Clinical Trials Directory

Trials / Unknown

UnknownNCT02322931

C-arm Cone-beam CT in Prostate Brachytherapy

Intra-operative Use of C-arm Cone-beam CT for Quality Assurance of Low-dose-rate Prostate Brachytherapy Dose Delivery

Status
Unknown
Phase
N/A
Study type
Interventional
Enrollment
35 (estimated)
Sponsor
British Columbia Cancer Agency · Academic / Other
Sex
Male
Age
18 Years
Healthy volunteers
Not accepted

Summary

The investigators will assess the feasibility of intraoperative use of C-arm cone-beam CT imaging for intraoperative dosimetric evaluation in prostate low-dose-rate (LDR) brachytherapy. Patients recruited are those who will receive standard LDR brachytherapy for prostate cancer treatment. Consenting patients will undergo additional 3D C-arm cone-beam CT imaging (3D C-arm) and motorized trans-rectal ultrasound (TRUS). Volumetric and dosimetric measures will be compared to those using the standard Day-0 CT images. The investigators hope that the intraoperative 3D C-arm provides quality assurance measures sufficient to eliminate the need for Day-0 CT LDR brachytherapy and provide the opportunity for intraoperative modification of seed delivery plan.

Detailed description

1. Objectives * The primary objective of this study is to determine the feasibility of replacing Day-0 CT with intra-operative 3D C-arm imaging. The main benefit of this change is to receive immediate feedback on the quality of treatment. This can lead to the possibility of performing "live" adjustments to the treatment plan based on feedback of actual seed positions achieved after implantation. * Secondly, by replacing Day-0 CT, a separate scan performed in a different site will be eliminated from the treatment procedure, freeing up the CT scanner for other clinical uses 2. Hypotheses * Primary hypothesis: Intraoperative use of 3D C-arm cone-beam CT can eliminate the need for Day-0 CT for post-implant dosimetry in prostate LDR brachytherapy by providing similar or improved dosimetric accuracy * Secondary hypothesis 1: Dosimetric values obtained with the TRUS probe inside the rectum are not significantly different from those measured when the probe is outside the rectum * Secondary hypothesis 2: Sagittal TRUS imaging provides better seed and boudnary detection for dosimetric purposes compared to transverse imaging 3. Justification Standard post-implant quality assessment at the BC Cancer Agency involves a pelvic CT 2-3 hours after treatment. This scan is performed outside the operating room, in a different location. As a result, it is not possible to receive immediate feedback on the quality of treatment. Furthermore, soft tissue visualization is poor in CT imaging and contouring variability is large. The use of other imaging modalities such as ultrasound would be beneficial. However, since the scan is performed at a different time, and with the patient in a different position, registering the images would be challenging. Intra-operative C-arm CT imaging would provide immediate feedback on the quality of treatment, provide the opportunity of using information from intra-operative ultrasound imaging for soft tissue visualization, and eliminate the need for a separate scan in a different location. 4. Research method Patients who are receiving low-dose-rate brachytherapy and consent to participate will undergo the additional imaging interventions described in section 5.7 of the application. Patients will also undergo a pelvic CT as the standard of care. To limit patient exposure to additional radiation dose, the investigators will divide the participants into 3 groups, each of which will receive a portion of the abovementioned scans. Details are described in the attached protocol. Seed locations will be identified on the 3D C-arm volume. The prostate volume on the TRUS images will be delineated and the contours will be mapped onto the 3D C-arm volume to compute standard dosimetric parameters (V100, D90). Seeds and contours will be outlined on the corresponding Day-0 CT and standard dosimetric parameters will be computed. Day-0 CT will be contoured by multiple observers to compute variability in the resulting dosimetric parameters. Dosimetric values from the 3D C-arm will be compared to those of Day-0 CT and their intra-observer variability. The seeds will be identified on 3D C-arm volumes with the TRUS probe inserted and retracted to create two seed clouds. Corresponding seeds will be matched. The difference between the seed locations in the two seed clouds will be used to model the prostate deformation due to the presence and absence of the TRUS probe. 5. Statistical analysis This is mainly a descriptive one-arm study. No comparative statistical tests will be applied

Conditions

Interventions

TypeNameDescription
PROCEDUREIntra-operative C-arm CT imaging1. Two intra-operative C-arm 3D reconstruction scans with the Ziehm Vision FD Vario 3D immediately after treatment implantation, once with the TRUS probe inserted and once with the TRUS probe removed. This involves approximately 10 fluoroscopy snapshots of the prostate. 2. Two TRUS Sagittal B-mode sweeps and two TRUS axial B-mode sweeps, once mid-way, i.e. after implanting a sub-set of the seeds, and once at the end of the implantation procedure. 3. One Cine loop C-arm scan in the sagittal plane while retracting the probe. 4. One 3D C-arm scan immediately after the treatment, with the TRUS probe removed and the patient in the supine position (i.e. legs down).

Timeline

Start date
2015-01-01
Primary completion
2019-12-01
Completion
2019-12-01
First posted
2014-12-23
Last updated
2018-01-18

Locations

1 site across 1 country: Canada

Source: ClinicalTrials.gov record NCT02322931. Inclusion in this directory is not an endorsement.