Clinical Trials Logo

Clinical Trial Summary

A study is being performed to observe whether a novel type of brain imaging using a technique called PET-MRI may provide useful information in the 'mapping' of adult primary brain tumours. It employs a radiolabelled molecule targeting a particular molecule called PSMA which is hypothesised to be a marker of aggression in primary brain tumours. 'Mapping' of the concentration and distribution of this molecule within brain tumours via PET-MRI may provide vital clinical information regarding the extent and timing of treatment.


Clinical Trial Description

One potential avenue of high grade glioma treatment involves a 'theranostic' radiotherapeutic approach. This consists of two stages: firstly, a particular protein expressed specifically by the tumour is radiolabelled with a targeted radioligand emitting gamma radiation, enabling confirmation of the presence, concentration and distribution of this target protein (diagnostic stage). Following this, a similar ligand is this time attached to an alpha or beta-emitter, enabling targeted tumour destruction (therapeutic stage). There is growing, but limited, evidence that prostate specific membrane antigen (PSMA) is strongly and specifically expressed in high grade glioma and may be a potential theranostic target [Wernicke 2011, Unterrainer 2017]. It has already been used extensively as a theranostic target in metastatic prostate cancer, demonstrating safety and efficacy in this condition [Abou et al 2020]. The clinical outcomes shown in prostate cancer, along with evidence of PSMA expression in high grade glioma, led the study team to convene an Incubator Day with a group of experts to explore the possibility of developing a PSMA-targeting theranostic agent in high grade glioma. Expertise included PSMA theranostics (Prof Lewington), neuro-oncology (Dr Brazil, Guy's and St Thomas' Hospital (GSTT)), neurosurgery (Prof Ashkan, King's College Hospital (KCH)), neuropathology (Prof Al-Sarraj, KCH), neuroradiology (Dr Booth, KCH) PSMA PET imaging (Prof Gary Cook and Prof Alexander Hammers GSTT/KCL), nuclear physics (Prof Paul Marsden GSTT/KCL), and PSMA radiopharmaceutical chemistry (Prof Blowers, KCL). It was concluded that a PSMA-targeting theranostic agent has the potential to be a safe and effective treatment for high grade glioma. The regulatory pathway should be eased enormously by the precedent of use in prostate cancer, which would obviate the need for pre-clinical studies. This approach was conditional upon two objectives: 1. Perform a series of five [68Ga]PSMA PET scans for dosimetry analysis and assessment of the retention of the tracer in the tumour (Using GSTT/KCL PET/MRI) prior to biopsy, at the same time as the patient's routine brain tumour imaging series. At time of recurrence a further [68 Ga]PSMA PET-MRI scan may be performed in each patient (depending on whether or not recurrence occurs during the study period) to assess for change in the standardised uptake value (SUV). 2. Performing immunohistochemical analysis on high grade glioma specimens (prospectively in patients enrolled in this study with additional retrospective samples), in order to replicate published evidence on the expression of PSMA in such tumours, and also to demonstrate in the prospective cohort, a correlation between imaging detection of [68 Ga]PSMA and histopathological detection in stereotactic brain tumour biopsy samples (Using KCH neuropathology facilities). ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05263466
Study type Interventional
Source King's College Hospital NHS Trust
Contact Thomas C Booth, PhD
Phone 07977509937
Email thomasbooth@nhs.net
Status Not yet recruiting
Phase N/A
Start date August 1, 2022
Completion date May 1, 2027

See also
  Status Clinical Trial Phase
Recruiting NCT05557240 - Neoantigens Phase I Trial in Newly Diagnosed Glioblastoma Patients N/A
Recruiting NCT05474573 - Concurrent Fluorescence and Sonographically Guided Eradication of Contrast-enhancing Gliomas and Metastases N/A
Recruiting NCT05485038 - General Anesthesia Versus Awake Surgery in Resection of Gliomas and Metastases of Motor Areas N/A
Active, not recruiting NCT04547621 - HSRT and IMRT Chemoradiotherapy for Newly Diagnosed GBM Phase 1/Phase 2
Recruiting NCT05076513 - Trial of Niraparib in Participants With Newly-diagnosed Glioblastoma and Recurrent Glioma Early Phase 1
Completed NCT05806619 - Glioma: Biomolecular Aspects
Not yet recruiting NCT04562077 - Role of Surgery in Treatment of Recurrent Brian Glioma:Prognostic Factors and Outcome
Recruiting NCT06038760 - Prospective Evaluation of AI R&D Tool in Adult Glioma and Other Primary Brain Tumours (PEAR-GLIO)
Completed NCT04497142 - Effect of Perampanel on Peritumoral Hyperexcitability in HGG Phase 1/Phase 2
Recruiting NCT05500508 - Oral AMXT 1501 Dicaprate in Combination With IV DFMO Phase 1/Phase 2
Active, not recruiting NCT05656053 - Intraoperative Rapid Diagnosis of Glioma Based on Fusion of Magnetic Resonance and Ultrasound Imaging
Recruiting NCT06196918 - Efficacy and Safety of Rivaroxaban in the Prevention of Venous Thromboembolism in Glioma Patients N/A
Recruiting NCT05556486 - Mapping of Tumor Stem Cells in the Resection Marigin During Extirpation of Highly Malignant Gliomas Using GlioStem
Recruiting NCT05406700 - Niraparib In Recurrent IDH 1/2 Gliomas Early Phase 1
Recruiting NCT05773326 - Superselective Intra-arterial Cerebral Infusion of Temsirolimus in HGG Early Phase 1
Active, not recruiting NCT05063682 - The Efficacy and Safety of Brain-targeting Immune Cells (EGFRvIII-CAR T Cells) in Treating Patients With Leptomeningeal Disease From Glioblastoma. Administering Patients EGFRvIII -CAR T Cells May Help to Recognize and Destroy Brain Tumor Cells in Patients Phase 1
Completed NCT05100602 - Clinical Evaluation of Genetron TERT PCR Kit in Glioma Patients
Completed NCT05100173 - Clinical Evaluation of Genetron IDH1 PCR Kit in Glioma Patients
Recruiting NCT05182905 - AZD1390 in Recurrent and Newly Diagnosed WHO Grade 4 Glioma Patients Early Phase 1
Recruiting NCT06381726 - Personalized Rendering of Motor System Functional Plasticity Potential to Improve Glioma Resection and Quality of Life N/A