Whole-Brain Radiotherapy (WBRT) Versus WBRT and Integrated Boost Using Helical Tomotherapy for Multiple Brain Metastases

NCT ID: NCT00876759

Last Updated: 2009-04-07

Basic Information

• Recruitment Status: UNKNOWN
• Clinical Phase: PHASE2
• Total Enrollment: 160 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2009-04-30
• Study Completion Date: 2013-07-31

Brief Summary

Brain metastases occur in 20-40% of patients with primary extracerebral tumors. Despite important advances in therapy of malignant solid tumors and treatment of 1-3 brain metastases, multiple brain metastases continue to present a significant problem in attempting to prevent progression of disease and limit morbidity associated with therapy. The majority of patients who develop brain metastases have a short survival, effective palliation being transient. The median survival after diagnosis is as low as 3-6 months. However, there is some evidence that selected patients survive prolonged periods with vigorous therapeutic approach.

Specific therapeutic options are surgery, chemotherapy, conventional fractionated whole-brain radiotherapy (WBRT) and radiosurgery. Radiosurgery allows delivering of a single high dose fraction of radiation to targets of 3-3.5 cm maximum diameter. In patients with newly diagnosed brain metastases, a rapid decrease of symptoms, local tumor response rate of 73-90% and a median survival of 7-12 month have been reported.

WBRT alone is the treatment of choice for patients with multiple brain metastases, and for patients with single brain metastases not amenable to surgery or radiosurgery. Median survival after WBRT alone is 3-6 months.

WBRT and radiosurgery boost have been shown to improve survival in RPA class I patients and in patients with favorable histological status and squamous cell or non-small cell lung tumors. All randomized trials showed improved local control with the addition of radiosurgery to WBRT (Andrews, 2004).

WBRT in conjunction with radiosurgery improves local control and reduces the risk of new distant brain metastases, but most studies support that combined radiosurgery and WBRT does not improve the overall survival expect for patients without evidence of extracranial disease.

Helical Tomotherapy (HT) allows as a sole modality a new treatment option: Using HT, the advantage of applying a highly conformal boost dose to the metastases and WBRT can be combined in one treatment session. Therefore, it allows applying a high dose to multiple brain metastases in the sense of an integrated boost. The focus of this study is to investigate the efficacy and safety of WBRT with an integrated boost using this new treatment modality in comparison to the effects of conventional WBRT alone.

The principal objective of the trial is to assess the therapeutic efficacy of WBRT as compared to WBRT combined with integrated boost with HT delivered to patients with 2-10 brain metastases of solid tumors. The secondary objective is to evaluate the safety of WBRT as opposed to WBRT combined with integrated boost as delivered by HT in patients with 2-10 brain metastases.

Conditions

Brain Metastases

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: TREATMENT
• Blinding Strategy: NONE

Study Groups

WBRT

standard WBRT to a total dose of 30 Gy in 10 fractions

Group Type: ACTIVE_COMPARATOR

whole brain radiotherapy

Intervention Type: RADIATION

WBRT in 10 fractions to a total dose of 30Gy

WBRT with simulatneous boost

The experimental group will be treated with helical tomotherapy giving 3 Gy per fraction to the whole brain up to a total dose of 30 Gy in 10 fractions and raising the prescribed dose to the brain metastases to 5 Gy per fraction. The dose fall off to the normal brain should be as steep as possible around each brain metastasis. The optic chiasm and the optic nerves should not receive more than 3.5 Gy per fraction.

Group Type: EXPERIMENTAL

whole brain radiotherapy with simultaneous boost

Intervention Type: RADIATION

Total dose: 10 fractions: whole brain total dose: 30Gy, metastases: total dose 50Gy

Interventions

whole brain radiotherapy

WBRT in 10 fractions to a total dose of 30Gy

Intervention Type: RADIATION

whole brain radiotherapy with simultaneous boost

Total dose: 10 fractions: whole brain total dose: 30Gy, metastases: total dose 50Gy

Intervention Type: RADIATION

Eligibility Criteria

Inclusion Criteria

• Histologically or cytologically confirmed extracranial primary malignancy other than small cell lung cancer, germ cell tumor and lymphoma. Histological confirmation may have been from the primary tumor site, from another metastatic site, or from the metastatic brain lesion(s)
• 4-10 brain metastases, which are radiologically proven by MRI scan. The size of each metastasis must be between 3 mm and 4.0 cm in the largest diameter. Contrast-enhancements on MRI which are smaller than 3 mm in diameter are not considered. The total volume of the lesions must be smaller than 35 ml and the volume of perilesional normal brain receiving more than 4 Gy per fraction must be smaller than 40 ml. An evaluation of the latter criterion is strongly recommended for total lesions volume > 20 ml prior to randomization of the patient according to figure 1. OR
• 2-3 brain metastases, which are radiologically proven by MRI scan. The size of each metastasis must be between 3 mm and 4.0 cm in the largest diameter. Contrast-enhancements on MRI which are smaller than 3 mm in diameter are not considered. The patient should not be considered as a good candidate for stereotactic radiosurgery +/- whole brain radiotherapy.
• Each lesion has a distance of its margin to the chiasma opticum or the optic nerves of > 5 mm.
• Male or female, Age 18 years or older
• Laboratory requirements: hematological status must be documented.
• Platelets >30 x 109/l. If platelets are below 30 x 109/l then correction by transfusion is indicated before entry into the study according to institutional guidelines.
• Hemoglobin > 8 g/dl. If anemia is present to the extent that the hemoglobin is less than 8 g/dl then correction by transfusion and/or erythropoietin is indicated before entry into the study according to institutional guidelines.
• Before patient registration, written informed consent must be given according to ICH/GCP and national regulations.

Exclusion Criteria

• Lesions located in the medulla oblongata or in the brainstem.
• Leptomeningeal metastases or meningosis carcinomatosa. If meningosis carcinomatosa is suspected on MRI, the presence of tumor cells in the liquor cerebrospinalis must be excluded prior study entry.
• Chemotherapy within 1 week prior to study treatment
• Need for systemic chemotherapy to control primary disease or extracranial metastases within 3 weeks after study treatment (assessed before randomization)
• Prior treatment for brain metastases other than chemotherapy or resection of brain metastases (with 2-10 measurable lesions remaining), prior cranial radiotherapy
• Severe coagulopathy
• Medical illnesses or psychiatric impairments which would prevent completion of protocol therapy
• Female patients who are pregnant at the time of entering the study. Women must agree to a beta-HCG pregnancy test if the possibility of pregnancy is believed to exist. Women and men of child bearing potential who are admitted to the trial will be advised that the treatment received may be teratogenic and are advised to take adequate measures to prevent conception.
• Participation in other clinical trials within 4 weeks prior registration.

• Minimum Eligible Age: 18 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

University Hospital, Essen

OTHER

Sponsor Role: lead

Responsible Party

Department of Radiation Oncology, Medical Faculty, University Duisburg-essen

Principal Investigators

Martin Stuschke, MD pHD

Role: PRINCIPAL_INVESTIGATOR

University Duisburg-Essen, Medical Faculty, Department of Radiation Oncology

Locations

University Duisburg-Essen, Medical Faculty, department of Radiation Oncology

Essen, North Rhine-Westphalia, Germany

Site Status: RECRUITING

Klinik für Strahlentherapie Charite Campus Mitte

Berlin, , Germany

Site Status: NOT_YET_RECRUITING

Universitätsklinikum Hamburg Eppendorf, Ambulanzzentrum des UKE GmbH, Bereich Strahlentherapie,

Hamburg, , Germany

Site Status: NOT_YET_RECRUITING

Jürgen Debus

Heidelberg, , Germany

Site Status: NOT_YET_RECRUITING

Klinik und Poliklinik für Strahlentherapie und Radiologische Onkologie, Klinikum rechts der Isar, Technische Universität München

München, , Germany

Site Status: NOT_YET_RECRUITING

Countries

Germany

Central Contacts

Andrea Wittig, MD

Role: CONTACT

andrea.wittig@uni-due.de

+49201723 ext. 2050

Martin Stuschke, MD pHD

Role: CONTACT

martin.stuschke@uni-due.de

+49201723 ext. 2321

Facility Contacts

Andrea Wittig, MD

Role: primary

andrea.wittig@uni-due.de

+49201723 ext. 2050

Martin stuschke, MDpHD

Role: backup

martin.stuschke@uni-due.de

+49201723 ext. 2321

Volker Budach, MD pHD

Role: primary

volker.budach@charite.de

+49-30-450527 ext. 021

Simone Marnitz, MD pHD

Role: backup

Simone.Marnitz@charite.de

49-30-450527 ext. 162

Rudolf Schwarz, MD pHD

Role: primary

rschwarz@uke.uni-hamburg.de

040 42803 ext. 5425

Jürgen Debus, MD pHD

Role: primary

juergen.debus@med.uni-heidelberg.de

+49-6221 ext. 56 8202

Klaus Herfarth, MDpHD

Role: backup

klaus.herfarth@med.uni-heidelberg.de

+49-6221 ext. 56 8202

Michael Molls, MD pHD

Role: primary

Molls@lrz.tu-muenchen.de

+ 49 89 4140 ext. 4501

Hans Geinitz, MD pHD

Role: backup

hans.geinitz@lrz.tu-muenchen.de

089/4140 ext. 4525

Other Identifiers

Tomo0701

Identifier Type: -

Identifier Source: org_study_id