PINPOINT Feasibility Study

Approximately 47,000 men are diagnosed with prostate cancer yearly in the UK, 15% of which receive surgery (radical prostatectomy) as primary treatment. Of these men one third develop recurrence after prostatectomy and are offered post-operative radiotherapy.

Radiotherapy is targeted at the area where the prostate used to be, this includes potential relapse sites (PRS); vesicourethral anastomosis, bladder neck and retrovesicle space. When planning post-operative radiotherapy, the lack of a visible target means surrounding normal tissue is used to guide clinical target volume (CTV) delineation. The CTV is the area of tissue to be treated to the full radiotherapy prescription and includes PRS. Typically, the CTV is defined on a radiotherapy planning computer tomography (CT) scan.

The CTV lies adjacent to the bladder and rectum and is highly susceptible to positional changes influenced by organ filling. To identify and correct for CTV displacement during daily radiotherapy a cone-beam CT (CBCT) is acquired, this is an image similar to a CT scan but taken immediately prior to treatment delivery.

CT visualisation of PRS has been reported as inadequate, increasing the risk of missing or miss-identifying CTV structures during radiotherapy planning and delivery. To compensate for restricted visualisation on CT and CBCT an additional 1cm circumference around the CTV is treated to the prescription dose, this volume is referred to as the planning target volume (PTV). This margin reduces the risk of missing the target however its inclusion of normal tissue increases the risk of patient toxicity.

We propose that visualisation of PRS and surrounding normal tissue structures is enhanced on magnetic resonance imaging (MRI) compared to CT and on transperineal ultrasound (TPUS) compared to CBCT. This project investigates the reality of this statement by quantifying the confidence and reliability with which anatomical structures can be identified and delineated on all four image types.