Abstract
Background and purposeTransperineal ultrasound (TPUS) is used clinically for directly assessing prostate motion. Factors affecting accuracy and precision in TPUS motion estimation must be assessed to realise its full potential.Methods and materialsPatients were imaged using volumetric TPUS during the Clarity-Pro trial (NCT02388308). Prostate motion was measured online at patient set-up and offline by experienced observers. Cone beam CT with markers was used as a comparator and observer performance was also quantified. The influence of different clinical factors was examined to establish specific recommendations towards efficacious ultrasound guided radiotherapy.ResultsFrom 330 fractions in 22 patients, offline observer random errors were 1.5 mm, 1.3 mm, 1.9 mm (left–right, superior-inferior, anteroposterior respectively). Errors increased in fractions exhibiting poor image quality to 3.3 mm, 3.3 mm and 6.8 mm. Poor image quality was associated with inconsistent probe placement, large anatomical changes and unfavourable imaging conditions within the patient. Online matching exhibited increased observer errors of: 3.2 mm, 2.9 mm and 4.7 mm. Four patients exhibited large systematic residual errors, of which three had poor quality images. Patient habitus showed no correlation with observer error, residual error, or image quality.ConclusionsTPUS offers the unique potential to directly assess inter- and intra-fraction motion on conventional linacs. Inconsistent image quality, inexperienced operators and the pressures of the clinical environment may degrade precision and accuracy. Experienced operators are essential and cross-centre standards for training and QA should be established that build upon current guidance. Greater use of automation technologies may further minimise uncertainties.
Highlights
Image guided radiotherapy (IGRT) is essential for mitigating inter fraction motion during external beam radiotherapy for prostate cancer [1,2]
A total of 42 patients were recruited. Of these 22 had no visible fiducial markers on ultrasound and were included for analysis and labelled alphabetically. 21 patients were treated with 20 fractions and one patient treated with 19 fractions
An investigation into the sources of Transperineal ultrasound (TPUS) match errors was con ducted. Both systematic and random uncertainties were calculated between observers and against the clinical standard of care (CBCT with fiducial markers)
Summary
Image guided radiotherapy (IGRT) is essential for mitigating inter fraction motion during external beam radiotherapy for prostate cancer [1,2]. Ultrasound (US) is a portable non-invasive, non-ionising and costefficient imaging solution that does not require implanted markers and is compatible with conventional C-arm linear accelerators for prostate position verification. Transperineal ultrasound (TPUS) is used clinically for directly assessing prostate motion. Prostate motion was measured online at patient set-up and offline by experienced observers. Errors increased in fractions exhibiting poor image quality to 3.3 mm, 3.3 mm and 6.8 mm. Four patients exhibited large systematic residual errors, of which three had poor quality images. Conclusions: TPUS offers the unique potential to directly assess inter- and intra-fraction motion on conventional linacs. Inconsistent image quality, inexperienced operators and the pressures of the clinical environment may degrade precision and accuracy.
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