFS between NHL-BFM-90 and NHL-BFM-95 resulted from the increased number of subsequent neoplasms observed in NHL-BFM-95. 3. Two different MTX intensification strategies are used commonly: HD-MTX with leucovorin rescue, and Capizzi-style MTX without leucovorin rescue plus PEG-ASP (C-MTX). Although superior outcome of patients with T-ALL receiving C-MTX compared with HD-MTX on the AALL0434 trial, the 2 approaches had not been compared directly in patients with T-LBL. 4. POG 9404: the small cohort (n = 66) of lymphoma patients who did not receive HD-MTX, the 5-year EFS was 88%. Of note, all of these patients received prophylactic cranial radiation therapy, which has been demonstrated not to be required in T-cell lymphoblastic lymphoma (T-LBL) patients. 5. COG-A5971 evaluated 2 strategies for CNS prophylaxis without CNS irradiation [5]. Patients were randomly assigned to receive HD-MTX in interim maintenance (BFM-95) or intrathecal chemotherapy throughout maintenance (CCG-BFM). The overall incidence of CNS relapse was 1.2%, and there was no difference between the treatment arms for CNS relapse, DFS, or OS. Minimal disseminated disease (MDD) >1% by FLOW at diagnosis was shown to be associated with a worse outcome in this trial (a BFM backbone containing HD-MTX). Measurement of bone marrow MDD at diagnosis with sequential response monitoring through peripheral blood during remission induction to aid treatment stratification was also suggested in an early COG study. The prognostic significance of MDD at End-of-Induction (EOI) or End-of-Consolidation (EOC) for T-LBL patients with positive MDD at diagnosis is still unclear. 6. COG AALL0434: the COG ABFM regimen with C-MTX provided excellent DFS without cranial radiation for patients with standard risk T-LBL (85%, Arm A, n=82, completed 64) and high risk T-LBL (85%, Arm A, n=61, completed 51) although patients with CNS 3 were not included. It appears that C-MTX may have negated the prognostic impact of MDD. 7. Nelarabine is unavailable in mainland China at this time, which did not show benefit in COG AALL0434 study. 8. AALL07P1: 10 patients with T-LBL in first relapse treated with a 4-drug induction regimen adding bortezomib: 7 had a response (1 had a complete response, 2 had unconfirmed complete responses, and 4 had partial responses) 9. COG AALL1231 for T-LBL: the 4-year EFS and OS were better in bortezomib group than the control group (86.4% and 89.5% vs. 76.5% and 78.3%, p=0.041 and 0.009, respectively.). Incorporating bortezomib into standard therapy for de novo T-LBL appears beneficial. 10. A biopsy for pathological examination of a mediastinal residual mass is a clinical dilemma. Currently, conventional imaging is still considered as the "standard" modality for evaluating pediatric patients with NHL at diagnosis and subsequent response. There remains controversy on PET/CT interpretation in children with NHL. Large prospective studies in pediatric patients with T-LBL regarding PET/CT value for this is scarce. 11. Although an overlap in morphology and immune-phenotyping exists in T-LBL and T-cell acute lymphoblastic leukemia (T-ALL), different disease distribution suggests possible different genetic profiles and pathogenesis. Except for stage, none of other parameters is used in the current stratification system outside of clinical trials for T-LBL (several candidates, but none have been validated sufficiently). Little is known about biomarkers with prognostic relevance for T-LBL. To improve risk stratification strategy and better understand biologic rationale for incorporating novel therapies (chemicals, target agents and immunotherapy) into a conventional chemotherapy backbone, translational research to identify molecular markers with prognostic relevance in T-LBL is highly recommended. 12. With the current treatment, around 1% pediatric patients with T-LBL will not achieve remission at the end of Induction (induction failure). The optimal treatment for this small subgroup is largely unclear. The BFM HR Blocks usually are applied to these patients even though the efficacy is unknown. Novel targeted therapies are needed for use. Dasatinib is identified as a targeted therapy for T-cell ALL in preclinical drug screening.


Recruitment information / eligibility

Status Recruiting
Enrollment 200
Est. completion date December 31, 2029
Est. primary completion date December 31, 2025
Accepts healthy volunteers No
Gender All
Age group 12 Months to 18 Years
Eligibility Inclusion Criteria: - Newly diagnosed T-lineage lymphoblastic lymphoma (T-LBL) Stage II-IV Exclusion Criteria: - Patients with Down syndrome or primary immune comprised disease. - Ph+ T-LBL - Patients must not have received any prior cytotoxic chemotherapy - Any steroids pretreatment for > 5 days in the 7 days or for >14 days in the 28 days before the initiation of Induction chemotherapy. The dose of prednisone or methylprednisone pretreatment does not affect eligibility. Any steroids exposure that occurred > 28 days before the initiation of Induction chemotherapy is allowed. Inhalation and topical steroids are not considered pretreatment. A single dose of vincristine is allowed.

Study Design


Related Conditions & MeSH terms


Intervention

Drug:
Prednisone,Vincristine, Pegylated-asparaginase, Bortezomib,Cytarabine, Cyclophosphamide, Daunorubicin, 6-mercaptopurine, methotrexate, Dexamethasone, Doxorubicin
Standard risk Arm A: Induction I followed by Consolidation, extracompartmental Capizzi MTX, delayed intensification and 96 weeks' maintenance therapy. Twenty-one or twenty-six triple intrathecal injections for CNS negative or positive patients, respectively.
Prednisone,Vincristine, Pegylated-asparaginase, Bortezomib,Cytarabine, Cyclophosphamide, Daunorubicin, 6-mercaptopurine, methotrexate, Dexamethasone, Doxorubicin
Standard risk Arm B: Induction I followed by Consolidation, extracompartmental high dose MTX, delayed intensification and 96 weeks' maintenance therapy. Twenty-one or twenty-six triple intrathecal injections for CNS negative or positive patients, respectively.
Prednisone,Vincristine, Pegylated-asparaginase, Bortezomib,Cytarabine, Cyclophosphamide, Daunorubicin, 6-mercaptopurine, methotrexate, Dexamethasone, Doxorubicin, Vindesine, Etoposide, Ifosfamide
High Risk T-LBL: Induction I followed by 2 cycles of BFM HR Blocks, delayed intensification and 96 weeks' maintenance therapy. Twenty-four or twenty-eight triple intrathecal injections for CNS negative or positive patients, respectively.

Locations

Country Name City State
China West China Second University Hospital Chengdu
China Shanghai Children's Medical Center Shanghai Shanghai

Sponsors (22)

Lead Sponsor Collaborator
Children's Cancer Group, China Beijing Children's Hospital, Cancer Hospital of Henan Province, Cancer hospital of Shandong Province, Children's Hospital of Hebei Province, Children's Hospital of Scow University, Nanjing Children's Hospital, Qilu Children's Hospital, Qilu Hospital of Shandong University, Ruijin Hospital, Second Affiliated Hospital of Anhui Medical University, Shanghai Children's Hospital, Shanghai Children's Medical Center, Shenzhen Children's Hospital, Sun Yat-Sen Memorial Hospital Zhongshan University, The First Affiliated Hospital of Zhengzhou University, Tianjin Medical University Cancer Institute and Hospital, Tongji Hospital affiliated to Tongji Medical College of Huazhong University of Science & Technology, West China Second University Hospital, Wuhan Children's Hospital, Xiangya Hospital of Central South University, Zhejiang University School of Medicine Children's Hospital

Country where clinical trial is conducted

China, 

References & Publications (18)

Asselin BL, Devidas M, Wang C, Pullen J, Borowitz MJ, Hutchison R, Lipshultz SE, Camitta BM. Effectiveness of high-dose methotrexate in T-cell lymphoblastic leukemia and advanced-stage lymphoblastic lymphoma: a randomized study by the Children's Oncology — View Citation

Bhojwani D, McCarville MB, Choi JK, Sawyer J, Metzger ML, Inaba H, Davidoff AM, Gold R, Shulkin BL, Sandlund JT. The role of FDG-PET/CT in the evaluation of residual disease in paediatric non-Hodgkin lymphoma. Br J Haematol. 2015 Mar;168(6):845-53. doi: 1 — View Citation

Burkhardt B, Reiter A, Landmann E, Lang P, Lassay L, Dickerhoff R, Lakomek M, Henze G, von Stackelberg A. Poor outcome for children and adolescents with progressive disease or relapse of lymphoblastic lymphoma: a report from the berlin-frankfurt-muenster — View Citation

Burkhardt B, Woessmann W, Zimmermann M, Kontny U, Vormoor J, Doerffel W, Mann G, Henze G, Niggli F, Ludwig WD, Janssen D, Riehm H, Schrappe M, Reiter A. Impact of cranial radiotherapy on central nervous system prophylaxis in children and adolescents with — View Citation

Cheson BD, Fisher RI, Barrington SF, Cavalli F, Schwartz LH, Zucca E, Lister TA; Alliance, Australasian Leukaemia and Lymphoma Group; Eastern Cooperative Oncology Group; European Mantle Cell Lymphoma Consortium; Italian Lymphoma Foundation; European Organ — View Citation

Coustan-Smith E, Sandlund JT, Perkins SL, Chen H, Chang M, Abromowitch M, Campana D. Minimal disseminated disease in childhood T-cell lymphoblastic lymphoma: a report from the children's oncology group. J Clin Oncol. 2009 Jul 20;27(21):3533-9. doi: 10.120 — View Citation

Hayashi RJ, Winter SS, Dunsmore KP, Devidas M, Chen Z, Wood BL, Hermiston ML, Teachey DT, Perkins SL, Miles RR, Raetz EA, Loh ML, Winick NJ, Carroll WL, Hunger SP, Lim MS, Gross TG, Bollard CM. Successful Outcomes of Newly Diagnosed T Lymphoblastic Lympho — View Citation

Horton TM, Whitlock JA, Lu X, O'Brien MM, Borowitz MJ, Devidas M, Raetz EA, Brown PA, Carroll WL, Hunger SP. Bortezomib reinduction chemotherapy in high-risk ALL in first relapse: a report from the Children's Oncology Group. Br J Haematol. 2019 Jul;186(2) — View Citation

Khanam T, Sandmann S, Seggewiss J, Ruether C, Zimmermann M, Norvil AB, Bartenhagen C, Randau G, Mueller S, Herbrueggen H, Hoffmann P, Herms S, Wei L, Woeste M, Wuensch C, Gowher H, Oschlies I, Klapper W, Woessmann W, Dugas M, Burkhardt B. Integrative geno — View Citation

Laukkanen S, Gronroos T, Polonen P, Kuusanmaki H, Mehtonen J, Cloos J, Ossenkoppele G, Gjertsen B, Oystein B, Heckman C, Heinaniemi M, Kontro M, Lohi O. In silico and preclinical drug screening identifies dasatinib as a targeted therapy for T-ALL. Blood C — View Citation

Rosolen A, Perkins SL, Pinkerton CR, Guillerman RP, Sandlund JT, Patte C, Reiter A, Cairo MS. Revised International Pediatric Non-Hodgkin Lymphoma Staging System. J Clin Oncol. 2015 Jun 20;33(18):2112-8. doi: 10.1200/JCO.2014.59.7203. Epub 2015 May 4. — View Citation

Salzburg J, Burkhardt B, Zimmermann M, Wachowski O, Woessmann W, Oschlies I, Klapper W, Wacker HH, Ludwig WD, Niggli F, Mann G, Gadner H, Riehm H, Schrappe M, Reiter A. Prevalence, clinical pattern, and outcome of CNS involvement in childhood and adolesce — View Citation

Sandlund JT, Guillerman RP, Perkins SL, Pinkerton CR, Rosolen A, Patte C, Reiter A, Cairo MS. International Pediatric Non-Hodgkin Lymphoma Response Criteria. J Clin Oncol. 2015 Jun 20;33(18):2106-11. doi: 10.1200/JCO.2014.59.0745. Epub 2015 May 4. — View Citation

Steinherz PG. CNS leukemia: problem of diagnosis, treatment, and outcome. J Clin Oncol. 1995 Feb;13(2):310-3. doi: 10.1200/JCO.1995.13.2.310. No abstract available. — View Citation

Teachey DT, Devidas M, Wood BL, Chen Z, Hayashi RJ, Hermiston ML, Annett RD, Archer JH, Asselin BL, August KJ, Cho SY, Dunsmore KP, Fisher BT, Freedman JL, Galardy PJ, Harker-Murray P, Horton TM, Jaju AI, Lam A, Messinger YH, Miles RR, Okada M, Patel SI, — View Citation

Teachey DT, O'Connor D. How I treat newly diagnosed T-cell acute lymphoblastic leukemia and T-cell lymphoblastic lymphoma in children. Blood. 2020 Jan 16;135(3):159-166. doi: 10.1182/blood.2019001557. — View Citation

Termuhlen AM, Smith LM, Perkins SL, Lones M, Finlay JL, Weinstein H, Gross TG, Abromowitch M. Disseminated lymphoblastic lymphoma in children and adolescents: results of the COG A5971 trial: a report from the Children's Oncology Group. Br J Haematol. 2013 — View Citation

Winter SS, Dunsmore KP, Devidas M, Wood BL, Esiashvili N, Chen Z, Eisenberg N, Briegel N, Hayashi RJ, Gastier-Foster JM, Carroll AJ, Heerema NA, Asselin BL, Gaynon PS, Borowitz MJ, Loh ML, Rabin KR, Raetz EA, Zweidler-Mckay PA, Winick NJ, Carroll WL, Hung — View Citation

* Note: There are 18 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary Event free survival for standard risk patients To determine the EFS in patients with newly diagnosed standard T-LBL, through randomization, the modified COG ABFM regimen with CMTX to the regimen with HD MTX 4 years
Primary Event free survival according to bone marrow MDD After using the modified COG ABFM regimen, to validate whether bone marrow MDD by Flow at diagnosis is still a prognostic factor for pediatric patients newly diagnosed with T-LBL 4 years
Primary Event free survival for high risk patients To determine the EFS in patients with induction failure who become complete or partial response after using 3 HR BFM Blocks and continue chemotherapy on 3 HR BFM Blocks followed by delayed intensification and maintenance therapy. 4 years
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