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Application of FET-PET in Fusion With MRI in the Surgical Treatment and Postoperative Radiotherapy of Glioblastoma Multiforme - a Randomized, Blinded, Prospective Study

Status: Recruiting
Location: See location...
Intervention Type: Other
Study Type: Interventional
Study Phase: Not Applicable
SUMMARY

Glioblastoma multiforme (GBM WHO IV) is the most common and aggressive primary brain tumor in adults, carrying a poor prognosis with a median survival of 12-16 months. The annual incidence is approximately 5 per 100,000 (roughly 600 cases annually in Poland), predominantly affecting individuals in their prime productive years. The standard of care consists of maximal safe resection followed by the Stupp protocol (60 Gy fractionated radiotherapy and temozolomide chemotherapy). Routine surgical management relies on contrast-enhanced MRI. Gross total resection (GTR) is defined as the complete removal of the contrast-enhancing lesion. Although GTR improves progression-free survival (PFS) and overall survival (OS), local recurrence at the operative site occurs in up to 51% of patients within a year. This rapid regrowth is driven by glioblastoma stem cells infiltrating the surrounding non-enhancing brain tissue. Consequently, standard contrast-enhanced MRI lacks the sensitivity required to define true tumor boundaries for optimal patient outcomes. To overcome this, positron emission tomography (PET-CT) using amino acid tracers like 18F-fluoroethyl-L-tyrosine (18F-FET) offers a promising alternative. Unlike 18-FDG, which is obscured by physiologically high glucose uptake in healthy brain tissue, 18F-FET provides high specificity and sensitivity for glial tumors. Crucially, studies show that MRI contrast enhancement overlaps with only 58% of the hypermetabolic area identified by 18F-FET. While supramarginal resections based on FLAIR MRI abnormalities (assumed to contain infiltrating stem cells) improve PFS by roughly 2 months, the FLAIR sequence cannot definitively distinguish active tumor infiltration from standard peritumoral edema. This proposed experiment carries significant innovative value: it aims to use the fusion of 18F-FET PET and contrast-enhanced MRI to precisely guide both primary surgical resection and postoperative radiotherapy. By redefining the primary target volume to include the area of true biological tumor activity rather than just the MRI-enhancing mass (incorporating it into GTV, CTV, and PTV planning), the procedure directly targets residual glioblastoma stem cells. While PET has been evaluated for radiotherapy planning in recurrent GBM, high-quality data regarding its use for primary surgical planning is lacking. This study aims to fill that crucial gap in the literature.

Eligibility
Participation Requirements
Sex: All
Minimum Age: 18
Maximum Age: 70
Healthy Volunteers: f
View:

• Single macroscopic tumor focus with the appearance of glioblastoma multiforme on MRI with contrast - contrast-enhancing lesion, completely or with central necrosis, with surrounding edema.

• No history of cancer in other organs. No suspicious lesions on X-ray of the chest and abdomen (CT with contrast).

• No clinical suspicion of brain abscess - no meningeal symptoms, signs of neuroinfection, fever, elevated inflammatory parameters.

• Primary tumor, without neurosurgical, radiotherapy or oncology intervention. Prior tumor biopsy is allowed.

• Tumor eligible for surgical treatment - craniotomy and tumor resection.

• Age ≥ 18 years but \< 70 years old.

• Quality of life assessment: KPS ≥ 70.

• Informed patient consent to the study and proposed treatment.

• No allergy to contrast agents used in PET and MRI.

• No medical contraindications to neurosurgery - craniotomy and resection.

Locations
Other Locations
Poland
Copernicus Memorial Hospital in Łódź, Poland
RECRUITING
Lodz
Contact Information
Primary
Kamil Krystkiewicz, PhD
kamil.krystkiewicz@gmail.com
+48426895341
Backup
Marcin Tosik, PhD
sekretariat.neurochirurgia@kopernik.lodz.pl
+48426895341
Time Frame
Start Date: 2025-12-08
Estimated Completion Date: 2032-08-31
Participants
Target number of participants: 189
Treatments
Experimental: Resection and radiotherapy according to the MRI & PET fusion
Surgical treatment and radiotherapy planned based on FET-PET and MRI+T1C fusion.
Experimental: Radiotherapy according to the MRI & PET fusion
Surgical treatment planned based on MRI+T1C study, radiotherapy planned based on FET-PET and MRI+T1C fusion.
Sham_comparator: Resection and radiotherapy according to the MRI
Surgical treatment and radiotherapy planned based on MRI+T1C.
Sponsors
Collaborators: Medical Research Agency, Poland
Leads: Copernicus Memorial Hospital

This content was sourced from clinicaltrials.gov