Clinical Trials Logo

Clinical Trial Summary

Brain metastases occur in 20-40% of patients with metastatic cancer. The standard treatment is based on whole brain radiation therapy and local treatment of metastases as neurosurgery or radiosurgery. However, many cases can not receive a standard local treatment, and local relapse occurs in almost 50% of cases treated with only whole brain irradiation. There are retrospective studies of increased radiation dose at the site of metastasis with hypofractionated stereotactic radiotherapy (HSRT) with favorable results, but there are no controlled studies regarding the safety of radiation dose in these situations. This study is a phase I study to evaluate the maximum tolerance dose (MTD) with HSRT as a way to increase the dose of radiation after the WBRT for patients with 1-3 brain metastases not eligible for surgery or RS.


Clinical Trial Description

RADIOTHERAPY WBRT Patient in supine position Immobilization of the head with a thermoplastic mask Simulation with computed tomography (CT) with contrast.

Design:

Clinical target volume (CTV): brain and meninges to the foramen magnum Planned treatment volume (PTV): 5 mm from the CTV in all directions

- Planning:

- Technique: Two latero-lateral fields, with permission to use field inside the fields, known as "field-in-field".

- Isodose prescription: 95% of the dose covering 95% of PTV

- Maximum dose allowed in the PTV: 15% higher than the prescribed dose

- Dose / fractionation: 30 Gy in 10 fractions of 3 Gy once a day, five times a week

- Treatment Equipment: Linear accelerator of 6-MeV photons (Varian Clinac 600 CD, Varian Medical Systems, Palo Alto, CA, USA)

HSRT Planning HSRT

- Held on the seventh day post-WBRT(or next business day if the date coincides with a weekend or holiday):

- Patient in supine position

- Preparation of individualized mask "Mask Patient One set is 41,100 (BrainLAB AG, Heimstetten, Germany)

- Brain MRI with contrast and volumetric reconstruction of 1 mm without mask and without fiducial markers

- Brain CT with contrast, 1-mm slices with tracking and stereotactic fixation.

- Fusion of MRI and CT in the planning system iPlan version 4.1 (BrainLAB AG, Heimstetten, Germany)

- Delineation Gross tumor volume (GTV): metastasis(es) of the brain displayed in the MRI signal in T1 with contrast Clinical target volume (CTV)= GTV Planning target volume (PTV)= CTV with 3 mm margins in all directions

- Physical Planning

- Technique: multiple dynamic arcs, multiple static conformal fields, multiple static modulated fields, multiple static arcs

- isodose prescription: higher isodose that meets the following criteria: Coverage of at least 95% of the PTV with the prescription dose (V100 ≥ 95%) and 95% Of the prescription dose covering at least 99% of the PTV (V95 ≥ 99%).

- Maximum dose allowed in or outside the PTV: 20% of prescription dose, while respecting the tolerance of the organs described below.

- Scores compliance with RTOG

- Dose escalation scheme

Study model It'll be recruited 3 patients to the initial scheme of 4 fractions of 5 Gy on each brain metastasis with HSRT and if no patient has unacceptable toxicity, more 3 patients for subsequent scheme will be recruited. If 2 patients had unacceptable toxicity, the study ends and it'll be considered the study initiated with toxic regimen. If 1 patient has unacceptable toxicity, it'll be recruited 3 more patients for this scheme and if 1 or more patients had unacceptable toxicity, the scheme will be considered toxic and the study will be closed. If no patient develops unacceptable toxicity, the study will follow to the next cohort of 3 more patients with next dose level. The same criteria of recruitment will be performed till any scheme reach the MTD or up to the scheme of 4 fractions of 9 Gy.

- The number of fractions of HSRT will be kept in 4 fractions for all cohorts.

- The initial dose is 5 Gy per day.

- Increasing the dose of one cohort to another will be more than 1 Gy per day of HSRT. For example: If the scheme of 4 fractions of 5 Gy will not have unacceptable toxicity, the study continues to recruit patients for the scheme of 4 fractions of 6 Gy, and so subsequently.

- The study will recruit patients to the fractionation scheme up to four fractions of 9 Gy according to the BEDGy3 be similar to a maximum dose of RS studies to brain metastasis of 24 Gy in one fraction.

- At the discretion of the responsible investigator for the safety of the study, the number of patients may be increased in each cohort during the study.

- Restrictions of radiation dose on critical organ

- optic chiasm: BEDGy3: 90 Gy

- optic nerves: BEDGy3: 90 Gy

- optic tract: BEDGy3: 90 Gy

- brainstem: BEDGy3: 110 Gy

- retina: BEDGy3: 72 Gy

- lens: BEDGy3: 16.7 Gy

- Simulation of HSRT

- Ten days post-WBRT(or next business day, if the date coincides with a weekend or holiday)

- Tests of collision safety and quality control testing to ensure the alignment of isocenters radiation, mechanical and coincidence of lasers (Winston-Lutz test).

- Treatment of HSRT

- Eleventh day post-WBRT(or next business day, if the date coincides with a weekend or holiday)

- Treatment equipment

- linear accelerator of 6-MeV photons (Varian Clinac linear accelerator 600 CD, Varian Medical Systems, Palo Alto, CA, USA)

- Micromultileaf m3 System(BrainLAB AG, Heimstetten, Germany). ;


Study Design

Endpoint Classification: Safety Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment


Related Conditions & MeSH terms


NCT number NCT02080949
Study type Interventional
Source Barretos Cancer Hospital
Contact
Status Withdrawn
Phase Phase 1
Start date January 2011
Completion date October 2011

See also
  Status Clinical Trial Phase
Active, not recruiting NCT04074096 - Binimetinib Encorafenib Pembrolizumab +/- Stereotactic Radiosurgery in BRAFV600 Melanoma With Brain Metastasis Phase 2
Recruiting NCT04474925 - Pre- Versus Post-operative SRS for Resectable Brain Metastases Phase 3
Recruiting NCT05358340 - Dual Perfusion Imaging for Characterizing Vascular Architecture of Brain Lesions N/A
Recruiting NCT05559853 - Developing a New MRI Technique to Understand Changes in Brain Tumors After Treatment
Completed NCT03189381 - Pilot Phase 2 Study Whole Brain Radiation Therapy With Simultaneous Integrated Boost for Patients With Brain Metastases N/A
Completed NCT02082587 - Toronto BNB Pilot Study N/A
Terminated NCT01551680 - A Trial Evaluating Concurrent Whole Brain Radiotherapy and Iniparib in Multiple Non Operable Brain Metastases Phase 1
Terminated NCT00717275 - Study of Temozolomide to Treat Newly Diagnosed Brain Metastases Phase 2
Recruiting NCT05048212 - A Phase II Study of Nivolumab With Ipilimumab and Cabozantinib in Patients With Untreated Renal Cell Carcinoma Brain Metastases Phase 2
Recruiting NCT03714243 - Blood Brain Barrier Disruption (BBBD) Using MRgFUS in the Treatment of Her2-positive Breast Cancer Brain Metastases N/A
Recruiting NCT05573815 - Evaluation of Clinical Decision Support System for Brain Metastasis Using Brain MR Images N/A
Recruiting NCT04899908 - Stereotactic Brain-directed Radiation With or Without Aguix Gadolinium-Based Nanoparticles in Brain Metastases Phase 2
Completed NCT04507217 - Tislelizumab Combined With Pemetrexed/ Carboplatin in Patients With Brain Metastases of Non-squamous NSCLC Phase 2
Recruiting NCT05452005 - Fluorine-18-AlphaVBeta6-Binding Peptide Positron Emission Tomography in Metastatic Non-Small Cell Lung Cancer Phase 1
Recruiting NCT06457906 - SRS/SRT/Hypo-RT Versus HA-WBRT for No More Than 10 Brain Metastases in SCLC Phase 3
Completed NCT04170777 - Perfexion Registration Using CBCT
Recruiting NCT03027544 - Tomotherapy for Refractory Brain Metastases N/A
Completed NCT04178330 - Tomotherapy as Primary Radiotherapy for Multipule Brain Metastases N/A
Terminated NCT02187822 - Fractionated Stereotactic Radiotherapy (FSRT) in Treatment of Brain Metastases Phase 1
Terminated NCT00538343 - RTA 744 in Breast Cancer Patients With Progression of Previously Irradiated Brain Metastases Phase 2