The aim of this study is to provide robust data on the head-to-head comparison of the two ligands of the prostate specific membrane antigen (PSMA) available in Switzerland for positron emission tomography (PET)-imaging, i.e. 68Ga-PSMA-11 und 18F-PSMA-1007.
Prostate Cancer (PC) is the most common malignancy in men and the second leading cause of cancer-related death in men. Despite initial therapy at early stage disease, biochemical recurrence remains a commonly encountered entity and presents a challenge for conventional imaging modalities given their limited abilities to detect disease at early stages of recurrence. PET/CT with ligands of the prostate specific membrane antigen has been shown to have a significant impact on treatment and is now the sine qua non for staging of recurrent PC. For example, accurate identification of PC lesions allows for more accurate radiotherapy planning, allowing for an individualised treatment strategy. There is therefore a substantial clinical requirement for the accurate identification and stratification of individuals in whom prostate cancer is diagnosed and at earlier stages of recurrent disease when the chance of a curative treatment is at its highest. It is in this context that PSMA has become the focus of much attention owing to its high levels of expression on PC cells and has rapidly established itself as the investigation of choice in recurrent PC. Furthermore, PSMA-directed radioligand therapy is a rapidly evolving treatment modality for metastatic disease, creating an additional therapeutic role for PSMA-ligand molecular imaging, for which the term "theragnostics" has been coined. The challenge for nuclear medicine is therefore to develop tracers and examination protocols that provide optimal detection and characterisation of disease, thus improving upon this promising technique. There are currently no published prospective head-to-head studies comparing these two tracers in recurrent PC. Because of this lack of data, there are no clear recommendations about which tracer to use and in which situation. This study aims to fill this gap and provide comprehensive data with the potential to improve the diagnosis of PC. By providing robust data comparing the two tracers, such data will also provide guidance to clinicians faced with the scenario of an initially negative 68Ga-PSMA-11 PET as to the diagnostic utility of an additional 18F-PSMA-1007 PET, or vice-versa, and in which scenarios repeated scanning may be justified. Finally, the application of the radiotracer into the same patient allows for a comparison of tracer kinetics. Although radiotracer kinetics are well known from the original pioneering dosimetric publications, they have never been compared in a head to head fashion and not in biochemical recurrence. Obtaining dynamic scans over the first hour post injection will allow intra-individual dosimetry and a head-to-head comparison of parametric imaging parameters, allowing a direct comparison of the radiotracer's affinity using standard parametric imaging techniques.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
SINGLE
Enrollment
100
PET/CT scan using 18F-PSMA-1007
PET/CT scan using 68Ga-PSMA-11
Inselspital, Universitätsspital Bern
Bern, Switzerland
Patient-level detection rate
The primary endpoint is the proportion of patients with a pathological PSMA-positive finding (= patient-based sensitivity) at one time-point (2h) with the existing standard-of-care (68Ga-PSMA-11) compared to the new tracer (18F-PSMA-1007).
Time frame: 3-6 months following final scan
Comparison of tracer kinetics
Intra-individual comparison of the parametric imaging parameter KD (measure of tracer affinity) for the two radiotracers.
Time frame: For the first n=10 individuals, expected to be after 3 months
Per region-based detection rate
\- The number of pathological, benign and uncertain lesions for each tracer in five regions (prostate bed, pelvic lymph nodes, extra-pelvic lymph nodes, bone, or other organs) classified by six blinded readers (three for each tracer) using previously published interpretation guidelines (PSMA-Rads 1.0)
Time frame: Confirmed by 12 months' follow up from date of scan to a composite standard
Interreader reliability
Readers shall independently classify all PSMA-avid lesions according to previously published diagnostic criteria. The frequency of benign, equivocal and pathological lesions will be noted. Lesions will additionally be classified by region (prostate bed (T), pelvic lymph nodes (N), extrapelvic lymph nodes (M1a), bone (M1b) or other organs (M1c)). The interreader reliability for these classifications will be compared between all readers.
Time frame: Within 3-6 months of last scan
Region based PPV
\- The positive predictive value (PPV) stratified by region (local recurrence, lymph node, solid organ, bone) i.e. the percentage of pathological lesions that are confirmed pathological at the twelve months follow-up (based on the subset of patients and lesions with follow-up data at twelve months).
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Time frame: 12 months from the last scan
Lesion semiquantitative radiotracer uptake
\- semiquantitative radiotracer uptake will be assessed by standardised uptake values (SUV) as well as tumour to background contrast in a lesion based analysis. The tumour to background ratio (TBR) is defined as lesion SUV ÷ SUV of reference background region, where the background uptake is defined by convention as the left gluteal musculature
Time frame: Within 6 months of scan date
Number of patients with adverse events and their severity
\- Number and severity of adverse events per tracer (up to 48 hours follow up).
Time frame: 48 hours
Lesion based PPV
In a second round of tumour classification, two readers (in consensus) will classify each lesion as pathological, benign or uncertain in a lesion-specific approach and perform a lesion based follow-up to assess PPV on the lesion level.
Time frame: 12 months from the last scan