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| Name | Class |
|---|---|
| The Swedish Research Council | OTHER_GOV |
| The Swedish Childhood Cancer Foundation | UNKNOWN |
| Pfizer | INDUSTRY |
| Servier |
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ALLTogether collects the experience of previously successful treatment of infants, children and young adults, with ALL from a number of well-renowned study groups into a new master protocol, which is both a comprehensive system for stratification and treatment of ALL in this age-group as well as the basis for several randomised and interventional trials included in the study-design.
ALLTogether is a European clinical treatment study for acute lymphoblastic leukaemia (ALL) in infants, children and young adults. The aims are to improve survival and quality of survival. In young people, ALL has excellent outcome with an overall survival of about 92% in children and 75% in young adults. Infants with BCP-ALL and KMT2A-rearrangements have a worse outcome and are treated according to separate protocols, but infants with KMT2A-germline and T-cell ALL have acceptable outcome on standard ALL therapy. However, patients still die of disease - from relapse because of under-treatment and a large fraction of patients are also over-treated: All patients risk treatment-related death and some suffer long-term side-effects or secondary cancer. To show improvement with such good survival, large populations are needed.
Study groups from Sweden, Norway, Iceland, Denmark, Finland, Estonia and Lithuania (NOPHO), the UK (UKALL), the Netherlands (DCOG), Germany (COALL), Belgium (BSPHO), Portugal (SHOP), Ireland (PHOAI), and France (SFCE), have designed a common treatment protocol.
The study has a complex clinical trial design with sub-protocols (the randomisations / intervention) connected to a master protocol. The master protocol consists of well established therapy-elements and in its design typical for current ALL therapy. The master protocol therapy is in the study design considered as standard of care (SOC) therapy for infants, children and young adults with ALL.
The study structure is defined by a master protocol onto which randomised and interventional sub-protocols as well as sub-studies may be added, run and stop in a modular fashion.
The randomisations / intervention may identify therapy that is less toxic, but equally efficacious for sub-groups of patients and innovative therapy that may reduce relapses and death from ALL. In the master protocol, improved risk-stratification is likely to increase survival and reduce unnecessary toxicity and the introduction of therapeutic drug monitoring (TDM) of Asparaginase activity will make the use of Asparaginase more rational and efficient and may thus improve overall outcomes.
The investigators hypothesise that patients stratified to the standard-risk group are over-treated. Therefore, it will be tested if the treatment can be safely reduced. In the R1 randomisation, patients will be randomised to receiving the Delayed Intensification (DI) phase of therapy with or without the anthracycline Doxorubicin.
A similar hypothesis of over-treatment will also be tested in patients stratified to the intermediate risk-low group. In the R2 randomisation patients will be randomly assigned to either removal of Doxorubicin during the DI phase or removal of Vincristine and Dexamethasone pulses during the maintenance phase or to the control group, which will be treated with Doxorubicin in DI as well as Vincristine and Dexamethasone pulses during maintenance. Patients will only be randomised once.
Randomisation R1 and R2 are only considered for children since adults have worse outcome and very poor survival after relapse, but the risk-stratification is likely to reduce the number of high-risk cases also in the adult-group.
Patients stratified as intermediate risk-high (IR-high) are identified as having an increased risk of relapse and thus a less favourable prognosis than the standard- and intermediate risk-low groups, but a more favourable prognosis than the high risk patients. The majority of all relapses in childhood ALL is expected to occur in the IR-high group. Following a relapse, only approximately 40% of the children can be successfully treated again and for adults the corresponding figure is less than 20 %, so preventing relapses is very important. New treatment options that improves the antileukaemic efficacy and which have an improved safety profile are urgently needed.
For IR-high patients Randomisation 3 (R3) is available. In R3 patients will be randomised to receive either:
Patients with ABL-class fusions in their leukaemic clone will, as a non-randomised experimental intervention, be treated with an addition of a tyrosine-kinase inhibitor during the induction phase (for patients <25 years) and from the consolidation phase (patients ≥25 years). This intervention may shift therapy for previously resistant cases to lower intensity treatment with the associated reduced morbidity and may also reduce the number of relapses in analogy with the results in Ph+ ALL. The reason for not performing a randomised comparison is the rarity of the aberration and also the diversity of ABL-class fusions, reducing statistical power for any comparison further. For this reason, the results of this intervention may be pooled with other study-groups trying similar approaches.
A new intervention is introduced for Down syndrome patients with CD19 positive ALL: ALLTogether1 DS (NRI2). For Down syndrome-ALL patients who have end of Induction MRD detectable but <25% two conventional chemotherapy consolidation blocks will be replaced with two blocks of Blinatumomab. Recruitment to this intervention was closed at the end of August 2024.
For high-risk B-lineage patients, CAR-T therapy can be an alternative to high-risk blocks and stem-cell transplant, but in this case the intervention (CAR-T infusion) will be performed outside the ALLTogether1 study. However, the stratification-system in ALLTogether1 will define the population with a potential CAR-T indication.
ALLTogether1 also includes five sub-studies:
Efficacy and pharmacokinetics of Imatinib in ABL-class fusion positive ALL
Target population: All ABL-class patients enrolled in the ALLTogether study. Biomaterials to be collected at diagnosis, during TKI treatment, follow-up and relapse.
Aims
Objectives
Biomarkers to Reform Approaches to therapy-Induced Neurotoxicity (BRAIN)
Target population: All patients registered on ALLTogether1 aged ≥ 4 years at end of therapy (Arm A) and all patients registered on ALLTogether1 aged 2-21 years at start of therapy (Arm B) and without:
All centres are invited to enrol to arm A (Main BRAIN) of the study. Arm B (Longitudinal BRAIN) will be carried out in selected centres.
Aims
Primary end-point
a. Proportion of children with a z-score <1.5 on detection and/or identification CogState tasks in each treatment arm at the end of ALL therapy. A z-score < 1.5 correlates with moderate cognitive impairment at a level that may require additional support.
Secondary and exploratory end-points
Association between asparaginase activity levels and outcome
Target population: All patients included in the ALLTogether1 protocol are eligible for participation.
Primary aim
To study the association between asparaginase activity levels and outcome (MRD, relapse, survival)
Secondary aims
CSF-Flow
Target population: All patients included in the ALLTogether1 protocol are eligible for participation
Aims
Maintenance therapy pharmacokinetics/-dynamics study
Target population: All patients included in the ALLTogether1 protocol are eligible for participation. For IR-high patients participating in the randomised InO- and TEAM sub-protocols, the monitoring of 6-mercaptopurine (6MP)/Methotrexate (MTX) metabolites at three months intervals is mandatory.
Aims and specific objectives
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| R1 - SR standard arm | No Intervention | Standard risk arm receiving standard treatment (Delayed Intensification including Doxorubicin). | |
| R1 - SR experimental arm | Experimental | Standard risk arm, receiving Delayed Intensification without Doxorubicin IV 3 x 30 mg/m2/dose. |
|
| R2 - IR-low standard arm | No Intervention | Standard treatment with Delayed Intensification including Doxorubicin and Maintenance including Vincristine+Dexamethasone pulses. | |
| R2 - IR-low experimental arm A | Experimental | Standard treatment with omission of Doxorubicin IV 3 x 30 mg/m2/dose in the Delayed Intensification phase. |
|
| R3 - IR-high standard arm | No Intervention | Intermediate risk high arm receiving Standard Maintenance Therapy. | |
| R3-InO - IR-high experimental arm | Experimental | Inotuzumab IV 0,5 mg/m2, given on days 253, 260, 267 and on days 274, 281, 288 before start of Standard Maintenance Therapy. |
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Omitted Doxorubicin | Drug | Omission of IV Doxorubicin |
|
| Measure | Description | Time Frame |
|---|---|---|
| Event-free survival (EFS) for the whole protocol | The primary endpoint for the whole protocol (compared with the legacy protocols of the participating study-groups forming the consortium) is event-free survival (EFS) - as defined in the protocol. | 5 year estimates from the time of diagnosis will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Event-free survival (EFS) for the TKI intervention | The primary endpoint for the TKI intervention is event-free survival (EFS) - as defined in the protocol, from the start of TKI until event or end of follow-up | From the start of TKI (day 15 or day 30), 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up for all interventions except Inotuzumab-randomisation (minimum 2-year follow-up). |
| Disease-free survival (DFS) R1 + R2 | The primary endpoint for Randomisation 1 and 2 is disease-free survival (DFS) - as defined in the protocol counting from the time of randomisation | 5 and 8 year estimates from the time of randomisation will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Disease-free survival (DFS) R3 | The primary endpoint for Randomisation 3 and the ABL-class fusion intervention is disease-free survival (DFS) - as defined in the protocol counting from the time of randomisation (R3) and the start of TKI-therapy (ABL-class fusion intervention). | 5 year estimates from the time of randomisation will be measured but adequate follow-up for these estimates will be ensured: at least 2-year follow-up |
| MRD response after 1 cycle of Blinatumomab | Fraction of patients with undetectable MRD ("Complete MRD response") at the end of one cycle of Blinatumomab (+/- 1 week) |
| Measure | Description | Time Frame |
|---|---|---|
| Overall survival (OS) for the whole protocol | Overall survival defined as time from diagnosis to death or end of follow-up for surviving patients. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Overall survival (OS) for R1 + R2 |
| Measure | Description | Time Frame |
|---|---|---|
| 6-mercaptopurine and Methotrexate metabolite pharmacokinetics (i.e. Ery-TGN/MeMP/MTXpg) for R3-TEAM | Measurements of metabolites Ery-TGN/MeMP/MTXpg during Maintenance therapy. | From start of Maintenance therapy until the end of Maintenance therapy (protocol week 38 until protocol week 108) |
| Abnormal liver function parameters (including hypoglycemia) for R3-TEAM |
Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Global Clinical Trial Manager ALLTogether1 | Contact | +46 8 123 700 00 | alltogether.karolinska@regionstockholm.se |
| Name | Affiliation | Role |
|---|---|---|
| Mats Heyman, MD, PhD | Karolinska University Hospital | Study Chair |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| L'hôpital Universitaire des enfants Reine Fabiola (Huderf) | Recruiting | Brussels | 1020 | Belgium |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 28819280 | Background | Toft N, Birgens H, Abrahamsson J, Griskevicius L, Hallbook H, Heyman M, Klausen TW, Jonsson OG, Palk K, Pruunsild K, Quist-Paulsen P, Vaitkeviciene G, Vettenranta K, Asberg A, Frandsen TL, Marquart HV, Madsen HO, Noren-Nystrom U, Schmiegelow K. Results of NOPHO ALL2008 treatment for patients aged 1-45 years with acute lymphoblastic leukemia. Leukemia. 2018 Mar;32(3):606-615. doi: 10.1038/leu.2017.265. Epub 2017 Aug 18. | |
| 29966458 |
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ALLTogether Data Sharing Policy FINAL VERSION 1.0 DATED 12APRIL2022 applies (full details available from Trial Central Office):
Policy
The ALLTogether Consortium will consider requests for individual participant data (IPD) that underlie published results after deidentification. Requests for access for unpublished data will also be considered on a case-by-case basis.
Data access requests will be reviewed by The ALLTogether Board and, when applicable the ALLTogether Scientific committee.
IPD will only be released if all personalised identifiers can be removed and for the sole use of the approved request (tertiary dissemination will not be permitted).
Requestors will be required to sign a Data Access Agreement.
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| INDUSTRY |
| NordForsk | UNKNOWN |
| Aamu Pediatric Cancer Foundation | UNKNOWN |
| German Society for Pediatric Oncology and Hematology GPOH gGmbH | OTHER |
| Clinical Trial Center North (CTC North GmbH & Co. KG) | OTHER |
| Belgium Health Care Knowledge Centre | OTHER_GOV |
| Karolinska Institutet | OTHER |
| Cancer Research UK | OTHER |
| Fundação Rui Osório de Castro | UNKNOWN |
| Acreditar - Associação de Pais e Amigos das Crianças com Cancro | UNKNOWN |
| Grupo Português De Leucemias Pediátricas | UNKNOWN |
| Amgen | INDUSTRY |
| Nova Laboratories Limited | INDUSTRY |
| Danish Child Cancer Foundation | OTHER |
| Danish Cancer Society | OTHER |
| The Novo Nordic Foundation | OTHER |
| Assistance Publique - Hôpitaux de Paris | OTHER |
| Direction Générale de l'Offre de Soins | OTHER_GOV |
| Swedish Cancer Society | OTHER |
Master protocol with risk-stratification. The risk-stratified groups will proceed to non-randomised or randomised interventions in single arm (TKI) and (Blinatumomab) and parallel (R1/R2/R3) models respectively.
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|
| ABL-class fusions intervention | Experimental | Imatinib p.o. 340 mg/m2 given daily from day 15 or 30 (depending on age) to the end of therapy (week 106) in addition to Standard IR-high chemotherapy. |
|
| R3-TEAM - IR-high experimental arm | Experimental | 6-tioguanine p.o, 2,5-12,5 mg/m2, given daily in addition to Standard Maintenance Therapy. |
|
| ALLTogether1 DS Blinatumomab intervention | Experimental | Blinatumomab IV, 5 mcg/m2/day up to 28 mcg/day (detailed dosing in protocol) continous infusion. Two 28 day courses with a two week treatment free interval in between. Blinatumomab courses replace Consolidation 1 and Consolidation 2 in the standard protocol adapted for Down syndrome patients. |
|
| R2 - IR-low experimental arm B | Experimental | Standard treatment with omission of monthly pulses of Vincristine IV 1,5 mg/m2/dose and 5 days of Dexamethasone p.o. 6 mg/m2/day in the Maintenance Phase. |
|
| Omitted Vincristine+Dexamethasone pulses | Drug | Omission of Vincristine+Dexamethasone pulses |
|
| Inotuzumab Ozogamicin+Standard Maintenance Therapy | Drug | Addition of IV Inotuzumab ozogamicin before Maintenance Therapy |
|
|
| Imatinib | Drug | p.o. Imatinib |
|
| 6-tioguanine+Standard Maintenance Therapy | Drug | Addition of p.o. 6-tioguanine to Standard Maintenance Therapy |
|
| Blinatumomab | Drug | IV Blinatumomab |
|
|
| End of first Blinatumomab infusion +/- 1 week |
Overall survival defined as time from randomisation to death or end of follow-up for surviving patients. |
| 5 and 8 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Overall survival (OS) for R3 | Overall survival defined as time from randomisation to death or end of follow-up for surviving patients. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up |
| Overall survival (OS) for R3-TEAM associated with DNA-TG | Overall survival as defined above in relation to DNA-TG. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up |
| Overall survival (OS) for TKI | Overall survival defined as time from start of TKI to death or end of follow-up for surviving patients | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up (TKI). |
| Overall survival (OS) for ALLTogether1 DS | Overall survival defined as time from start of Blinatumomab to death or end of follow-up for surviving patients | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Induction death | Fraction of patients who die as well as cumulative incidence of death before achieved complete remission (CR) within the time-frame described in the protocol | From diagnosis until death before remission (at the earliest, day 29) or in case of no CR day 29, completion of induction and consolidation 1 (protocol day 99 - Down) and in addition 3 high-risk blocks (protocol day 134 - all other patients) |
| Resistant disease | Fraction of patients as well as cumulative incidence of resistant disease as described in the protocol. Induction death as competing risk. | From diagnosis until achieved complete remission (at the earliest, day 29) or in case of no CR day 29, assessment after induction and consolidation 1 (protocol day 99-Down patients) and in addition 3 high-risk blocks (protocol day 134-all other patients) |
| Cumulative incidence of relapse for the whole protocol | Time from achieved complete remission until relapse as defined in the protocol or end of follow-up. Second malignancy, death in complete remission as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Cumulative incidence of relapse for R1 + R2 | Time from randomisation until relapse as defined in the protocol or end of follow-up. Second malignancy, death in complete remission as competing events. | 5 and 8 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Cumulative incidence relapse for R3 | Time from randomisation until relapse as defined in the protocol or end of follow-up. Second malignancy, death in complete remission as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up |
| Cumulative incidence relapse for R3-TEAM in association with DNA-TG | Cumulative incidence of relapse as defined for R3 in association with DNA-TG for R3-TEAM. Second malignancy, death in complete remission as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up |
| Cumulative incidence CD22 negative relapse for R3 | Time from randomisation until relapse without expression of CD22 as defined in the protocol or end of follow-up. Second malignancy, death in complete remission and relapse with CD22 expression as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up |
| Cumulative incidence relapse for TKI | Time from start of TKI until relapse as defined in the protocol or end of follow-up. Second malignancy, death in complete remission as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up |
| Cumulative incidence relapse for ALLTogether1 DS | Time from start of Blinatumomab until relapse as defined in the protocol or end of follow-up. Second malignancy, death in complete remission as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up |
| Cumulative incidence of CD19 negative relapse for ALLTogether1 DS | Time from start of Blinatumomab until CD19 negative relapse as defined in the protocol or end of follow-up. Second malignancy, death in complete remission and CD19 positive relapse as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up |
| Cumulative incidence of second malignant neoplasm (SMN) for the whole protocol | Time from achieved complete remission until diagnosis of second malignant neoplasm as defined in the protocol or end of follow-up. Relapse and death in complete remission as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Cumulative incidence of second malignancy for R1+R2 | Time from randomisation until diagnosis of second malignant neoplasm as defined in the protocol or end of follow-up. Relapse and death in complete remission as competing events. | 5 and 8 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Cumulative incidence of second malignancy for R3 | Time from randomisation until diagnosis of second malignant neoplasm as defined in the protocol or end of follow-up. Relapse and death in complete remission as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up. |
| Cumulative incidence of second malignancy for R3-TEAM in association with DNA-TG | Cumulative incidence of second malignancy as defined above for R3 in association with DNA-TG for R3-TEAM. Relapse and death in complete remission as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up. |
| Cumulative incidence of second malignancy for TKI | Time from start of TKI until diagnosis of second malignant neoplasm as defined in the protocol or end of follow-up. Relapse and death in complete remission as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Cumulative incidence of second malignancy for ALLTogether1 DS | Time from start of Blinatumomab until diagnosis of second malignant neoplasm as defined in the protocol or end of follow-up. Relapse and death in complete remission as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Cumulative incidence of death in complete remission for the whole protocol | Time from achieved complete remission until death in complete remission as defined in the protocol or end of follow-up. Relapse and second malignant neoplasm as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Cumulative incidence of death in complete remission for R1+R2 | Time from randomisation until death in complete remission as defined in the protocol or end of follow-up. Relapse and second malignant neoplasm as competing events. | 5 and 8 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up. |
| Cumulative incidence of death in complete remission for R3 | Time from randomisation until death in complete remission as defined in the protocol or end of follow-up. Relapse and second malignant neoplasm as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up |
| Cumulative incidence of death in complete remission for TKI | Time from start of TKI until death in complete remission as defined in the protocol or end of follow-up. Relapse and second malignant neoplasm as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up |
| Cumulative incidence of death in complete remission for ALLTogether1 DS | Time from start of Blinatumomab until death in complete remission as defined in the protocol or end of follow-up. Relapse and second malignant neoplasm as competing events. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up |
| Cumulative incidence of treatment-related mortality for the whole protocol | Time from diagnosis until death during induction, death in complete remission or death from second malignant neoplasm (if not related to SMN-treatment). | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Cumulative incidence of treatment-related mortality R1+R2 | Time from randomisation until death in complete remission or death from second malignant neoplasm (if not related to SMN-treatment). | 5 and 8 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up. |
| Cumulative incidence of treatment-related mortality R3 | Time from randomisation until death in complete remission or death from second malignant neoplasm (if not related to SMN-treatment). | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up |
| Cumulative incidence of treatment-related mortality TKI | Time from start of TKI until death in complete remission or death from second malignant neoplasm (if not related to SMN-treatment). | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up |
| Leukaemia specific mortality for the whole protocol | Time from diagnosis until death after resistant disease or relapse - as defined in the protocol. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Leukaemia specific mortality for R1+R2 | Time from randomisation until death after relapse - as defined in the protocol. | 5 and 8 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up. |
| Leukaemia specific mortality for R3 | Time from randomisation until death after relapse - as defined in the protocol. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 2 years follow-up |
| Leukaemia specific mortality for TKI | Time from start of TKI until death after relapse - as defined in the protocol. | 5 year estimates will be measured but adequate follow-up for these estimates will be ensured: at least 5 years follow-up |
| Incidence of Adverse Events of Special Interest (AESIs) per treatment-phase in the whole protocol and TKI intervention | Cumulative incidence of 19 AESIs as defined in the protocol | From time of diagnosis after each treatment-phase (one extra in the middle of maintenance) and annually until 5 years from discontinuation of therapy. |
| Incidence of Adverse Events of Special Interest (AESIs) extra assessment (R1+R2) | Cumulative incidence of 4 additional AESIs as defined in the protocol | Cumulative incidence of AESIs estimated 3 months after start of maintenance (R1+R2) and at the end of maintenance (R2) |
| Incidence of Adverse Events of Special Interest (AESIs) extra assessment (R3) | Cumulative incidence of 3 additional AESIs as defined in the protocol | Cumulative incidence of AESIs estimated at the end of maintenance. |
| Incidence of Serious Adverse Events (SAEs) and Adverse Events (AEs) related to R3 | Cumulative incidence of SAEs and AEs (with limitations) as defined in the protocol | From time of randomisation until the end of maintenance therapy (approximately 77 weeks from randomisation) |
| Quantitative measures of toxicity R1+R2 | Days: in hospital, with iv antibiotics, with iv analgesics, with iv nutritional support | From time of randomisation, assessment after delayed intensification and 6 weeks after start of maintenance |
| Metabolic consequences of steroid exposure (R2) | Measurements of BMI | At the end of therapy (approximately 94 weeks from randomisation) and 5 years after discontinuation of treatment |
| Association of Disease-free survival (DFS) with DNA-TG for R3-TEAM | Disease-free survival (DFS) - as defined above associated with DNA-TG. | 5 year estimates from the time of randomisation will be measured but adequate follow-up for these estimates will be ensured: at least 2-year follow-up |
| Cumulative incidence of Sinusoidal Obstruction Syndrome (SOS) and Nodular Regenerative Hyperplasia (NRH) for R3-TEAM | Time from randomisation until diagnosis of SOS or NRH as defined in the protocol or end of follow-up. | Cumulative incidence of SOS/NRH estimated at the end of follow-up. |
| Cumulative incidence of Osteonecrosis for R3-TEAM | Time from randomisation until diagnosis of osteonecrosis as defined in the protocol or end of follow-up. | Cumulative incidence of osteonecrosis estimated at the end of follow-up. |
| Event-free survival (EFS) for ALLTogether1 DS | Event-free survival as defined in the protocol, from the start of Blinatumomab until death from any cause, relapse, second malignancy, protocol therapy failure (MRD>1% after 2 cycles blinatumomab and Augmented BFM consolidation) or end of follow-up. | From the start of Blinatumomab, 5 year estimate will be measured but adequate follow-up for this estimate will be ensured: at least 5 years follow-up. |
| Incidence of Blinatumomab refractory disease for ALLTogether1 DS | Incidence of progressive disease under Blinatumomab treatment or MRD ≥1% at the end of the 2nd cycle of Blinatumomab. | From the start of Blinatumomab until end of 2nd cycle of Blinatumomab (each cycle is 4 weeks followed by a 2-week treatment free period) |
| Incidence of Protocol Therapy Failure for ALLTogether1 DS | Incidence of patients who have MRD ≥1 % post 2 cycles of Blinatumomab followed by Augmented BFM consolidation, corresponding to original protocol day 99, or unchanged/increasing MRD during Augmented BFM consolidation corresponding to original protocol day 57. | From the start of Blinatumomab until the end of Consolidation 1 (85-140 days: 15-70 days of Blinatumomab therapy + 70 days of Consolidation 1) |
Liver function parameters including hypoglycemia during Maintenance therapy |
| From start of Maintenance therapy until the end of Maintenance therapy (protocol week 38 until protocol week 108) |
| Cliniques Universitaires Saint-Luc (UCL) | Recruiting | Brussels | 1200 | Belgium |
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| University Hospital Antwerp | Recruiting | Edegem | 2650 | Belgium |
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| University Hospital Ghent | Recruiting | Ghent | 9000 | Belgium |
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| University Hospital Leuven, Dept of Paediatrics | Recruiting | Leuven | 3000 | Belgium |
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| CHC MontLégia, Boulevard Patience et Beaujonc 2 | Recruiting | Liège | 4000 | Belgium |
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| CHR de la Citadelle | Recruiting | Liège | 4000 | Belgium |
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| Aalborg University Hospital, Dept of Paediatrics | Recruiting | Aalborg | 9000 | Denmark |
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| Aarhus University Hospital | Recruiting | Aarhus | 8000 | Denmark |
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| Aarhus University Hospital, Child and Adolescent Health | Recruiting | Aarhus | 8200 | Denmark |
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| Rigshospitalet, Dept of Haematology | Recruiting | Copenhagen | 2100 | Denmark |
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| Rigshospitalet, Dept of Paediatrics | Recruiting | Copenhagen | 2100 | Denmark |
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| Odense University Hospital, Dept of Paediatrics | Recruiting | Odense | 5000 | Denmark |
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| North Estonia Medical Centre, Dept of Haematology | Recruiting | Tallinn | 13419 | Estonia |
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| Tallinn Children´s Hospital, Dept of Paediatrics | Recruiting | Tallinn | 13419 | Estonia |
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| Tartu University Hospital | Recruiting | Tartu | 50406 | Estonia |
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| Helsinki University Hospital, Dept of Haematology | Recruiting | Helsinki | 00029 | Finland |
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| Helsinki University Hospital, Dept of Paediatrics | Recruiting | Helsinki | 00029 | Finland |
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| Kuopio University Hospital, Dept of Haematology | Recruiting | Kuopio | 70029 | Finland |
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| Kuopio University Hospital, Dept of Paediatrics | Recruiting | Kuopio | 70029 | Finland |
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| Oulu University Hospital, Dept of Haematology, Dept of Medicine | Recruiting | Oulu | 90029 | Finland |
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| Oulu University Hospital, Dept of Paediatrics | Recruiting | Oulu | 90029 | Finland |
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| Tampere University Hospital, Dept of Haematology | Recruiting | Tampere | 33521 | Finland |
|
| Tampere University Hospital, Dept of Paediatrics | Recruiting | Tampere | 33521 | Finland |
|
| Turku University Hospital, Clinical Haematology and Stem Cell Transplantation Unit | Recruiting | Turku | 20520 | Finland |
|
| Turku University Hospital, Dept of Paediatrics | Recruiting | Turku | 20520 | Finland |
|
| CHU Amiens Groupe Hospitalier Sud | Recruiting | Amiens | 80054 | France |
|
| CHU Angers | Recruiting | Angers | 49033 | France |
|
| CHRU Besançon | Recruiting | Besançon | 25030 | France |
|
| CHU Bordeaux - Groupe Hospitalier Pellegrin | Recruiting | Bordeaux | 33076 | France |
|
| CHRU Brest - Morvan | Recruiting | Brest | 29609 | France |
|
| Centre Hospitalier Universitaire Caen | Recruiting | Caen | 14033 | France |
|
| CHU Clermont-Ferrand | Recruiting | Clermont-Ferrand | 63000 | France |
|
| CHU Dijon Hôpital François Mitterrand | Recruiting | Dijon | 21000 | France |
|
| CHU de Grenoble site Nord - Hôpital Albert Michallon | Recruiting | Grenoble | 38043 | France |
|
| CHRU de Lille - Hôpital Jeanne de Flandre | Recruiting | Lille | 59037 | France |
|
| Hôpital de la mère et de l'enfant | Recruiting | Limoges | 87042 | France |
|
| CHU de Lyon HCL - GH Est-Institut d'hématologie et d'oncologie pédiatrique IHOP | Recruiting | Lyon | 69373 | France |
|
| CHU de Marseille - Hôpital de la Timone | Recruiting | Marseille | 13385 | France |
|
| CHU de Montpellier - Hôpital Arnaud de Villeneuve | Recruiting | Montpellier | 34295 | France |
|
| CHU Nantes-Hôpital enfant-adolescent | Recruiting | Nantes | 44093 | France |
|
| CHU Nice - Hôpital l'Archet 2 | Recruiting | Nice | 6200 | France |
|
| CHU Paris Saint Louis | Recruiting | Paris | 75010 | France |
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| CHU Paris Armand Trousseau | Recruiting | Paris | 75012 | France |
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| CHU Paris - Hôpital Robert Debré | Recruiting | Paris | 75019 | France |
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| CHU Poitiers | Recruiting | Poitiers | 86021 | France |
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| CHU Reims-American Hospital | Recruiting | Reims | 51100 | France |
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| CHU Rennes - Hôpital sud | Recruiting | Rennes | 35203 | France |
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| CHU Rouen | Recruiting | Rouen | 76031 | France |
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| CHU De La Réunion - Site Nord (Hôpital Félix GUYON) | Recruiting | Saint-Denis | 97400 | France |
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| CHU Saint Etienne Hôpital Nord | Recruiting | Saint-Etienne | 42055 | France |
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| CHU Strasbourg -Hôpital de Hautepierre | Recruiting | Strasbourg | 67098 | France |
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| CHU Toulouse | Recruiting | Toulouse | 31059 | France |
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| CHRU Tours- Hôpital Clocheville | Recruiting | Tours | 37000 | France |
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| CHU de Nancy - Hôpital de Brabois Enfant | Recruiting | Vandœuvre-lès-Nancy | 54511 | France |
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| Evangelisches Klinikum Bethel | Recruiting | Bielefeld | 33617 | Germany |
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| Universitätsklinikum Bonn | Recruiting | Bonn | 53113 | Germany |
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| Klinikum Bremen Mitte | Recruiting | Bremen | 28177 | Germany |
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| Universitätsklinikum Hamburg-Eppendorf | Recruiting | Hamburg | 20246 | Germany |
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| HELIOS Klinikum Krefeld | Recruiting | Krefeld | 47805 | Germany |
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| Universitätsmedizin Mainz | Recruiting | Mainz | 55131 | Germany |
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| Landspitali University Hospital, Children's Hospital | Recruiting | Reykjavik | 101 | Iceland |
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| Our Lady's Children's Hospital | Recruiting | Dublin | Ireland |
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| Children's Hospital, Affiliate of Vilnius University Hospital Santaros Klinikos | Recruiting | Vilnius | 08661 | Lithuania |
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| Vilnius University Hospital Santaros Klinikos | Not yet recruiting | Vilnius | 08661 | Lithuania |
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| Princess Máxima Center for Pediatric Oncology | Recruiting | Utrecht | 3584 | Netherlands |
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| University Medical Center Utrecht | Recruiting | Utrecht | Netherlands |
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| Haukeland University Hospital, Dept of Haematology | Recruiting | Bergen | 5021 | Norway |
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| Haukeland University Hospital, Dept of Paediatrics | Recruiting | Bergen | 5021 | Norway |
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| Oslo University Hospital, Dept of Haematology | Recruiting | Oslo | 0372 | Norway |
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| Oslo University Hospital, Dept of paediatric haemato- and oncology | Recruiting | Oslo | 0424 | Norway |
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| Stavanger University Hospital, Dept of Haematology | Recruiting | Stavanger | 4011 | Norway |
|
| University Hospital North Norway, Dept of Haematology | Recruiting | Tromsø | 9019 | Norway |
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| University Hospital of North Norway, Dept of Paediatrics | Recruiting | Tromsø | 9038 | Norway |
|
| St. Olavs University Hospital, Dept of Paediatrics | Recruiting | Trondheim | 7006 | Norway |
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| St. Olavs University Hospital, Dept of Haematology | Recruiting | Trondheim | 7030 | Norway |
|
| Centro Hospitalar e Universitário de Coimbra, EPE - Hospital Pediátrico de Coimbra | Not yet recruiting | Coimbra | 3000-602 | Portugal |
|
| Instituto Português de Oncologia de Lisboa Francisco Gentil, EPE | Recruiting | Lisbon | 1099-023 | Portugal |
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| Instituto Português de Oncologia do Porto Francisco Gentil, EPE | Recruiting | Porto | 4200-072 | Portugal |
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| Hospital Universitario De Cruces | Not yet recruiting | Barakaldo | Spain |
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| Hospital Universitari Vall D Hebron | Not yet recruiting | Barcelona | Spain |
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| Hospital Sant Joan De Deu Barcelona | Not yet recruiting | Esplugues de Llobregat | Spain |
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| Hospital Infantil Universitario Nino Jesus | Not yet recruiting | Madrid | Spain |
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| Hospital Universitario La Paz | Not yet recruiting | Madrid | Spain |
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| University Hospital Son Espases | Not yet recruiting | Palma de Mallorca | Spain |
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| University Hospital Virgen Del Rocio S.L. | Not yet recruiting | Seville | Spain |
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| Hospital Universitario Y Politecnico La Fe | Not yet recruiting | Valencia | Spain |
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| Hospital Universitario Miguel Servet | Not yet recruiting | Zaragoza | Spain |
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| Sahlgrenska University Hospital, Section for Haematology and coagulation | Recruiting | Gothenburg | 41345 | Sweden |
|
| Sahlgrenska University Hospital, Dept of Paediatric Haematology and Oncology | Recruiting | Gothenburg | 41685 | Sweden |
|
| Linköping University Hospital, Dept of Haematology | Recruiting | Linköping | 58185 | Sweden |
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| Linköping University Hospital, Dept of Paediatrics | Recruiting | Linköping | 58185 | Sweden |
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| Skåne University Hospital, Dept of Haematology | Recruiting | Lund | 22185 | Sweden |
|
| Skåne University Hospital, Dept of Paediatrics | Recruiting | Lund | 22185 | Sweden |
|
| Örebro University Hospital, Section for Haematology | Recruiting | Örebro | 70185 | Sweden |
|
| Karolinska University Hospital, Dept of Paediatric Oncology and Haematology | Recruiting | Stockholm | 17176 | Sweden |
|
| Karolinska University Hospital, Patient area Haematology | Recruiting | Stockholm | 17176 | Sweden |
|
| Norrland University Hospital, Dept of Haematology | Recruiting | Umeå | 90185 | Sweden |
|
| Norrland University Hospital, Dept of Paediatrics | Recruiting | Umeå | 90185 | Sweden |
|
| Uppsala University Hospital, Dept of Haematology | Recruiting | Uppsala | 75185 | Sweden |
|
| Uppsala University Hospital, Dept of Paediatric Haematology and Oncology | Recruiting | Uppsala | 75185 | Sweden |
|
| Aberdeen Royal Infirmary, Aberdeen | Not yet recruiting | Aberdeen | AB25 2ZN | United Kingdom |
|
| Royal Aberdeen Children's Hospital, Aberdeen | Recruiting | Aberdeen | United Kingdom |
|
| Royal Belfast Hospital for Sick Children, Belfast | Not yet recruiting | Belfast | BT12 6BA | United Kingdom |
|
| Belfast City Hospital, Belfast | Not yet recruiting | Belfast | BT9 7AB | United Kingdom |
|
| The Queen Elizabeth Hospital, Birmingham | Recruiting | Birmingham | B15 2TH | United Kingdom |
|
| Birmingham Children's Hospital, Birmingham | Recruiting | Birmingham | B4 6NH | United Kingdom |
|
| Bristol Royal Hospital for Children / Bristol Haematology and Oncology Centre | Recruiting | Bristol | BS2 8BJ | United Kingdom |
|
| Addenbrooke's Hospital, Cambridge | Recruiting | Cambridge | CB2 0QQ | United Kingdom |
|
| Noah's Ark Children's Hospital for Wales, Cardiff | Not yet recruiting | Cardiff | CF14 4XW | United Kingdom |
|
| University Hospital of Wales, Cardiff | Not yet recruiting | Cardiff | United Kingdom |
|
| Western General Hospital, Edinburgh | Recruiting | Edinburgh | EH2 2XU | United Kingdom |
|
| Royal Hospital for Children and Young People, Edinburgh | Recruiting | Edinburgh | EH9 1LF | United Kingdom |
|
| Beatson West of Scotland Cancer Centre, Glasgow | Not yet recruiting | Glasgow | G12 0YN | United Kingdom |
|
| Royal Hospital for Children, Glasgow | Recruiting | Glasgow | G51 4TF | United Kingdom |
|
| Leeds General Infirmary, Leeds | Recruiting | Leeds | LS1 3EX | United Kingdom |
|
| Leeds St James University Hospital | Recruiting | Leeds | LS9 7TF | United Kingdom |
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| Leicester Royal Infirmary, Leicester | Recruiting | Leicester | LE1 5WW | United Kingdom |
|
| Alder Hey Children's Hospital, Liverpool | Recruiting | Liverpool | L12 2AP | United Kingdom |
|
| The Clatterbridge Cancer Centre NHS Foundation Trust | Recruiting | Liverpool | United Kingdom |
|
| University College London Hospital, London | Recruiting | London | NW1 2BU | United Kingdom |
|
| Great Ormond Street Hospital for Children, London | Recruiting | London | WC1N 3JH | United Kingdom |
|
| King's College Hospital | Recruiting | London | United Kingdom |
|
| St. Bartholomews Hospital | Recruiting | London | United Kingdom |
|
| Royal Manchester Children's Hospital, Manchester | Recruiting | Manchester | M13 9WL | United Kingdom |
|
| The Christie NHS Foundation Trust (PTC) | Recruiting | Manchester | M20 4BX | United Kingdom |
|
| Freeman Hospital, Newcastle | Not yet recruiting | Newcastle | NE7 7DN | United Kingdom |
|
| Royal Victoria Infirmary, Newcastle | Recruiting | Newcastle upon Tyne | NE1 4LP | United Kingdom |
|
| Nottingham City Hospital | Not yet recruiting | Nottingham | NG5 1PB | United Kingdom |
|
| Nottingham Queen's Medical Centre | Recruiting | Nottingham | NG7 2UH | United Kingdom |
|
| Churchill Hospital, Oxford | Not yet recruiting | Oxford | OX3 7LE | United Kingdom |
|
| John Radcliffe Hospital, Oxford | Recruiting | Oxford | OX3 9DU | United Kingdom |
|
| Derriford Hospital | Recruiting | Plymouth | United Kingdom |
|
| Royal Hallamshire Hospital, Sheffield | Recruiting | Sheffield | S10 2JF | United Kingdom |
|
| Sheffield Children's Hospital, Sheffield | Recruiting | Sheffield | S10 2TH | United Kingdom |
|
| Southampton General Hospital, Southampton | Recruiting | Southampton | SO16 6YD | United Kingdom |
|
| Royal Stoke University Hospital, Stoke | Not yet recruiting | Stoke | ST4 6QG | United Kingdom |
|
| Royal Marsden Hospital, Sutton | Recruiting | Sutton | SM2 5PT | United Kingdom |
|
| Background |
| Schramm F, Zimmermann M, Jorch N, Pekrun A, Borkhardt A, Imschweiler T, Christiansen H, Faber J, Feuchtinger T, Schmid I, Beron G, Horstmann MA, Escherich G. Daunorubicin during delayed intensification decreases the incidence of infectious complications - a randomized comparison in trial CoALL 08-09. Leuk Lymphoma. 2019 Jan;60(1):60-68. doi: 10.1080/10428194.2018.1473575. Epub 2018 Jul 3. |
| 28751566 | Background | Mondelaers V, Suciu S, De Moerloose B, Ferster A, Mazingue F, Plat G, Yakouben K, Uyttebroeck A, Lutz P, Costa V, Sirvent N, Plouvier E, Munzer M, Poiree M, Minckes O, Millot F, Plantaz D, Maes P, Hoyoux C, Cave H, Rohrlich P, Bertrand Y, Benoit Y; Children-s Leukemia Group (CLG) of the European Organization for Research and Treatment of Cancer (EORTC). Prolonged versus standard native E. coli asparaginase therapy in childhood acute lymphoblastic leukemia and non-Hodgkin lymphoma: final results of the EORTC-CLG randomized phase III trial 58951. Haematologica. 2017 Oct;102(10):1727-1738. doi: 10.3324/haematol.2017.165845. Epub 2017 Jul 27. |
| 23395119 | Background | Vora A, Goulden N, Wade R, Mitchell C, Hancock J, Hough R, Rowntree C, Richards S. Treatment reduction for children and young adults with low-risk acute lymphoblastic leukaemia defined by minimal residual disease (UKALL 2003): a randomised controlled trial. Lancet Oncol. 2013 Mar;14(3):199-209. doi: 10.1016/S1470-2045(12)70600-9. Epub 2013 Feb 7. |
| 27269950 | Background | Pieters R, de Groot-Kruseman H, Van der Velden V, Fiocco M, van den Berg H, de Bont E, Egeler RM, Hoogerbrugge P, Kaspers G, Van der Schoot E, De Haas V, Van Dongen J. Successful Therapy Reduction and Intensification for Childhood Acute Lymphoblastic Leukemia Based on Minimal Residual Disease Monitoring: Study ALL10 From the Dutch Childhood Oncology Group. J Clin Oncol. 2016 Aug 1;34(22):2591-601. doi: 10.1200/JCO.2015.64.6364. Epub 2016 Jun 6. |
| 35501736 | Derived | Toksvang LN, Als-Nielsen B, Bacon C, Bertasiute R, Duarte X, Escherich G, Helgadottir EA, Johannsdottir IR, Jonsson OG, Kozlowski P, Langenskjold C, Lepik K, Niinimaki R, Overgaard UM, Punab M, Raty R, Segers H, van der Sluis I, Smith OP, Strullu M, Vaitkeviciene G, Wik HS, Heyman M, Schmiegelow K. Thiopurine Enhanced ALL Maintenance (TEAM): study protocol for a randomized study to evaluate the improvement in disease-free survival by adding very low dose 6-thioguanine to 6-mercaptopurine/methotrexate-based maintenance therapy in pediatric and adult patients (0-45 years) with newly diagnosed B-cell precursor or T-cell acute lymphoblastic leukemia treated according to the intermediate risk-high group of the ALLTogether1 protocol. BMC Cancer. 2022 May 2;22(1):483. doi: 10.1186/s12885-022-09522-3. |
| ID | Term |
|---|---|
| D054198 | Precursor Cell Lymphoblastic Leukemia-Lymphoma |
| D007938 | Leukemia |
| ID | Term |
|---|---|
| D007945 | Leukemia, Lymphoid |
| D009370 | Neoplasms by Histologic Type |
| D009369 | Neoplasms |
| D006402 | Hematologic Diseases |
| D006425 | Hemic and Lymphatic Diseases |
| D008232 | Lymphoproliferative Disorders |
| D008206 | Lymphatic Diseases |
| D007160 | Immunoproliferative Disorders |
| D007154 | Immune System Diseases |
Not provided
Not provided
| ID | Term |
|---|---|
| D000068877 | Imatinib Mesylate |
| C510808 | blinatumomab |
| ID | Term |
|---|---|
| D001549 | Benzamides |
| D000577 | Amides |
| D009930 | Organic Chemicals |
| D001565 | Benzoates |
| D000146 | Acids, Carbocyclic |
| D002264 | Carboxylic Acids |
| D001555 | Benzene Derivatives |
| D006841 | Hydrocarbons, Aromatic |
| D006844 | Hydrocarbons, Cyclic |
| D006838 | Hydrocarbons |
| D010879 | Piperazines |
| D006573 | Heterocyclic Compounds, 1-Ring |
| D006571 | Heterocyclic Compounds |
| D011743 | Pyrimidines |
Not provided
Not provided