This study will establish the feasibility and accuracy of localising and outlining the uterus on ultrasound images using both healthy volunteer and cervical patient cohorts. This will enable us to determine whether or not ultrasound will be a good option to ensure the correct patient position prior to radiotherapy for cervical cancer patients.
Radiotherapy is an established and effective method for treating cancer, but it can have negative side effects if healthy tissues are also exposed to radiation. In the case of cervical cancer, the bladder, small bowel, and bone marrow are often irradiated, which can result in both short-term and long-term side effects. There are sophisticated radiation delivery techniques (known as IMRT and VMAT) which are capable of administering the radiation dose in a precise and controlled manner so that the intended target is irradiated and the healthy tissue is spared. However, the only way for these sophisticated radiation delivery methods to work in cervical cancer is to localise the uterus prior to radiotherapy treatment so that the lineup between the radiation beam and the target is ensured. The uterus is a relatively mobile organ, and can have very different positions within the body depending on the patient position, bladder volume, tumour site, etc. Currently, we are unable to take advantage of the sophisticated radiation delivery techniques as we have no reliable way of seeing where the uterus is. Ultrasound is a promising way to overcome this problem. Ultrasound is non-ionising, has good soft-tissue contrast, and can easily be incorporated into the radiation treatment room. We wish to establish the feasibility and accuracy of localising and outlining the uterus on ultrasound images. This will enable us to determine whether or not ultrasound will be a good option to ensure the correct patient position prior to radiotherapy for cervical cancer patients.
Study Type
OBSERVATIONAL
Enrollment
25
Royal Marsden Hospital NHS Foundation Trust
Sutton, Surrey, United Kingdom
RECRUITINGPercentage of ultrasound scans with dice similarity coefficient (DSC) of >0.90 between algorithm-derived contour and ground-truth contour
The DSC between the ground truth contour and the algorithm derived contour will indicate the accuracy of the segmentation algorithm.
Time frame: DSC calculated at 24 time points for each healthy volunteer (3 days)
Coefficient of variation between of expert-drawn contours on ultrasound and expert-drawn contours on CBCT
A small COV will indicate greater clinician/expert confidence in segmenting the uterus
Time frame: COV calculated at a minimum of 3 time points during 6 weeks that the patient is receiving radiation therapy
Bland-Altman plot (healthy volunteer cohort)
Used to describe the level of agreement between MR and ultrasound images of the uterus.
Time frame: 1 day
Uterine center of mass displacement on ultrasound (healthy volunteer cohort)
Assess both inter- and intra- fractional motion of the uterus.
Time frame: 3 days
Expert confidence scores for each imaging modality (ultrasound and MR) (healthy volunteer cohort)
Determine if uterine segmentation on ultrasound receives acceptable confidence score compared with MR
Time frame: from data collected over 3 days
Bland-Altman plot (patient volunteer cohort)
describe level of agreement among the COV, circularity index, volume, and centre of mass position betweeen ultrasound, CT, and CBCT.
Time frame: 6 weeks
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Expert confidence scores for each imaging modality (ultrasound, CT, and CBCT) (patient volunteer cohort)
Determine if uterine segmentation on ultrasound receives greater confidence score compared with CT and CBCT.
Time frame: from data collected over 6 weeks