Imaging Procedure Using ALA in Finding Residual Tumor in Grade IV Malignant Astrocytoma

Overview

RATIONALE: Imaging procedures that use aminolevulinic acid (ALA) may help find and diagnose residual tumor in participants with grade IV malignant astrocytoma who are undergoing surgery to remove the tumor. PURPOSE: Our primary long-term goal is to improve the completeness of surgical resection of malignant brain tumor through image- guided fluorescence localization. We hypothesize that the use of qualitative fluorescence imaging and point PpIX concentration quantification will enable more complete tumor resection than normal direct (i.e., white light) visualization, and thereby improve participant survival.

OBJECTIVES: Primary * Assess 2 doses of 5-ALA, 10kg/mg and 20kg/mg, to determine the optimum ALA dose in terms of both sensitivity and specificity for residual tumor. We will compare residual tumor detection by both in vivo qualitative and quantitative fluorescence imaging using histology of the biopsied tissue as the gold standard. Secondary * Assess the correlation between the recorded in vivo qualitative assessment of fluorescence signal from the neurosurgeon with the post-surgical (i.e., ex vivo) absolute PpIX concentration detected both intraoperatively and in ex vivo tissue biopsies. Tertiary * To determine the association between the presence of fluorescence in the surgical cavity and the post-operative image enhancement on MRI. This includes the relationship between the amount and location of residual tumor detected by fluorescence, PpIX concentration, and intra-operative frameless stereotaxy following maximal resection versus the amount and location of tumor imaged post-operatively via CT and/or MRI. OUTLINE: This study will enroll evaluable participants undergoing surgical resection of malignant, grade IV gliomas in both of two groups: those with , newly diagnosed GBM and those with recurrent GBM. Participants in each group (primary vs recurrent GBM) will be randomized to one of 2 levels of ALA dose (10 and20 mg/kg) to be given orally at 6 hours prior to anticipated midpoint of surgery. Participants who have consented to this protocol will be randomly assigned to one of two ALA dose groups. Randomization will be stratified by whether the tumor is newly diagnosed (i.e. de novo) or recurrent. The data center will prepare sealed, opaque envelopes with the randomized assignment to ALA dose and administration time and notify the pharmacy of the trial site so that so that the correct ALA dose can be prepared. * Arm I: Newly diagnosed GBM participants receive oral aminolevulinic acid(10mg/kg)at 6 hours before the midpoint of surgery. * Arm II: Newly diagnosed GBM participants receive oral aminolevulinic acid (20mg/kg)at 6 hours before the midpoint of surgery. * Arm III: Recurrent GBM participants receive oral aminolevulinic acid (10mg/kg)at 6 hours before the midpoint of surgery. * Arm IV: Recurrent GBM participants receive oral aminolevulinic acid (20mg/kg)at 6 hours before the midpoint of surgery. For both participants with new and recurrent disease, biopsies will be taken at up to six sites identified by the surgeon: in the tumor center, tumor edge, area surrounding the tumor (if safe), areas seen to fluoresce intraoperatively and an area with MR enhancement outside the tumor region (if this can be accomplished safely). Prior to collecting these biopsies readings will be taken at the biopsied location with the PpIX point probe by the surgeon. For each of the 6 biopsies, they will be divided into 3 parts and distributed for further analysis as follows: one portion will be sent to the pathologist for assessment of tumor percentage, one portion will be evaluated by the Division of Biophysics at the University of Toronto for PpIX concentration and the other for assessment of fluorescence.