the investigators hypothesise that 18F-FDOPA PET kinetic parameters are good biomarkers to characterise suspected LGG brain lesions that exhibit no contrast on MRI, for identifying aggressive lesions. These parameters could constitute diagnostic biomarkers for this indication. This new diagnostic tool could enhance patient care in the short term in an evolving pathology affecting socially active subjects with a poor prognosis
Diffuse low-grade gliomas (LGGs) without any contrast enhancement on MRI are rare (15% of gliomas, 700 cases/year in France), have a poor prognosis (median overall survival from 5 to 15 years) and affect young, socially active subjects (median age 40 years). Among these lesions, 30% present with high grade histopathological criteria or with poor prognostic molecular characteristics, according to the 2021 WHO Classification of Tumors of the Central Nervous System (lack of IDH \[Isocitrate DeHydrogenase\] mutation, CDKN2A/B deletion). These high-grade types of tumours progress within 6 months and their diagnosis and management represent a public health issue. Moreover, the care of LGG patients is currently not standardised. Although treatment is based on surgery and the complete excision of the lesion, as far as this is possible, and/or first-line chemotherapy ±radiotherapy, the optimal time to begin treatment remains controversial. Aggressive forms should be diagnosed as soon as possible to allow immediate surgery to improve survival, whilst strategies allowing the maintenance of an optimal quality of life, more often with functional surgery alone, are recommended for non-aggressive forms. The main hurdle to standardised patient management is the lack of amenable non-invasive biomarkers to identify aggressive LGG forms. 18F-FDOPA positron emission tomography (PET) is promising to diagnose initial gliomas with conventional Standardised-Uptake-Value (SUV) parameters. Our team recently demonstrated the potential of 18F-FDOPA PET kinetics to better characterise gliomas. Two parameters are determined from the 30-minute dynamic acquisition curve of the tumour: the time-to-peak SUV (TTP), and the SUV slope. In our previous studies, limited by their monocentric and retrospective nature, molecular characteristics were mainly predicted by TTP: long TTP for an IDH-mutation and short TTP for IDH-wildtype tumours. A prospective multicentric study is needed to confirm our preliminary results in a specific population of suspected LGGs without any contrast enhancement on MRI. The investigator hypothesise that 18F-FDOPA PET kinetic parameters are biomarkers which lead to improved care because they characterise aggressive forms of gliomas exhibiting no contrast on MRI.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
88
A 18F-FDOPA PET exam is then performed (acquisition of 30 minutes in List Mode format) according to the French guidelines for PET neuro-oncological indications (Verger et al. Med Nuc, 2020, (5)). Patient preparation and acquisition: * 4 hours of fasting * No carbidopa premedication * 2 MBq / kg of 18F-FDOPA * Dynamic acquisition in List Mode format for 30 min starting simultaneously with the patient's injection * Low dose scanner for attenuation correction
CHRU Nancy
Vandœuvre-lès-Nancy, France
RECRUITINGTo assess diagnostic performances of 18F-FDOPA PET (Positon Emission Tomography) Time-To-Peak in suspected LGGs without MRI -contrast enhancement for characterisation of aggressive lesions
the sensitivity, specificity, predictive positive value (PPV) and negative predictive value (NPV) of the 18F-FDOPA kinetic TTP parameter, to characterise aggressive lesions within suspected LGGs with no contrast enhancement on MRI at the initial diagnosis.
Time frame: 24 months
To assess the diagnostic performances of 18F-FDOPA "slope", to characterise aggressive lesions
Sensitivity, specificity, Positive Predictive Value and Negative Predicitive Value of the 18F-FDOPA kinetic "slope" parameter
Time frame: 24 months
To assess the diagnostic performances of 18F-FDOPA SUV static conventional parameters and/or radiomics analyses associated with TTP kinetic parameter, to characterise aggressive lesions
Sensitivity, specificity, positive predictive and negative predictive values of the 18F-FDOPA conventional parameters and/or radiomics analysis and the kinetic parameter.
Time frame: 24 months
To assess, in patients suspected to have a non-contrast enhanced glioma at diagnosis the prevalence of aggressive forms within the suspected LGGs without any MRI contrast
Proportion of aggressive lesions expressed as an instantaneous prevalence and its 95% confidence interval of the total number of suspected LGGs without any contrast enhancement on MRI examined at initial diagnosis and referred for biopsy or surgery within the following 6 months. enhancement
Time frame: 24 months
To assess, in patients suspected to have a non-contrast enhanced glioma at diagnosis the clinical impact of the 18F-FDOPA PET (positon emission tomography) Time-To-Peak parameter
Number of patients who need to be diagnosed with 18F-FDOPA kinetic parameter TTP to identify an aggressive lesion within the suspected LGG population that do not exhibit any contrast enhancement on MRI at initial diagnosis and that undergo biopsy/surgery, defined as: 1/ \[% of aggressive lesions detected with the 18F-FDOPA Time-To-Peak parameter\].
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Time frame: 24 months