Prostate Cancer
Conditions
Brief summary
Image-guided navigation based on pre-operative imaging can give the surgeon more insight into the location of the sentinel nodes in relation to other anatomical structures. The purpose of the study is to investigate the feasibility of image-guided navigation during robot-assisted surgery to treat cancer in the pelvic area.Ultimately, the application of navigation during robot-assisted sentinel node dissection could potentially improve the outcome of surgery for the patient.
Detailed description
Image-guided navigation surgery allows for full utilization of pre-operative imaging during surgery, and has the potential of reducing both irradical resections and morbidity. It has successfully been applied in the AvL for open abdominal surgery, however more and more surgeries are being performed less invasive using robot surgery. Rapid extension of robot-assisted surgery has increased the need for robot-compliant image-guided techniques. Unfortunately, tactile feedback is lacking in these robotic surgeries, which increases the additional value of image-guided navigation. In this study, patients will undergo an abdominal sentinel node dissection in order to evaluate the actual technical benefit of robotic navigation. This is the first feasibility study towards clinical implementation of the navigation setup into robot-assisted image-guided navigation surgery. The results of this study will be the base for new studies, evaluating the clinical benefit of image-guided navigation for robot surgeries.
Interventions
A patient-specific 3D model will be created using an available pre-operative SPECT/CT scan. Pre-operatively, three electromagnetic patient trackers will be attached to the patients' skin, close to the pelvis, allowing tracking the patient's position during surgery. After anesthesia and before the skin disinfection procedure, the patient is placed in the final surgical position, where an intra-operative CBCT scan is performed required for the image-guided surgery workflow. During surgery, the preoperative images and 3D model will be visible for the surgeon together with a blunt-tip electromagnetic pointer enabling surgical navigation during robotic surgery. Anatomical structures will be used to validate the accuracy of the navigation. When the target is identified by the surgeon, the pointer is used to store the location digitally. Scheduled standard clinical 99mTc will be used as validation for target(s) identification.
Sponsors
The Netherlands Cancer Institute
Study design
Allocation
NA
Intervention model
SINGLE_GROUP
Primary purpose
OTHER
Masking
NONE
Intervention model description
One group to evaluate the feasibility of the proposed method.
Eligibility
Sex/Gender
MALE
Age
18 Years to No maximum
Healthy volunteers
No
Inclusion criteria
* Scheduled for abdominal robotic sentinel node resection * ≥ 18 years old * Provided written 'informed consent' * Sentinel nodes should be fixed relative to retroperitoneal structures or major vessels.
Exclusion criteria
* Metal hip implants / implants in the pelvic area * Pacemaker, defibrillator
Design outcomes
Primary
| Measure | Time frame | Description |
|---|---|---|
| Feasibility of image-guide assisted sentinel node removal | One day | The percentage of successful image-guide assisted sentinel nodes removed, in which failure is defined as sentinel nodes which are per-operatively incorrectly identified as target SN by the navigation. |
Secondary
| Measure | Time frame | Description |
|---|---|---|
| Usability of image-guided navigation | One day | Evaluation of the usability of the image-guided navigation will be evaluated using the system usability scale (SUS). This scale ranges from 0-100 where a higher score means a better outcome. |
| Time | One day | Time to localization and removal of the sentinel node and total surgical time will be recorded. |
Countries
Netherlands
Contacts
Primary ContactLaura Aguilera Saiz, MSc
Outcome results
None listed