Combination Chemotherapy With or Without Filgrastim Before Surgery, High-Dose Chemotherapy, and Radiation Therapy Followed by Isotretinoin With or Without Monoclonal Antibody in Treating Patients With Neuroblastoma

Last updated: June 23, 2014
Sponsor: University of Leicester
Overall Status: Trial Status Unknown

Phase

3

Condition

Neuroblastoma

Treatment

N/A

Clinical Study ID

NCT00030719
CDR0000069191
EU-20148
SIOP-EUROPE-HR-NBL-1
ESIOP
  • Ages 1-20
  • All Genders

Study Summary

RATIONALE: Colony-stimulating factors such as filgrastim may increase the number of immune cells found in bone marrow or peripheral blood and may help a person's immune system recover from the side effects of chemotherapy. Combining chemotherapy with peripheral stem cell transplant may allow the doctor to give higher doses of chemotherapy drugs and kill more tumor cells. Monoclonal antibodies can locate tumor cells and either kill them or deliver tumor-killing substances to them without harming normal cells. Combining isotretinoin and monoclonal antibodies may kill any remaining tumor cells following surgery. It is not yet known which treatment regimen is more effective in treating neuroblastoma.

PURPOSE: This randomized phase III trial is studying how well combination chemotherapy with or without filgrastim before surgery, high-dose chemotherapy, and radiation therapy followed by isotretinoin with or without monoclonal antibody work in treating patients with neuroblastoma.

Eligibility Criteria

Inclusion

DISEASE CHARACTERISTICS:

  • Diagnosis of neuroblastoma according to International Neuroblastoma Staging System

  • Stage 2 or 3 with MycN amplification

  • Stage 4

  • Tumor material available for determination of biological prognostic factors

PATIENT CHARACTERISTICS:

Age:

  • 1 to 20 at diagnosis

Performance status:

  • Not specified

Life expectancy:

  • Not specified

Hematopoietic:

  • Not specified

Hepatic:

  • Bilirubin less than 3 times normal

  • ALT less than 3 times normal

Renal:

  • Creatinine less than 1.5 mg/mL

  • Creatinine clearance and/or glomerular filtration rate at least 60 mL/min

Cardiovascular:

  • Shortening fraction at least 28% OR

  • Ejection fraction at least 55%

  • No clinical congestive heart failure

Pulmonary:

  • Chest x-ray normal

  • Oxygen saturation normal

Other:

  • HIV negative

  • No Brock grade 2 or greater

  • No uncontrolled infections requiring IV antivirals, antibiotics, or antifungals

  • Not pregnant or nursing

  • Fertile patients must use effective contraception

PRIOR CONCURRENT THERAPY:

Biologic therapy:

  • Not specified

Chemotherapy:

  • No more than 1 prior chemotherapy regimen for localized unresectable disease

  • No concurrent anthracyclines

  • No other concurrent chemotherapy

Endocrine:

  • Not specified

Radiotherapy:

  • Not specified

Surgery:

  • Not specified

Other:

  • No other concurrent investigational therapy

Study Design

Total Participants: 175
Study Start date:
December 01, 2001
Estimated Completion Date:

Study Description

OBJECTIVES:

  • Compare the efficacy of myeloablative therapy with busulfan and melphalan vs carboplatin, etoposide, and melphalan, in terms of 3- and 5-year event-free survival (EFS), progression-free survival (PFS), and overall survival (OS), in patients with high-risk neuroblastoma.

  • Compare the 3-year EFS in these patients treated with isotretinoin with or without monoclonal antibody Ch14.18 after myeloablative therapy.

  • Determine the response at metastatic sites after induction chemotherapy in these patients.

  • Determine the effect of metastatic disease response after induction chemotherapy on EFS, PFS, and OS in these patients.

  • Compare the toxicity and episodes of febrile neutropenia in patients treated with induction chemotherapy with or without filgrastim (G-CSF).

  • Determine the effect of elective hematopoietic support with G-CSF during induction chemotherapy on peripheral blood stem cell collection in these patients.

  • Compare the acute and long-term toxic effects of the 2 myeloablative therapy regimens in these patients.

  • Determine the effect of radiotherapy on pre-surgical tumor volume at the primary site on local control, EFS, PFS, and OS in these patients.

  • Determine the tolerability of isotretinoin with or without monoclonal antibody Ch14.18 after myeloablative therapy in these patients.

OUTLINE: This is a randomized, multicenter study. Patients are stratified according to disease stage (2 or 3 with MycN amplification vs 4). Patients are randomized to 1 of 8 treatment arms:

Arm I:

  • Patients receive induction chemotherapy comprising vincristine IV, carboplatin IV over 1 hour, and etoposide IV over 4 hours on days 1 and 41; vincristine IV and cisplatin IV over 24 hours on days 11, 31, 51, and 71; and vincristine IV on days 21 and 61 and cyclophosphamide IV and etoposide over 4 hours on days 21, 22, 61, and 62. Patients receive filgrastim (G-CSF) subcutaneously on days 3-8, 12-18, 23-28, 32-38, 43-48, 52-58, 63-68, and 72 until peripheral blood stem cell (PBSC) collection.

  • Patients undergo PBSC collection beginning on day 80. Patients then undergo surgery on day 95.

  • Patients receive myeloablative therapy comprising oral busulfan 4 times daily on days -6 to -3 and melphalan IV over 15 minutes on day -2. Patients undergo PBSC infusion on day

  • Patients undergo radiotherapy in 14 fractions over 21 days.

  • Beginning within 30 days after radiotherapy, patients receive oral isotretinoin twice daily on days 1-14. Treatment repeats every 28 days for 6 courses.

Arm II:

  • Patients receive induction chemotherapy as in arm I, but with no G-CSF. Patients then undergo PBSC collection and surgery as in arm I. Patients receive myeloablative therapy and undergo PBSC infusion as in arm I. Patients undergo radiotherapy as in arm I.

  • Patients receive oral isotretinoin twice daily on days 1-14 and monoclonal antibody Ch14.18 IV over 8 hours on days 1-5. Treatment repeats every 28 days for 6 courses for isotretinoin and every 28 days for 5 courses for monoclonal antibody Ch14.18.

Arm III:

  • Patients receive induction chemotherapy and G-CSF as in arm I. Patients then undergo PBSC collection and surgery as in arm I. Patients receive myeloablative therapy and undergo PBSC infusion as in arm I. Patients undergo radiotherapy as in arm I. Patients receive isotretinoin as in arm I.

Arm IV:

  • Patients receive induction chemotherapy as in arm II. Patients then undergo PBSC collection and surgery as in arm I. Patients receive myeloablative therapy and undergo PBSC infusion as in arm I. Patients undergo radiotherapy as in arm I. Patients receive isotretinoin and monoclonal antibody Ch14.18 as in arm II.

Arm V:

  • Patients receive induction chemotherapy and G-CSF as in arm I.

  • Patients receive myeloablative therapy comprising carboplatin IV continuously and etoposide IV continuously on days -7 to -4 and melphalan IV over 15 minutes on days -7 to -5. Patients undergo PBSC infusion on day 0.

  • Patients undergo radiotherapy as in arm I. Patients receive isotretinoin as in arm I.

Arm VI:

  • Patients receive induction chemotherapy as in arm II. Patients receive myeloablative therapy and undergo PBSC infusion as in arm V. Patients undergo radiotherapy as in arm I. Patients receive isotretinoin and monoclonal antibody Ch14.18 as in arm II.

Arm VII:

  • Patients receive induction chemotherapy and G-CSF as in arm I. Patients receive myeloablative therapy and undergo PBSC infusion as in arm V. Patients undergo radiotherapy as in arm I. Patients receive isotretinoin as in arm I.

Arm VIII:

  • Patients receive induction chemotherapy as in arm II. Patients receive myeloablative therapy and undergo PBSC infusion as in arm V. Patients undergo radiotherapy as in arm I. Patients receive isotretinoin and monoclonal antibody Ch14.18 as in arm II.

Patients on all treatment arms are followed every 6 months for 3 years and then annually for 2 years.

Peer Reviewed and Funded or Endorsed by Cancer Research UK

PROJECTED ACCRUAL: Approximately 175 patients per year will be accrued for this study.

Connect with a study center

  • St. Anna Children's Hospital

    Vienna, A-1090
    Austria

    Active - Recruiting

  • Universitair Ziekenhuis Gent

    Ghent, B-9000
    Belgium

    Active - Recruiting

  • Aarhus Universitetshospital - Aarhus Sygehus

    Aarhus, DK-8000
    Denmark

    Active - Recruiting

  • Institut Gustave Roussy

    Villejuif, F-94805
    France

    Active - Recruiting

  • Our Lady's Hospital for Sick Children Crumlin

    Dublin, 12
    Ireland

    Active - Recruiting

  • Schneider Children's Medical Center of Israel

    Petah-Tikva, 49202
    Israel

    Active - Recruiting

  • Fondazione Istituto Nazionale dei Tumori

    Milan, 20133
    Italy

    Active - Recruiting

  • Rikshospitalet University Hospital

    Oslo, 0027
    Norway

    Active - Recruiting

  • Instituto Portugues de Oncologia de Francisco Gentil - Centro Regional de Oncologia de Lisboa, SA

    Lisbon, 1099-023 Codex
    Portugal

    Active - Recruiting

  • Hospital Universitario La Fe

    Valencia, 46009
    Spain

    Active - Recruiting

  • Karolinska University Hospital - Solna

    Stockholm, S-171 76
    Sweden

    Active - Recruiting

  • Centre Hospitalier Universitaire Vaudois

    Lausanne, CH-1011
    Switzerland

    Active - Recruiting

  • Birmingham Children's Hospital

    Birmingham, England B4 6NH
    United Kingdom

    Active - Recruiting

  • Institute of Child Health at University of Bristol

    Bristol, England BS2 8AE
    United Kingdom

    Active - Recruiting

  • Addenbrooke's Hospital

    Cambridge, England CB2 2QQ
    United Kingdom

    Active - Recruiting

  • Leeds Cancer Centre at St. James's University Hospital

    Leeds, England LS9 7TF
    United Kingdom

    Active - Recruiting

  • Leicester Royal Infirmary

    Leicester, England LE1 5WW
    United Kingdom

    Active - Recruiting

  • Royal Liverpool Children's Hospital, Alder Hey

    Liverpool, England L12 2AP
    United Kingdom

    Active - Recruiting

  • Great Ormond Street Hospital for Children

    London, England WC1N 3JH
    United Kingdom

    Active - Recruiting

  • Middlesex Hospital

    London, England W1T 3AA
    United Kingdom

    Active - Recruiting

  • Royal Manchester Children's Hospital

    Manchester, England M27 4HA
    United Kingdom

    Active - Recruiting

  • Sir James Spence Institute of Child Health at Royal Victoria Infirmary

    Newcastle-Upon-Tyne, England NE1 4LP
    United Kingdom

    Active - Recruiting

  • Queen's Medical Centre

    Nottingham, England NG7 2UH
    United Kingdom

    Active - Recruiting

  • Oxford Radcliffe Hospital

    Oxford, England 0X3 9DU
    United Kingdom

    Active - Recruiting

  • Children's Hospital - Sheffield

    Sheffield, England S10 2TH
    United Kingdom

    Active - Recruiting

  • Southampton General Hospital

    Southampton, England SO16 6YD
    United Kingdom

    Active - Recruiting

  • Royal Marsden - Surrey

    Sutton, England SM2 5PT
    United Kingdom

    Active - Recruiting

  • Royal Belfast Hospital for Sick Children

    Belfast, Northern Ireland BT12 6BE
    United Kingdom

    Active - Recruiting

  • Royal Aberdeen Children's Hospital

    Aberdeen, Scotland AB25 2ZG
    United Kingdom

    Active - Recruiting

  • Royal Hospital for Sick Children

    Edinburgh, Scotland EH9 1LF
    United Kingdom

    Active - Recruiting

  • Royal Hospital for Sick Children

    Glasgow, Scotland G3 8SJ
    United Kingdom

    Active - Recruiting

  • Childrens Hospital for Wales

    Cardiff, Wales CF14 4XW
    United Kingdom

    Active - Recruiting

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