Evaluation of [18F]Fluoroethyl Triazole Labelled [Tyr3]-Octreotate Analogues for the Imaging of Neuroendocrine Tumours. (FETONET)

Neuroendocrine tumours (NET) are tumours derived from enterochromaffin cells, which are characterised by the expression of somatostatin receptors (SSTRs) on their surface. These tumours release substances into systemic circulation, resulting in episodic flushing, wheezing, diarrhoea, and eventual right-sided valvular heart disease. All of these symptoms negatively impact on patients' quality of life. The management of NET is primarily determined by the stage of disease. For patients with localised or limited disease the primary modality of therapy is surgery. Whilst patients with metastatic disease, undergo systemic therapy with palliative intent. Accurate imaging is therefore central to the management of this disease. Whilst computed tomography (CT) is useful in the localisation of NET, nuclear imaging using tumour-specific radiolabelled receptors are considerably more sensitive and specific methods for detecting NET and their metastases. The most commonly used positron emission tomography (PET) radiotracers used for the visualisation of NET are radiolabelled somatostatin analogs (SSAs) labelled with [68Ga]Ga-DOTA-peptides. The [68Ga]Ga-DOTA-peptide radiolabelled SSAs have significant limitations in terms of accessibility and low throughput. The team at Imperial College London developed a novel radiotracer, [18F]fluoroethyl triazole labelled [Tyr3]-Octreotate analogue ([18F]-FET-βAG-TOCA), in an attempt to overcome these limitations. The FETONET study was designed to have 3 parts. The FETONET study was designed to have 3 parts. Part A evaluated the biodistribution, dosimetry and safety of [18F]FET-βAG-TOCA. Uptake was assessed at multiple time points over a 4 hour period. The data was analysed and an optimal imaging time point determined. Part B of the FETONET study involved the performance of whole body static [18F]FET-βAG-TOCA PET-CT imaging, at the optimal time point previously established, within a larger cohort of patients. Part C comprised a prospective non-inferiority study that analysed the [18F]FET-βAG-TOCA PET/CT data collected within Part A & Part B and compared this to standard of care [Ga68]Ga-DOTA-peptide PET-CT imaging.